CN208452045U

CN208452045U - Feeding bottle and breast pump and its base unit

Info

Publication number: CN208452045U
Application number: CN201820105100.4U
Authority: CN
Inventors: 胡敏
Original assignee: NINGBO LACTANS MEDICAL TECHNOLOGY Co Ltd
Current assignee: NINGBO LACTANS MEDICAL TECHNOLOGY Co Ltd
Priority date: 2017-01-22
Filing date: 2018-01-22
Publication date: 2019-02-01
Anticipated expiration: 2028-01-22
Also published as: CN208683481U; CN108557258B; CN108357034B; CN108557258A; CN108357034A

Abstract

The utility model discloses a feeding bottles and breast pump and its base unit, wherein the feeding bottle includes a bottle body and a base unit, the base unit includes a base body and a sensor.There is the base body installation space to perforate with the restocking for being connected to the installation space, wherein the sensor includes the sensor cantilever for being arranged at the base body and the sensor main body for being arranged at the sensor cantilever, and the sensor main body is maintained at the restocking perforation with being suspended, wherein the base body includes a cover film, the cover film closes the restocking perforation, and the sensor main body can be applied pressure to after the cover film is deformed, wherein the bottle body is installed in the base body, to form an accommodating chamber between the bottle body and the base body, and the corresponding part of being perforated by the restocking of the cover film is maintained at the accommodating chamber.

Description

Feeding bottle and breast pump and its base unit

Technical field

The utility model relates to a feeding bottles, in particular to a feeding bottle and breast pump and its base unit.

Background technique

Feeding bottle is a kind of common container, and wherein feeding bottle can be used for for infant and the brewed milk powder of children, wherein During the brewed milk powder of feeding bottle, the proportionate relationship of water and milk powder carrys out children especially for the health of infant Say special important, the ratio of either water is bigger or the ratio of milk powder is bigger, can be good for infant and children Health adversely affects.The outer wall of present feeding bottle is designed with scale, for helping user's reference to be contained in feeding bottle Water, so that user be helped to grasp by the ratio of water and milk powder in brewed milk powder.Specifically, when user falls water Enter to after feeding bottle, user can be set scale on the outer wall through the outer wall and foundation of feeding bottle and measure in feeding bottle Then water is relied on and is measured for measuring the spoon of the amount of milk powder to the amount of milk powder.But this mode is still deposited at present In many defects, so that leading to user still can not accurately grasp by the ratio of water and milk powder in brewed milk powder Example relationship.

Specifically, firstly, user usually first injects water into feeding bottle during milk powder brewed using feeding bottle In, in this process, the mood of user will affect the speed that water is injected into feeding bottle, when water is rapidly injected into milk After bottle, water can generate shaking in feeding bottle, cause user that can not accurately obtain the water being added into feeding bottle, and It is also in this way, this causes the proportionate relationship by water and milk powder in brewed milk powder can not when using the amount of spoon measurement milk powder It is accurately controlled.Secondly as the operating pressure and life stress of present young man are all bigger, young user is logical It can often ask nurse or parent to help and look after infant's perhaps mistake of the children in nurse or parent treatment infant or children Cheng Zhong, inevitably need nurse perhaps parent using the brewed milk powder of feeding bottle and nurse or parent because idea or its It is all to carry out a certain amount of water and a certain amount of milk powder by experience that the reason of his aspect, which leads to them in most cases, It mixes and brewed milk powder, this causes the proportionate relationship by water and milk powder in brewed milk powder more uncertain.More importantly If user can not obtain the nurse perhaps water of the brewed milk powder of parent and the proportionate relationship infant of milk powder or child on long-term The ratio of drinkable water and milk powder is inappropriate by brewed milk powder, then will certainly cause such as to the health of infant or children Adverse effect.

Utility model content

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle energy Enough user is helped accurately to control by the ratio of water and milk powder in brewed milk powder.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle energy Enough accurately measurements are added into the water of the feeding bottle and the amount of milk powder, to be added into the milk in subsequent accurately measurement The water of bottle and the amount of milk powder, so that user be helped accurately to control by the ratio of water and milk powder in brewed milk powder.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle is permitted Perhaps user is remotely accurately obtaining by the ratio of water and milk powder in brewed milk powder.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle mentions For a sensor, the sensor can obtain the amount of the water and milk powder that are added into the feeding bottle.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the sensor The amount of the water and milk powder that are added into the feeding bottle is obtained in a manner of detecting pressure suffered by unit area.For example, described Sensor can be touch force sensor, weighing sensor, baroceptor etc., so that the sensor can be single to detect The mode of the suffered pressure of plane product obtains the amount of the water and milk powder that are added into the feeding bottle.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle energy It is enough to help user accurately to control by brewed milk powder by way of obtaining and being added into the water of feeding bottle and the amount of milk powder In water and milk powder ratio.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle energy The heat transfer of the enough water for preventing to be added into the feeding bottle is to the sensor, to guarantee the precision of the sensor, and In this way, it can guarantee the reliability and stability of the feeding bottle.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle mentions For a base body, wherein the sensor is arranged at the base body, wherein the sensor is added into sensing The pressure of the water of the feeding bottle obtains the water for being added into the feeding bottle to the mode that water is weighed.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the pedestal sheet Body provides a cover film, wherein cover film isolation is added into the water and the sensor of the feeding bottle, to prevent from being added into Sensor described in the Water Damage of the feeding bottle, and the cover film is deformable, to allow the sensor to be added into sense The water of the feeding bottle is added into the pressure or obtain to the mode that water is weighed of the water of the feeding bottle.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein in the covering Insulation part is equipped between film and the sensor, to prevent the heat for the water for being added into the feeding bottle to pass by the insulation part It is delivered to the sensor.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the feeding bottle packet Include an intelligent container, wherein the intelligent container can real-time monitoring be contained the physical signal of the substance in the container such as: Temperature, characterization information (such as quality, volume) are enabled the user to by the physical signal and then can accurately be measured Required substance.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the intelligence is held Device can real-time monitoring be contained the physical signal of the substance in the container, and the intelligent container is capable of providing use One consequential signal of person is enabled the user to by the consequential signal to decide whether to continue into the intelligent container Additive.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, and wherein user can be with A reference signal will be set as using the physical signal of intelligent container allotment substance in the past, and then enabled a user to every time Measure the substance with essentially identical physical signal.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the intelligence is held Device can real-time monitoring container be contained the characterization of the substance in the container, and then enable a user to repeatedly mix concentration Almost the same solution.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the intelligence is held Device, which can monitor, is contained the mass temperature in the container, with pre- lower than one in the temperature for being contained the substance in the container If temperature value when, the intelligent container can automatically heat it, so make be located at the intelligent container in substance Temperature be not less than preset temperature value always.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the intelligence is held Device includes a container body and a smart machine, wherein the smart machine is removable installed in the container body bottom So that the container body is able to be disassembled and be used alone.

One of the utility model is designed to provide a feeding bottle and breast pump and its base unit, wherein the intelligence dress The physical signal for being contained the substance in the container that setting can be will test by way of wireless transmission is conveyed to user.

According to the one aspect of the utility model, the utility model provides a feeding bottle comprising a bottle body and a base unit, Wherein the base unit further comprises:

One base body, wherein the base body includes a pedestal restocking and a cover film, wherein the pedestal restocking It perforates with a restocking, the cover film is arranged at the pedestal upper surface of the pedestal restocking, and the pedestal restocking Restocking perforation corresponds to the cover film, wherein the bottle body is arranged at the base body, in the bottle body and An accommodating chamber is formed between the base body, and the restocking by the pedestal restocking of the cover film is perforated and corresponded to Part be located at the accommodating chamber；With

One sensor, wherein the sensor includes a sensor cantilever and the freedom for being arranged at the sensor cantilever One sensor main body at end, the connecting pin of the sensor cantilever is arranged at the base body, wherein the sensor master At least part of body is maintained at the restocking perforation of the pedestal restocking with being suspended, and the cover film is after deformation It can apply pressure to the sensor main body.

One embodiment according to the present utility model, the cover film are formed in the pedestal restocking with the cover film The mode of the pedestal upper surface is arranged at the pedestal upper surface of the pedestal restocking.

One embodiment according to the present utility model, the cover film with the cover film and the pedestal restocking integrally The mode of formation is arranged at the pedestal upper surface of the pedestal restocking.

One embodiment according to the present utility model, the sensor upper surface of the sensor main body of the sensor with The pedestal upper surface of the pedestal restocking is concordant；Or the sensor upper surface of the sensor main body of the sensor Protrude from the pedestal upper surface of the pedestal restocking；Or table on the sensor of the sensor main body of the sensor Face is lower than the pedestal upper surface of the pedestal restocking.

One embodiment according to the present utility model, the base unit further comprise an insulation part, wherein it is described every Hot portion is maintained between the cover film and the sensor main body of the sensor.

One embodiment according to the present utility model, the insulation part are formed in the cover film and/or the sensor The sensor main body.

One embodiment according to the present utility model, the base unit further comprise a display screen, wherein described aobvious Display screen is connected to the sensor.

According to the other side of the utility model, the utility model further provides for a breast pump comprising:

One breast pump ontology；With

One feeding bottle, wherein the feeding bottle is arranged at the breast pump ontology, wherein the feeding bottle includes a bottle body and one Base unit, wherein the base unit further comprises:

According to the other side of the utility model, the utility model further provides for a base unit, for being applied to a milk Bottle, wherein the feeding bottle includes a bottle body, wherein the base unit includes:

One embodiment according to the present utility model, the cover film are formed in the pedestal restocking with the cover film The mode of the pedestal upper surface is arranged at the pedestal upper surface of the pedestal restocking；Or the cover film is with described The mode that cover film is mounted on the pedestal upper surface of the pedestal restocking is arranged at the base of the pedestal restocking Seat upper surface.

According to the other side of the utility model, the utility model further provides for the manufacturing method of a feeding bottle, wherein institute Manufacturing method is stated to include the following steps:

(a) cover film is set in institute in such a way that the restocking for making the pedestal restocking is perforated corresponding to a cover film State the pedestal upper surface of pedestal restocking；

(b) vacantly keep at least part of a sensor main body of a sensor in the pedestal restocking it is described on Frame perforation, to obtain a base unit, wherein can apply pressure to the sensor main body after the cover film is deformed；With And

(c) one bottle body of installation is accommodated in the base unit with forming one between the bottle body and the base unit Chamber and the feeding bottle is made, wherein the restocking by the pedestal restocking of the cover film is perforated, corresponding part is kept In the accommodating chamber.

One embodiment according to the present utility model, in the step (a), the cover film is formed with the cover film The pedestal upper surface of the pedestal restocking is arranged in the mode of the pedestal upper surface of the pedestal restocking.

One embodiment according to the present utility model, in the step (a), the cover film is with the cover film and institute State the pedestal upper surface that the mode that pedestal restocking is integrally formed is arranged at the pedestal restocking.

One embodiment according to the present utility model further comprises in the above-mentioned methods step:

It is arranged in such a way that a molding protrusion of one first mold is maintained at the restocking perforation of the pedestal restocking The pedestal restocking is in first mold；

It is molded in a manner of operating one second mold, with convex in the molding of second mold and first mold A forming gap is formed between rising, and the company of being formed between second mold and the pedestal upper surface of the pedestal restocking Lead to a molding space of the forming gap；And

After being added into a mold material cures of the molding space and the forming gap, to first mold and Second mold executes draft, to form the cover film for the pedestal upper surface for being covered in the pedestal restocking.

At least one mold in one first mold and one second mold is operated to first mold and second mould Tool is molded, and a forming gap is formed between protrusion and second mold to form in the one of first mold, and The molding space for being connected to the forming gap is formed between the other parts of first mold and second mold；And

After being added into a mold material cures of the molding space and the forming gap, to first mold and Second mold executes draft, to form the pedestal restocking in the corresponding position of the molding space, and in the molding The corresponding position of protrusion forms the restocking perforation of the pedestal restocking, and is formed in the corresponding position of the forming gap The cover film.

One embodiment according to the present utility model forms an insulation part in the cover film and institute in the above-mentioned methods It states between the sensor main body of sensor.

Detailed description of the invention

Figure 1A is the schematic diagram of an intelligent container of a feeding bottle in a preferred embodiment of the utility model, wherein the intelligence Can container a container body and the intelligent container a smart machine be it is detachable, wherein a processing of the smart machine Device is modular as the processing routine in a cloud.

Figure 1B is the schematic diagram of an intelligent container of a feeding bottle in the another preferred embodiment of the utility model, wherein described One container body of intelligent container and a smart machine of the intelligent container are integrated setting, wherein the one of the smart machine Processing unit is modular as the processing routine in a cloud.

Fig. 1 C is the stereoscopic schematic diagram of a feeding bottle of another preferred embodiment of the utility model.

Fig. 2 is the decomposition diagram according to the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Fig. 3 is the inside after being splitted according to the feeding bottle of the above-mentioned preferred embodiment of the utility model along middle position Structural schematic diagram.

Fig. 4 is a use state diagram according to the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Fig. 5 is another use state diagram according to the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Fig. 6 is the schematic diagram according to one of the manufacturing step of the feeding bottle of above-mentioned preferred embodiment of the utility model.

Fig. 7 is two schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Fig. 8 is three schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Fig. 9 is four schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Figure 10 is five schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Figure 11 is six schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Figure 12 is seven schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Figure 13 is eight schematic diagram according to the manufacturing step of the feeding bottle of the above-mentioned preferred embodiment of the utility model.

Figure 14 be according to the above-mentioned preferred embodiment of the utility model the feeding bottle using exemplary schematic diagram.

Figure 15 is the section view according to a variant embodiment of the feeding bottle of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 16 is cutd open according to another variant embodiment of the feeding bottle of the above-mentioned preferred embodiment of the utility model Depending on schematic diagram.

Figure 17 is cutd open according to another variant embodiment of the feeding bottle of the above-mentioned preferred embodiment of the utility model Depending on schematic diagram.

Figure 18 is cutd open according to another variant embodiment of the feeding bottle of the above-mentioned preferred embodiment of the utility model Depending on schematic diagram.

Figure 19 is cutd open according to another variant embodiment of the feeding bottle of the above-mentioned preferred embodiment of the utility model Depending on schematic diagram.

Figure 20 is cutd open according to another variant embodiment of the feeding bottle of the above-mentioned preferred embodiment of the utility model Depending on schematic diagram.

Figure 21 is the work flow diagram of smart machine described in the utility model above-described embodiment.

Figure 22 A is the schematic diagram of an intelligent container in another embodiment of the utility model, wherein the one of the intelligent container The smart machine of container body and the intelligent container is detachable.

Figure 22 B is the schematic diagram of an intelligent container in another embodiment of the utility model, wherein the one of the intelligent container The smart machine of container body and the intelligent container is integrated setting.

Figure 23 is the work flow diagram of smart machine described in the utility model above-described embodiment.

Figure 24 A is the work that the physical signal of water is added in the smart machine monitoring of one preferred embodiment of the utility model Make flow chart.

Figure 24 B is that the another of the physical signal of milk powder is added in the smart machine monitoring of one preferred embodiment of the utility model A work flow diagram.

Figure 24 C is that milk powder is molten in the accommodating chamber of the smart machine monitoring container body of one preferred embodiment of the utility model Another work flow diagram of liquid temperature.

Figure 25 is the schematic diagram of a breast pump of a preferred embodiment of the utility model.

Figure 26 is the work flow diagram according to an intelligent container management system of a preferred embodiment of the utility model.

Figure 27 is the work flow diagram according to a management system of the above-mentioned preferred embodiment of the utility model.

Specific embodiment

It is described below for disclosing the utility model so that those skilled in the art can be realized the utility model.It retouches below Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It is retouched following The basic principle of the utility model defined in stating can be applied to other embodiments, deformation scheme, improvement project, etc. Tongfangs The other technologies scheme of case and the spirit and scope without departing from the utility model.

It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper", The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore on Stating term should not be understood as limiting the present invention.

It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment, The quantity of one element can be one, and in a further embodiment, the quantity of the element can be multiple, term " one " It should not be understood as the limitation to quantity.

With reference to the attached drawing 1A to Fig. 4, Figure 22 A to Figure 23 of the Figure of description of the utility model, according to the one of the utility model One feeding bottle 1 of preferred embodiment is disclosed for and is set forth in following description, wherein the feeding bottle 1 includes an intelligent container 100, wherein the intelligent container 100 includes a container body 10 and a smart machine 20, wherein the container body 10 can A certain amount of substance is contained, for example, water, milk powder, water and mixture of milk powder etc., the container body 10 can be arranged at institute State smart machine 20.For example, in this specific example of the intelligent container 100 shown in attached drawing 1A, the container master Body 10 is arranged at the smart machine 20 in such a way that the container body 10 is maintained at the top of the smart machine 20. Preferably, the vessel 10 can be placed on the top of the smart machine 20, so that 10 energy of the vessel It is enough to be moved away from from the smart machine 20.

In one embodiment of the utility model, the container body 10 include a bottom wall 11 and from the bottom wall 11 to One outer wall 12 of upper extension, wherein the container body 10 further have an accommodating chamber 110 be connected to the accommodating chamber 110 One opening 120, wherein the accommodating chamber 110 is formed between the bottom wall 11 and the outer wall 12, wherein the container body 10 accommodating chamber 110 can contain a certain amount of substance such as solid and fluid (such as liquids and gases), be specifically as follows but It is not limited to the mixture etc. of water, milk powder, water and milk powder.

In the embodiment shown in attached drawing 1A, the smart machine 20 is also possible to be removably installed in the container Main body 10, that is to say, that container body 10 described in the utility model can be used alone, and the smart machine 20 Can successively cooperate multiple container bodies 10 carry out using.

In another embodiment of the utility model, with reference to attached drawing 1B, the container body 10 only includes described in one Outer wall 12, wherein the outer wall 12 has a upper opening and a lower openings, wherein the smart machine 20 is arranged at institute Container body 10 is stated, so that the lower openings that the outer wall 12 of the container body 10 is formed are covered by the smart machine 20 It closes, so that the accommodating chamber 110 is formed between the outer wall 12 and the smart machine 20 of the container body 10, and this When, the upper opening of the outer wall 12 of the vessel 10 forms the opening 120 of the vessel 10.? That is the smart machine 20 forms the bottom wall of the vessel 10 of the intelligent container 100, and the intelligence at this time The outer wall 12 of energy equipment 20 and the container body 10 forms the accommodating chamber 110 with the opening 120.

Preferably, in the embodiment shown in attached drawing 1B, the smart machine 20, which can be, is connected integrally to the appearance Device main body 10 is also possible to the smart machine 20 and is removably installed in the container body 10.

Attached drawing 1C to Figure 13 shows the another preferred embodiment of the feeding bottle 1, wherein the feeding bottle 1 includes a bottle body 40 With a base unit 50 and with the accommodating chamber 110 and the opening 120 for being connected to the accommodating chamber 110, wherein described Bottle body 40 is installed in the base unit 50, to form the accommodating chamber between the bottle body 40 and the base unit 50 110 and it is described opening 120.

Further, the bottle body 40 has a high end 41, an end portion 42, a high end opening 410 and a low side Opening 420, wherein the high end 41 of the bottle body 40 and the end portion 42 correspond to each other, and the high end opening 410 are formed in the high end 41 and low side opening 420 is formed in the end portion 42.The bottle body 40 it is described low End 42 is installed in the base unit 50, to close the low side opening of the bottle body 40 by the base unit 50 420, and the accommodating chamber 110 is formed between the bottle body 40 and the base unit 50, wherein the institute of the bottle body 40 It states high end opening 410 and forms the opening 120 for being connected to the accommodating chamber 110.

Preferably, the end portion 42 of the bottle body 40 is removably installed in the base unit 50, thus It is subsequent, the bottle body 40 and the base unit 50 can be dismantled, respectively to the bottle body 40 and the pedestal list Member 50 is cleaned.Optionally, the end portion 42 of the bottle body 40 does not permit after being installed in the base unit 50 Perhaps user dismantles the bottle body 40 and the base unit 50.Also optionally, the bottle body 40 and the pedestal list At least part structure of member 50 may be integrally formed.

It is noted that in following description, removably being pacified with the end portion 42 of the bottle body 40 Content and feature loaded on the feeding bottle 1 for continuing to disclose and illustrate the utility model for the base unit 50, but ability Field technique personnel should be appreciated that the feeding bottle 1 shown in attached drawing 1C to Figure 13 is only for example, and should not be considered as to this reality With the limitation of the content and range of the novel feeding bottle 1.

With reference to attached drawing 2 and Fig. 3, the base unit 50 includes a base body 51, and the base body 51 further wraps A pedestal restocking 511, a pedestal undercarriage 512 and a cover film 513 are included, wherein under the pedestal restocking 511 and the pedestal Frame 512 is mutually installed, to form an installation space 510, institute between the pedestal restocking 511 and the pedestal undercarriage 512 It states cover film 513 and is arranged at the pedestal restocking 511.

Specifically, the pedestal restocking 511 has restocking perforation 5111, wherein in the pedestal restocking 511 and institute Pedestal undercarriage 512 is stated mutually to be installed and form the installation between the pedestal restocking 511 and the pedestal undercarriage 512 After space 510, the 5111 connection installation space 510 of restocking perforation of the pedestal restocking 511.The cover film 513 are arranged at the pedestal restocking 511, and at least part of the cover film 513 is made to cover the pedestal restocking 511 At least part of pedestal upper surface 5112, and the restocking perforation 5111 of the pedestal restocking 511 is made to correspond to described cover Epiphragma 513.That is, the cover film 513 is closed on described in the pedestal upper surface 5112 of the pedestal restocking 511 Frame perforation 5111.Correspondingly, the pedestal undercarriage 512 has undercarriage perforation 5121, wherein the institute of the pedestal undercarriage 512 State the installation space that 5121 connection of undercarriage perforation is formed between the pedestal restocking 511 and the pedestal undercarriage 512 510。

Preferably, the cover film 513 is to be formed in the side of the pedestal upper surface 5112 of the pedestal restocking 511 Formula is arranged at the pedestal restocking 511.Optionally, the cover film 513 is to be mounted on described in the pedestal restocking 511 The mode of pedestal upper surface 5112 is arranged at the pedestal restocking 511.The feeding bottle 1 of the utility model is retouched next Institute is arranged in such a way that the cover film 513 is formed in the pedestal upper surface 5112 of the pedestal restocking 511 in stating For stating pedestal restocking 511, continue that the content and feature of the feeding bottle 1 of the utility model are disclosed and illustrated.

It is noted that the mounting means of the pedestal restocking 511 and the pedestal undercarriage 512 is in the utility model It is unrestricted in the feeding bottle 1, for example, in a preferable examples of the feeding bottle 1 of the utility model, the pedestal restocking 511 and the pedestal undercarriage 512 can be mounted together threadably, and in the feeding bottle of the utility model In 1 another preferable examples, the pedestal restocking 511 and the pedestal undercarriage 512 are installed in such a way that glue bonds Together.

The base unit 50 further comprises a sensor 52, wherein the sensor 52 includes a sensor cantilever 521 and be arranged at the sensor cantilever 521 free end a sensor main body 522, wherein the sensor cantilever 521 Connecting pin be arranged at the pedestal undercarriage 512.Preferably, the connecting pin of the sensor cantilever 521 is with mounted side Formula is arranged at the pedestal undercarriage 512.Nevertheless, in other optional examples of the feeding bottle 1 of the utility model, The connecting pin of the sensor cantilever 521 of the sensor 52 can also be arranged at the pedestal restocking 511.

The sensor 52 is maintained at being formed under the pedestal restocking 511 and the pedestal of the base body 51 The installation space 510 between frame 512, and at least part quilt of the sensor main body 522 of the sensor 52 It is maintained at restocking perforation 5111 and the sensor upper surface 5221 of the sensor main body 522 of the pedestal restocking 511 Towards the cover film 513, with can be on the sensor with the sensor main body 522 in the subsequent cover film 513 Surface 5221 contacts.Preferably, the restocking perforation for being maintained at the pedestal restocking 511 of the sensor main body 522 5111 part is not contacted with the inner wall for being used to form the restocking perforation 5111 of the pedestal restocking 511, in this way Mode, the sensor 52 can accurately sense the pressure from the cover film 513.Preferably, in the sensor master Body 522 be maintained at the pedestal restocking 511 the restocking perforation 5111 after, the cover film 513 directly with the biography The sensor upper surface 5221 of sensor main body 522 contacts.For example, table on the sensor of the sensor main body 522 Face 5221 is concordant with the pedestal upper surface 5112 of the pedestal restocking 511, so that being formed in the pedestal restocking The cover film 513 of 511 pedestal upper surface 5112 directly with table on the sensor of the sensor main body 522 Face 5221 contacts.Or the sensor upper surface 5221 of the sensor main body 522 protrudes from the pedestal restocking 511 The pedestal upper surface 5112 covers so that being formed in the described of the pedestal upper surface 5112 of the pedestal restocking 511 Epiphragma 513 is directly contacted with the sensor upper surface 5221 of the sensor main body 522.Optionally, the sensor master The sensor upper surface 5221 of body 522 can also be lower than the pedestal upper surface 5112 of the pedestal restocking 511, and It, can be with the sensor upper surface 5221 of the sensor main body 522 after the cover film 513 is deformed subsequent Contact.

Preferably, the sensor cantilever 521 of the sensor 52 is in the shape of an " I ", and the sensor cantilever 521 can have at least one heat dissipation channel, in this way, can not only increase the two of the sensor cantilever 521 The mobility of side air, and the heat dissipation area of the sensor cantilever 521 can be increased, to be conducive to prevent or reduce quilt The heat transfer that the water of the feeding bottle 1 is added passes through this to guarantee the precision of the sensor 52 to the sensor 52 The mode of sample can be further ensured that the stability and reliability of the feeding bottle 1.

In addition, the base unit 50 further comprises an insulation part 53, wherein the insulation part 53 is formed in described cover The surface of the sensor main body 522 of epiphragma 513 and/or the sensor 52, for example, the insulation part 53 can be formed in The sensor upper surface 5221 of the sensor main body 522 can prevent to be added into the feeding bottle in this way The heat of 1 water is transmitted to the sensor 52 via the cover film 513, so that the temperature of the sensor 52 be made to be maintained at Optimum range has an impact to avoid the precision to the sensor 52.In addition, the insulation part 53 can also be formed in it is described At least one of pedestal restocking 511 and the pedestal undercarriage 512, with the heat of the further water for preventing to be added into the feeding bottle 1 The sensor 52 is transferred to via the pedestal restocking 511 and the pedestal undercarriage 512.

In a specific example of the feeding bottle 1 of the utility model, heat-barrier material can be sprayed to described cover Epiphragma 513, at least part surface of the sensor 52, at least part surface of the pedestal restocking 511 and the base Seat undercarriage 512 at least part surface, with it is subsequent by the heat-barrier material in the cover film 513, the sensor 52 at least part surface, at least one of at least part surface of the pedestal restocking 511 and the pedestal undercarriage 512 Point surface forms the insulation part 53.

With further reference to attached drawing 2 and Fig. 3, the base unit 50 includes a shell 54, wherein 51 quilt of the base body It is installed on the shell 54, to protect the base in a manner of being looped around the outside of the base body 51 by the shell 54 Seat ontology 51.The shell 54 has an installation passage 540, wherein the installation passage 540 is via the pedestal undercarriage 512 The installation space 510 of the 5121 connection base body 51 of undercarriage perforation a, wherein battery 200 can be via institute The undercarriage perforation 5121 of the installation passage 540 and the pedestal undercarriage 512 of stating shell 54 is installed on the pedestal sheet The installation space 510 of body 51.The base unit 50 further comprises a battery cover 55, wherein the battery cover 55 is pacified Loaded on the shell 54, to close the installation passage 540 of the shell 54 by the battery case 55.Preferably, described Battery case 55 is removably installed in the shell 54, so that being installed in the battery of the installation passage 540 200 is replaceable.

In addition, the base unit 50 further comprises a processor 56 and a display screen 57, wherein the processor 56 It is arranged at the installation space 510 of the base body 51, the display screen 57 is arranged at the shell 54, and institute It states display screen 57 and the sensor 52 is connected to the processor 56 respectively, so that the display screen 57 can show institute State the information of the acquisition of sensor 52.Preferably, the base unit 50 includes a circuit board 58, wherein the circuit board 58 is set It is placed in the installation space 510 of the base body 51, the sensor 52, the processor 56 and the display screen 57 It is connected to the circuit board 58 respectively, so that the sensor 52 and the display screen 57 are respectively via the circuit board 58 are connected to the processor 56.

With reference to attached drawing 2 and Fig. 3, the shell 54 has internal thread structure, and the end portion 42 of the bottle body 40 has External thread structure, wherein the internal thread structure energy of the external thread structure of the end portion 42 of the bottle body 40 and the shell 54 It is enough to cooperate, so that the bottle body 40 is installed in the base unit 50, to make the base of the base unit 50 Seat ontology 51 closes the low side opening 420 of the end portion 42 of the bottle body 40, and then in the bottle body 40 and described The accommodating chamber 110 is formed between base unit 50.It will be apparent to a skilled person that shown in attached drawing 2 and Fig. 3 In this preferable examples of the feeding bottle 1, the cover film 513 of the base unit 50 closes the described low of the bottle body 40 End opening 420, to form the accommodating chamber 110 between the base unit 50 and the bottle body 40.Optionally, described In other possible examples of feeding bottle 1, the institute of the pedestal restocking 511 of the base body 51 of the base unit 50 The low side opening 420 of the bottle body 40 can be closed by stating pedestal upper surface 5112, thus in the base unit 50 and institute It states and forms the accommodating chamber 110 between bottle body 40, and at this moment, the cover film 513 is maintained at the accommodating chamber 110 It is interior.

Preferably, in this preferable example of the feeding bottle 1 shown in attached drawing 2 and Fig. 3, the cover film 523 covers It covers the pedestal upper surface 5112 of the pedestal restocking 511 and further coats the base peripheral wall of the pedestal restocking 511 5113, thus after the base body 51 is installed in the shell 54, in the base body 51 and the shell 54 Between be equipped with the cover film 523, to guarantee the leakproofness between the base body 51 and the shell 54.And by making The cover film 523 further coats the mode of the base peripheral wall 5113 of the pedestal restocking 511, in the bottle body 40 The end portion 42 is installed on the shell 54 later in the pedestal restocking 511 of the bottle body 40 and the base body 51 Between be equipped with the cover film 523, to guarantee the leakproofness between the bottle body 40 and the pedestal restocking 511, to prevent It is added into the mixture leakage of the water or water and milk powder of the accommodating chamber 110 of the feeding bottle 1, to guarantee the feeding bottle 1 reliability when in use.

Attached drawing 4 and Fig. 5 show the state of the feeding bottle 1 when in use.With reference to attached drawing 4, when water be added into it is described After the accommodating chamber 110 of feeding bottle 1, with the variation for the water for being added into the accommodating chamber 100, water, which generates pressure, to be made The part of the restocking perforation 5112 corresponding to the pedestal restocking 511 of the cover film 513 is to the base body 51 The direction of the installation space 510 be deformed, and the deformed cover film 513 can further apply pressure to the sensing Device 52 is obtained in a manner of the pressure or weighing for being subject to the sensor 52 by sensing and is added into the accommodating chamber 110 water, and the display screen 57 can be shown in a manner of digitized, for easily being checked by user.With reference to Attached drawing 5, after milk powder is added into the accommodating chamber 110 of the feeding bottle 1, the pressure that water and milk powder generate can further make The part of the restocking perforation 5112 corresponding to the pedestal restocking 511 of the cover film 513 is to the base body 51 The direction of the installation space 510 be deformed, and the deformed cover film 513 can further apply pressure to the biography Sensor 52 is obtained in a manner of the pressure or weighing for being subject to the sensor 52 by sensing and is added into the accommodating chamber The amount of 110 milk powder, and the display screen 57 can be shown in a manner of digitized, for easily being checked by user. It will be apparent to a skilled person that obtaining the water and milk powder for being added into the accommodating chamber 110 of the feeding bottle 1 Amount after, the water of the accommodating chamber 110 of the feeding bottle 1 and the ratio of milk powder can be accurately controlled, and can be with number The mode of word is shown in the display screen 57, for easily being checked by user, to advantageously ensure that infant and youngster Virgin healthy growth.

Preferably, the base unit 50 of the feeding bottle 1 further comprises a memory 59, wherein the memory 59 It is arranged at the installation space 510 of the base body 51, and the memory 59 is connected to the processor 56.After utilizing the brewed milk powder of the feeding bottle 1 every time, by the amount and water of the water of brewed milk powder and milk powder and milk powder Ratio can be stored in the memory 59, for checking in the person of being subsequently to be used again through the display screen 57.

It is highly preferred that the base unit 50 of the feeding bottle 1 further comprises a communication agency 60, wherein the communication Mechanism 60 is arranged at the installation space 510 of the base body 51, and the communication agency 60 be connected to it is described Processor 56, wherein the communication agency 60 is communicatively connected in a network in an electronic equipment, such as the communication agency 60 can be with Smart phone, tablet computer, Intelligent bracelet, laptop, the individual digital used in user is communicatively connected in a network to help Electronic equipment described in reason, e-book etc..When using the 1 brewed milk powder of feeding bottle, the feeding bottle 1 can pass through the communication equipment What structure 60 was obtained is added into the water of the accommodating chamber 110, the amount of milk powder and the water of the feeding bottle 1 and the ratio of milk powder Example is sent to the electronic equipment, so that user is checked by the electronic equipment.That is, the feeding bottle 1 allows to make The ratio of the water of milk powder, the amount of milk powder and water and milk powder that user utilizes the feeding bottle 1 brewed in long-range acquisition, for example, The feeding bottle 1 allows user remotely obtaining the water using the brewed milk powder of the feeding bottle 1, milk by the electronic equipment The amount and water of powder and the ratio of milk powder are particularly conducive to guarantee the health of infant and children in this way.

With reference to the utility model Figure of description attached drawing 6 to Figure 13, the manufacturing process of the feeding bottle 1 is next It is disclosed for and is set forth in description, wherein in the stage with reference to shown in attached drawing 6, provide the pedestal restocking 511, wherein the pedestal Restocking 511 has the restocking perforation 511.

In the stage shown in attached drawing 7 to Fig. 9, through a molding tool 300 on the pedestal of the pedestal restocking 511 Surface 5112 forms the cover film 513.Specifically, the molding die 300 includes one first mold 301 and one second mould Tool 302, wherein at least one mold in first mold 301 and second mold 302 can be molded and draft, with Molding die 300 described in formula can be carried out molding and draft operation.First mold 301 is further at least one molding Protrusion 3011, wherein after second mold 302 and first mold 301 are molded, the institute of first mold 301 Molding protrusion 3011 is stated towards second mold 302, and in raised 3011 Hes of the molding of first mold 301 A forming gap 303 is formed between the inner wall of second mold 302.

Specifically, in the stage shown in attached drawing 7, by the pedestal restocking 511 described in first mold 301 The mode that molding protrusion 3011 is maintained at the restocking perforation 511 of the pedestal restocking 511 is set to first mold 301 in such a way that the direction for operating second mold 302 towards first mold 301 is mobile to the molding die 300 Die closing operation is carried out, and after first mold 301 and second mold 302 are molded, in second mold 302 Inner wall and the pedestal restocking 511 the pedestal upper surface 5112 and the base peripheral wall 5113 between be respectively formed a molding Space 304, and the molding space 304 is connected to the forming gap 303.It is noted that first mold 301 The outer wall dimension of the molding protrusion 3011 is consistent with the ruler of the restocking of the pedestal restocking 511 perforation 5111, thus The molding protrusion 3011 of first mold 301 be maintained at the pedestal restocking 511 the restocking perforation 5111 it Afterwards, can be avoided the molding protrusion 3011 of first mold 301 outer wall and the pedestal restocking 511 for shape Gap is generated between inner wall at restocking perforation 5111.

In the stage shown in attached drawing 8, into the forming gap 303 and the molding space 304 be added flow-like at Profile material, and after the moulding material fills up the forming gap 303 and the molding space 304, make the forming material Material solidification.In the stage shown in attached drawing 9, consolidate in the forming gap 303 and the molding space 304 in the moulding material After changing and forming the cover film 513, to first mold 301 and second mold 302 of the molding die 300 Draft operation is executed, to obtain a pedestal restocking for having cover film.Preferably, the cover film 513 is by the preferable institute of elasticity It states moulding material to be formed, in this way, the precision and reliability of the feeding bottle 1 can be increased.

In the stage shown in attached drawing 10, in the restocking perforation towards the pedestal restocking 511 of the cover film 513 5111 part applies the heat-barrier material, so that the heat-barrier material forms the insulation part 53.Optionally, on the pedestal The surface of frame 511 can also be applied the heat-barrier material and form the insulation part 53.

In the stage shown in attached drawing 11, the pedestal undercarriage 512 of the sensor 52 will be mounted with the sensing The mode that the sensor main body 522 of device 52 is maintained at the restocking perforation 5111 of the pedestal restocking 511 is installed on The pedestal restocking 511, wherein forming the installation space between the pedestal restocking 511 and the pedestal undercarriage 512 510, and the outer wall of the sensor main body 522 of the sensor 52 is not used to form institute with the pedestal restocking 511 The sensor upper surface 5221 of the inner wall contact and the sensor main body 522 of stating restocking perforation 5111 fits in described Cover film 513.It will be appreciated that forming institute after the pedestal restocking 511 and the pedestal restocking 512 are mounted together State base body 51.

In the stage shown in attached drawing 12, the base body 51 is installed on the shell 54 and forms the base unit 50.In the stage shown in attached drawing 13, the end portion 42 of the bottle body 40 is installed on the shell 54, by the base Seat unit 50 closes the low side opening 420 of the bottle body 40, thus between the base unit 50 and the bottle body 40 The accommodating chamber 110 is formed, so that the feeding bottle 1 be made.It is understood that in the stage shown in attached drawing 11, by by institute It states processor 56, the circuit board 58, the memory 59 and the communication agency 60 and is respectively arranged in the base body 51 The installation space 510.

Attached drawing 14 shows an application mode of the feeding bottle 1, wherein the feeding bottle 1 is removably installed in a suction Milk device ontology 2, to form a breast pump by the feeding bottle 1 and the breast pump ontology 2.That is, according to the utility model Other side, with reference to attached drawing 14, the breast pump further comprises the breast pump ontology 2 and is removably set It is placed in the feeding bottle 1 of the breast pump ontology 2.It is noted that between the breast pump ontology 2 and the feeding bottle 1 Mounting means is unrestricted.When user is sucked using the breast pump, it is based on same principle, the feeding bottle 1 can obtain The amount for the breast milk that must be sucked out, and be shown on the display screen 57 of the feeding bottle 1 in a manner of digitized, for being made User checks.In addition, the amount for the breast milk that user is sucked out using the breast pump can also pass through the pedestal of the feeding bottle 1 The communication agency 60 of unit 50 is sent to the electronic equipment, passes through breast milk with the application program by the electronic equipment Amount analysis user health degree, and related guidance can be given.Alternatively, user utilizes the mother of breast pump absorption The amount of cream can also be sent to expert or nutrition by the communication agency 60 of the base unit 50 of the feeding bottle 1 Contract Manager, expert or Nutrition Management teacher can analyze the health degree of user according to professional standing and experience, and can give Give related guidance.

Attached drawing 15 shows a variant embodiment of the feeding bottle 1, not with the feeding bottle 1 shown in attached drawing 2 and Fig. 3 With, in this specific example of the feeding bottle 1 shown in attached drawing 15, the pedestal restocking of the base body 51 511 further have an at least groove 5114, wherein the opening of the groove 5114 is formed in the institute of the pedestal restocking 511 Pedestal upper surface 5112 is stated, a part of the cover film 513 is formed in the groove 5114 of the pedestal restocking 511, In this way, the bond strength of the cover film 513 and the pedestal restocking 511 can be increased, thus using institute During stating feeding bottle 1 and cleaning to the feeding bottle 1, the cover film 513 can be avoided from the pedestal restocking 511 It falls off.It is noted that the shape of the groove 5114 of the pedestal restocking 511 is unrestricted, wherein the groove 5114 can be annular groove, be also possible to shape shape groove.In addition, although this in the feeding bottle 1 shown in attached drawing 15 has In the example of body, the groove 5114 is blind hole, and in other possible examples of your feeding bottle 1 of the utility model, The feeding bottle 1 is also possible to perforate.Or a part of groove 5114 is blind hole, and groove 5114 described in another part is to wear Hole.

Preferably, the groove 5114 of the pedestal restocking 511 is formed in the edge of the pedestal restocking 511.And In another variant embodiment of the feeding bottle 1 shown in the attached drawing 16 of the utility model, the pedestal restocking 511 it is described Groove 5114 is formed in the middle part of the pedestal restocking 511.

Attached Figure 17 shows another variant embodiments of the feeding bottle 1, with the feeding bottle 1 shown in attached drawing 2 and Fig. 3 Unlike, in this specific example of the feeding bottle 1 shown in attached drawing 17, on the pedestal of the base body 51 Frame 511 and the pedestal undercarriage 512 are also possible to integral structure.

Attached drawing 18 shows another variant embodiment of the feeding bottle 1, with the feeding bottle 1 shown in attached drawing 2 and Fig. 3 Unlike, in this specific example that attached drawing 18 shows the feeding bottle 1, under the pedestal of the base body 51 Frame 512 and the shell 54 are also possible to integral structure.

Attached drawing 19 shows another variant embodiment of the feeding bottle 1, with the feeding bottle 1 shown in attached drawing 2 and Fig. 3 Unlike, in this specific example of the feeding bottle 1 shown in attached drawing 19, on the pedestal of the base body 51 Frame 511 and the cover film 513 are also possible to integral structure, such as can be by the molding die 300 by molding work The pedestal restocking 511 and the cover film 513 of the base body 51 is integrally formed in skill.

Attached drawing 20 shows another variant embodiment of the feeding bottle 1, with the feeding bottle 1 shown in attached drawing 2 and Fig. 3 Unlike, in this specific example of the feeding bottle 1 shown in attached drawing 20, the base unit 50 includes described in one Base body 51 and a sensor 52 for being arranged at the base body 51, wherein being installed in the bottle body 40 The base unit 50 and when forming the accommodating chamber 110 between the bottle body 40 and the base unit 50, the sensing Device 52 is maintained at the accommodating chamber 110.It is understood that unlike the feeding bottle 1 shown in attached drawing 2 and Fig. 3, In this specific example of the feeding bottle 1 shown in attached drawing 20, when water is added into the accommodating chamber 110 of the feeding bottle 1 Later, enough directly the contact with the sensor 52 of water energy and by the sensor 52 by way of sensing pressure or weighing Obtain the water for being added into the accommodating chamber 110 of the feeding bottle 1.

With further reference to attached drawing 1A and Figure 1B, the smart machine 20 includes a monitoring device 21, when the monitoring device 21 when being connected to the container body 10, the monitoring device 21 can real-time monitoring be contained in the container body 10 The physical message of substance is such as: temperature information and characterization information (such as quality, volume), so the monitoring device 20 formed with The corresponding at least physical signal of the physical message.In such as attached drawing 1A and Figure 1B of the feeding bottle 1 of the utility model In embodiment, the detection device 21 can be connected in such a way that the container body 10 is installed in the smart machine 20 It is connected to the container body 10.For example, in this specific example of the attached drawing 1C feeding bottle 1 shown, the monitoring Device 21 can obtain the object for being added into the accommodating chamber 110 of the feeding bottle 1 in real time by the sensor 52 Information is managed, such as the physical message can be water.That is, the content of the physical message of the monitoring device 21 The water of the accommodating chamber 110 of the feeding bottle 1 can be added to.

It is noted that the monitoring device 21 is also able to record that each user uses the intelligent container simultaneously 100 correlation circumstance, such as: when user is using the intelligent container 100 allotment milk powder, the monitoring device 21 can be remembered The access times of the intelligent container 100 are recorded, and every time using the ratio of water and milk powder in the amount and milk powder of allotment milk powder.

As shown in figure 21, the monitoring device 21 further comprises a characterization monitoring assembly 211, wherein the characterization monitors Component 211 be set with can real-time monitoring and record be contained in the container body 10 substance as quality, volume with And concentration etc. to be to form corresponding physical signal, such as the characterization monitoring assembly 211 can be by the sensor 52 in real time Ground obtains the physical message for being added into the accommodating chamber 110 of the feeding bottle 1.

In other one embodiment, the characterization monitoring assembly 211 of the feeding bottle 1 of the utility model is by reality It applies as a gravity sensor perhaps weighing sensor perhaps touch force sensor or baroceptor, wherein when the intelligence When equipment 20 is installed in the container body 10, the characterization monitoring assembly 211 can be monitored and be recorded positioned at the container The weight of substance in the accommodating chamber 110 of main body 10 is to form the physical signal of the substance.In the institute shown in attached drawing 1C It states in this specific example of feeding bottle 1, the characterization detection components 211 may be implemented as the sensor 52, thus institute The weight for the water being added into the accommodating chamber 110 and the weight of milk powder can be obtained by stating characterization detection components 211, and rear Ratio that is continuous and then being utilized water and milk powder in the brewed milk powder of the feeding bottle 1.

Those skilled in the art are, it is understood that characterize monitoring assembly 211 described in the utility model The weight of substance in the accommodating chamber 110 of the container body 10 that the gravity sensor can be monitored and be recorded Amount is converted into volume of the substance etc. and then forms corresponding physical signal, and the above citing is only that can allow art technology Personnel can implement the utility model, and those skilled in the art are it is conceivable that other and the consistent embodiment party of the spirit of the present invention Formula, the utility model are not limited.

The monitoring device 21 further comprises a temperature monitoring elements 212, wherein when the smart machine 20 is mounted When the container body 10, the temperature monitoring elements 212 can real-time monitoring and record be located at the container body 10 The temperature information of substance in the accommodating chamber 110 is to form corresponding physical signal.

Preferably, the bottom wall 11 of the container body 10 can be made of thermo-sensitive material, to improve the temperature monitoring The monitoring of component 212 is located at the sensitivity of the variation of mass temperature in the accommodating chamber 110 of the container body 10.This field skill Art personnel are it is understood that temperature monitoring elements 212 described in the utility model may be implemented as a temperature sensor or a temperature Degree monitoring circuit, those skilled in the art are it is conceivable that other obvious deformations, and the utility model is not by limit in this respect System.

The smart machine 20 further comprises a processing unit 22.It is described in one embodiment of the utility model Processing unit 22 is connected to the monitoring device 21 can obtain the corresponding physical signal that the monitoring device 21 is formed.

Specifically, the processing unit 22 includes an analytic unit 221, wherein the analytic unit 221 is connected to institute Monitoring device 21 is stated, and then the physical signal that the monitoring device 21 is formed can be obtained.

It is noted that the analytic unit 221 can also obtain a reference signal, wherein the analytic unit 221 It is further able to reference signal described in comparative analysis and the physical signal, so that a consequential signal is formed, by the result Signal, user can accurately perform the next step operation.

Preferably, the processing unit 22 further comprises a storage assembly 222, wherein can in the storage assembly 222 To store the reference signal, wherein the reference signal may be implemented as needing to configure the mark of the related physical information of substance Quasi- value.

It will be appreciated to those of skill in the art that said reference signal, which can be user, is set to the analytic unit In 221, it is also possible to what the analytic unit 221 was read from other hardware either software (including webpage).Example Such as, when user, which needs to borrow the intelligent container, deploys certain coffee, the reference signal can be the need of manual setting The amount of coffee is added and needs to be added the amount of hot water.According to the utility model embodiment, the reference signal corresponds to coffee When quality corresponds to the quality of coffee lower than the physical signal, the consequential signal, which corresponds to instruction user, to be continued to add coffee Coffee.

According to an embodiment of the present invention, the smart machine 20 further comprises a communication device 23, the communication Device 23, which is connected with, is placed in the container body 10, and the communication device 23 is connected to the monitoring device 21, with energy Enough obtain the physical signal that the monitoring device 21 monitors.

Further, the physical signal that the communication device 23 can will acquire be transmitted to a terminal (such as: intelligence machine People, electronic equipment, virtual cloud etc.).That is, when user needs to carry out preparing solution using the container body 10 When, the graduation mark on traditional container outer wall 12 can be no longer used, and can be directly according to the communication device 23 transmission Physical signal and reference signal can understand the physical signal that substance is measured or deployed using the intelligent container, then make User measures the substance of correct amount or makes the solution of actual concentrations.

Specifically, the communication device 23 includes a characterization communication component 231, wherein 231 quilt of characterization communication component Be connected to the characterization monitoring assembly 211, so can obtain it is described characterization monitoring assembly 211 monitor it is related be contained in described in A physical signal of the substance in relation to characterization information in container body 10.

More specifically, the communication device 23 further comprises a temperature communications component 232, wherein the temperature communications group Part 232 is connected to the temperature monitoring elements 212, and then can obtain the related Sheng that the temperature monitoring elements 212 monitor Another physical signal loaded on the temperature information of substance in the container body 10.

Further, the characterization signal that the characterization communication component 231 and the temperature communications component 232 can will acquire It is respectively sent to the electronic equipment of user with temperature signal, and then understand that user can by an electronic equipment and be located at The temperature information of substance in the accommodating chamber of the container body.

According to another embodiment of the utility model, the communication device 23 is connected to the processing unit 22.Specifically, The communication device 23 is connected to the analytic unit 221 of the processing unit 22, and then makes 221 shape of analytic unit At consequential signal can be obtained by the communication device 23, wherein the communication device 23 be further able to will acquire it is described Consequential signal is sent to the electronic equipment of user.That is, when user need to carry out using the container body 10 it is molten When liquid is deployed, user can be understood by long-range mode using whether the substance of intelligent container allotment reaches requirement, Especially when the intelligent container is by deploy milk power solution either breast milk aqueous solution, even if user cannot adjust in person Match, the milk powder that user can also understand in real time user's allotment that the intelligent container is used by an electronic equipment is molten The concentration of liquid either breast milk aqueous solution.

In another embodiment of the utility model, the processing unit 22 is implemented as the processing routine in a cloud, this When, the processing routine is communicatively coupled to the communication device 23.The processing routine can be communicatively coupled to a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.), and then enable a user to obtain by an electronic equipment The consequential signal.

It will be appreciated by those of skill in the art that in the present embodiment reference signal can be user's manual setting can also be with It is the signal corresponding with standard parameter that the analytic unit 232 is obtained from internet, the standard signal can be often The concentration of the consumption by infants milk powder of one age bracket.

It is understood that in one embodiment of the utility model, the communication fills ordinary skill technical staff Setting 23 may be implemented as a bluetooth module.

In another embodiment of the utility model, the smart machine 20 includes an instruction device 24, wherein described Instruction device 24 is connected to the monitoring device 21, wherein the instruction device 24 includes that a characterization indicates component 241 and one Temperature indicates component 242, wherein characterization instruction component 241 and temperature instruction component are connected to the characterization Monitoring assembly 211 and the temperature monitoring elements 212, will be respectively from the characterization monitoring assembly 211 and the temperature monitoring The physical signal that component 212 obtains is conveyed to user, and according to the utility model embodiment, the physical signal is specifically corresponded to The quality information and temperature information of substance.

It is noted that the instruction device 24 may be implemented as a LED display screen, the electronic curtain can be with Directly display the physical signal for being located at substance in the container body 10, it is preferable that the instruction device can be set to one Virtual display screen, the virtual display screen can be projeced into the outer wall of the container body 10.In addition, the wherein finger Showing device 24 may be implemented as a voice prompt device, and the voice prompt device can be directly in the way of voice prompting Inform that user is located at the physical signal of substance in the container body 10.

According to another embodiment of the utility model, wherein the instruction device 24 is connected to the institute of the processing unit 22 The consequential signal stated analytic unit 221, and then the analytic unit 221 is enable to be formed by the instruction device 24 be able to by It is conveyed to user.

According to another embodiment of the utility model, the smart machine 20 includes the communication device 23 and the finger simultaneously Showing device 24 wherein the instruction device 24 is connected to the communication device 23, and then is carried out in the processing unit 22 When for a cloud processing routine, wherein the instruction device 24 can also obtain the result letter from the communication device 23 Number.It is noted that wherein the communication device 23 be also communicatively coupled to simultaneously a terminal (such as: intelligent robot, electricity Sub- equipment, virtual cloud etc.).

That is to say, user can not only be understood by the instruction device 24 positioned at the container master in real time at this time The physical signal of substance in the accommodating chamber 110 of body 10, while the user in a distant place simultaneously can be by being connected to One electronic equipment of the communication device 23, and then can remotely understand the accommodating chamber 110 positioned at the container body 10 The physical signal of middle substance.

The smart machine 20 further comprises a heating device 25.According to an embodiment of the present invention, wherein described Heating device 25 is connected to the instruction device 24, and then enables the working condition of the heating device 24 by the finger Showing device 24 is communicated to user.

According to an embodiment of the present invention, wherein the heating device 25 is connected to the institute of the processing unit 22 Analytic unit 221 is stated, and then makes the heating device 25 in the result letter for obtaining the related temperature that the analytic unit 221 is formed After number, be able to by selectivity starting or closing, wherein when the smart machine 20 be installed in the container body 10 and When the heating device 25 is by driving work, the substance in the accommodating chamber of the container body 10 is heated.

Specifically, the reference signal that the storage assembly 222 in the processing unit 22 is equipped with can be one and temperature Corresponding reference signal, when the temperature in the received physical signal of the analytic unit 221 is lower than in the reference signal Temperature when, wherein the heating device 25 is able to be driven by the consequential signal that the analytic unit 221 is formed, to institute Container body is stated to be heated；When the temperature in the received physical signal of the analytic unit 221 is not less than the benchmark When temperature in signal, the heating device 25 can't work.

Another embodiment according to the present utility model, wherein the heating device 25 is connected to the communication device 23 The temperature communications component 232, when the smart machine 20 is installed in the container body 10 and the heating device 25 When by driving work, the substance in the accommodating chamber 110 of the container body 10 is heated.

Specifically, the reference signal that the storage assembly 222 in the processing unit 22 is equipped with can be one and temperature Corresponding reference signal, when the temperature in the physical signal that the analytic unit 221 obtains is lower than from the storage assembly 222 When temperature in the reference signal of acquisition, the consequential signal for the related temperature that the analytic unit 221 is formed is by the temperature Communication component 232 is transferred to the heating device 22 so that the heating device 25 is able to be driven；When the analytic unit When temperature in 221 received physical signals is not less than the temperature in the reference signal, the temperature communications component 232 The consequential signal of transmission will not drive the heating device 25 to work.That is, heating device described in the utility model 25 are automatically controlled opening and closing, and then are able to maintain the substance being located in the container body 10 in a critical-temperature On.

Specifically, wherein the heating device 25 includes a control assembly 251 and a heating component 252, wherein described add When the smart machine 20 is installed in the container body 10, the container body 10 can be added hot component 252 by described Hot component 252 heats.

Wherein according to an embodiment of the present invention, wherein the control assembly 251 is connected to the analytic unit 221 With the heating component 251.According to another embodiment of the utility model, wherein the control assembly 251 is connected to described lead to T unit 23 and the heating component 252.

When the control assembly 251 is turned on, wherein the consequential signal that the analytic unit 221 is formed is able to be transmitted The extremely heating component 252, and then the starting of the heating component and closing is just enable to be automatically controlled；When the control When component 251 is closed, the consequential signal for the related temperature that the analytic unit 221 is formed is not transferred to the heating component 252, and at this point, the consequential signal for the related temperature that the analytic unit 22 is formed, which may be implemented as prompt user, opens institute State the control assembly 251 of heating device 25.That is, user can selectively be such that the heating fills as required Set 25 work of the heating component 252.

With reference to Figure 24 A, Figure 24 B and Figure 24 C, according to an embodiment of the present invention, the container body 10 is carried out When for a feeding bottle, wherein the graduation mark having on the setting conventional feeding bottles for the property of can choose on the container body 10, wherein when When the smart machine 20 is arranged at the container body 10, wherein the monitoring device 21 can monitor the container body The physical signal of milk power solution in 10 accommodating chamber 110.When user needs to mix the milk powder of anticipation concentration, first Suitable water can be added into the accommodating chamber 110 of the container body 10.

It is noted that into the container body 10 be added water during, the monitoring device 21 it is described Characterize the characterization that monitoring assembly 211 is capable of real-time monitoring and water in the accommodating chamber 110 of the record addition container body 10 Information is such as: the quality of water is added, the rate of water is added and water is added volume is specifically implemented according to the utility model Example, the characterization monitoring assembly 211 of the monitoring device can be monitored in real time and record the institute that the container body 10 is added It states this physical message of the quality of water in accommodating chamber 110 and then forms one first physical signal,

According to an embodiment of the present invention, wherein being connected to 23 energy of the communication device of the monitoring device 21 Enough be transmitted to received this first physical signal of the quality of water in the accommodating chamber 110 of the container body 10 makes The electronic equipment of user, so that user can understand the receiving positioned at the container body 10 by the electronic equipment The quality of water in chamber 110.

According to another embodiment of the utility model, by the instruction device 24, user also is understood that positioned at described The quality of water in the accommodating chamber 110 of container body 10.

Preferably, according to an embodiment of the present invention, this described first physical signal of the quality of water is by the institute The characterization communication component 231 for stating communication device 23 is transferred to the analytic unit 221 of the processing unit 22.

Further, the processing unit 22 first physical signal and can will be pre-stored in the storage assembly The first reference signal in 222 is compared, analyzes to form one first consequential signal, wherein first consequential signal by The communication device 23 is communicated to the electronic equipment of user, so that user can be with reference to the feedback information to carry out down Single stepping.

It is noted that wherein the consequential signal is stored in the storage assembly 222 simultaneously, so that user Access can be transferred at any time and sets it to first reference signal, and then it is identical to mix user repeatedly The milk power solution of concentration.

Those skilled in the art it can be appreciated that, in this citing, according to an embodiment of the present invention, work as user Cannot deploy in person milk powder either the concentration of breast milk when, user by an electronic equipment and then can understand the container master The quality of water is added in the accommodating chamber 110 of body 10, and then instructs the class user just by long-range mode In the people using intelligent container allotment milk power solution exact mass is added into the accommodating chamber 110 of the container body 10 Water.

According to another embodiment of the utility model, wherein the temperature communications component 232 can not only be located at received This described first physical signal of the quality of water and use is conveyed in the accommodating chamber 110 of the container body 10 Received first consequential signal can also be conveyed to user by the instruction device 24 by person.

In the embodiment above, preset first reference signal can be selected from use in the storage assembly 222 The concentration pair for the milk powder that person is deployed by the needs of a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.) setting The quality of water should be added, first reference signal is also possible to be pre-stored in the storage assembly 222 with user's Baby corresponds to the international standard quality for needing to be added water of the practical milk powder of baby of age bracket.

Then, user can add milk powder into the accommodating chamber 110 of the container body 10, likewise, using Person is during adding milk powder into the accommodating chamber 110 of the container body 10, the table of the monitoring device 21 Levy monitoring assembly 211 also can real-time monitoring and record be added milk powder quality to form one second physical signal, similarly, Second physical signal is transferred to the processing by the characterization communication component 231 of the communication device 23 and fills 22 analytic unit 221 is set, the analytic unit 221 is further by second physical signal and the storage assembly The second preset reference signal compares in 222, and then forms one second consequential signal, wherein second result Signal can be communicated to user.

Wherein second reference signal may be implemented as being selected from: user by a terminal (such as: intelligence machine People, electronic equipment, virtual cloud etc.) setting the concentration of milk powder deployed of needs to quality in requisition for addition milk powder or described First reference signal is also possible to be pre-stored within the baby of age bracket corresponding with the baby of user in the storage assembly 222 The international standard of practical milk powder needs one or more in quality of milk powder etc..

In the embodiment above, user is during adding milk powder to the accommodating chamber 110 of the container body 10, institute The second consequential signal for stating the formation of analytic unit 221 of processing unit 22 can be further implemented are as follows: instruction user continues It adds milk powder or instruction user stops addition milk powder.

In an embodiment of the utility model, wherein the consequential signal is implemented as voice prompting, such as " continuing to add " Or " stopping addition " etc., wherein the consequential signal can be set by direct reality in user's electronics by the information analyser Standby upper application program.

In another embodiment of the utility model, wherein the consequential signal can be compiled into picture and text (including figure Or text etc.) form be sent to the electronic equipment of user.

According to another embodiment of the utility model, the analytic unit 221 of the processing unit 22 also can receive institute State the related receiving positioned at the container body 10 of the temperature monitoring elements 212 monitoring and record of monitoring device 21 This third physical signal of the temperature of the solution of milk powder in chamber 110, passes through the temperature communications component for the temperature information 212 are transferred to the analytic unit 221 of the processing unit 22, wherein the analytic unit 221 further will be received Pre-set third reference signal is compared and analyzed to form a third in the temperature information and the storage assembly 222 Consequential signal, according to an embodiment of the present invention, wherein temperature of the third consequential signal by the communication device 23 Communication component 232 can be communicated to user in turn.

According to another embodiment of the utility model, wherein third consequential signal is communicated by the instruction device 24 To user.

According to an embodiment of the present invention, wherein being closed when the control assembly 251 of the heating device 25 is in State, and the temperature in the third physical signal of the monitoring of the temperature monitoring elements 212 and record is lower than the third base When temperature in calibration signal, wherein the third consequential signal can be set to that user is reminded to open the temperature initialization The related prompt of element, such as can be voice prompting (" control assembly please be open ").

Any temperature more than minimum temperature needed for wherein the third reference signal may be implemented as international adapted milk powder Degree, wherein the heating device 22 can't drive when the temperature of temperature information record is higher than the third reference signal It is dynamic；When the temperature of temperature information record is lower than the temperature of the third reference signal sets, the processing unit 22 will The work of heating device 22 is driven to heat with the outer wall 12 to the container body 10.

According to as described above it is understood that making when user can not deploy milk powder in person because of various matters User can be described with the processing unit 22 by a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.) First receiving-transmitting device can understand the service condition of institute's smart machine 20 in real time in turn.

By above description, it will be appreciated to those of skill in the art that can using intelligent container described in utility model The substance such as milk powder container that user needs accurately is measured, and user can remotely understand making for the intelligent container Use situation.Especially when the intelligent container is used to adapted milk powder, user, which can not only accurately configure, needs concentration Milk powder other caregivers benefit can be monitored by long-range mode and when user can not configure milk powder in person for some reason The case where configuring milk powder with the intelligent container, in addition, user can also set the dense of configuration milk powder by long-range mode Degree.

According to another embodiment of the utility model, when the main body is used to allotment chemical reagent, user can be incited somebody to action The smart machine 20 is installed on the container body 10, and then can be first to the accommodating chamber 110 of the container body 10 Middle addition solute or solvent, similarly, user into the accommodating chamber 110 of the container body 10 be added solute or When being solvent, according to the utility model embodiment, the monitoring device 21 of the smart machine 20 can equally be monitored in real time It is added the quality of the either solvent of solute in the accommodating chamber 110 of the container body 10, the processing unit 22 can also be with Receive the related solute or solvent positioned at the container body 10 that the communication device 23 is obtained from the monitoring device 21 Information, and then the information can be stored in the storage assembly 222 of the information communication component with being arranged at Information carries out analysis comparison, and then analysis comparison result is transferred to user, to make user according to the communication The prompt of device 23 or the instruction device 24 is to determine to operate in next step.

With reference to Figure 25, other side according to the present utility model, the utility model provides a row for having intelligent container Milk device 300, wherein the breast milk of the women of nursing period can be discharged for row's milk device 300.

Row's milk device 300 includes row's milk device 31, when row's milk device 31 by user in use, the wherein row Milk device can be the breast pump that traditional aspirator can such as be seen in the market.Row's milk device 31 includes row's milk device main body 311, there is row's milk device main body 311 an influent stream portion 3111 and one to go out stream portion 3112, the influent stream portion of row's milk device main body 311 3111 and a fluid channel 3110 is formed between stream portion 3112 out, wherein row's milk device main body 311 it is described go out stream portion 3112 It can be installed at the opening 120 of the outer wall 12 of the container body 10 of the intelligent container, so that the fluid Channel 3110 is able to be communicated in the accommodating chamber 110 of the container body 10, and then make to be excluded by row's milk device 31 Breast milk is led further to the accommodating chamber 110 of the container body 10.

It is noted that being directed to the accommodating chamber of the container body 10 in the breast milk that row's milk device is drawn When in 110, the monitoring device 21 of the smart machine 20 being capable of real-time monitoring and the record inflow container body 10 The physical signal of breast milk in the accommodating chamber 110: in the temperature, volume or quality, the rate of exclusion such as selected from breast milk It is one or more.According to the utility model embodiment, the monitoring device 21 will automatically record row's milk device suction and go out mother The rate of cream.That is to say, the intelligent container in the utility model can be used to accurate measurements and record row's milk dress Set the rate of 300 exclusion breast milks.

When row's milk device is implemented as a common breast pump in the market, the container body of the intelligent container 10 may be implemented as a feeding bottle, and user can exclude breast milk with the use of the smart machine 20.It is understandable It is that the characterization monitoring assembly 211 in the monitoring assembly 21 of the smart machine 20 can monitor and record user This 4th physical signal of the rate of related breast milk exclusion when breast milk is discharged, wherein when the 4th physical signal is by described It is described when the characterization communication component 231 of communication device 23 is transferred into the analytic unit 221 of the processing unit 22 Analytic unit 221 can hand over received the 4th physical signal in relation to breast milk with being stored in advance or being pre-set at the information The 4th reference signal changed in the storage assembly 222 of component is such as: the flow rate information of normal female breast milk will carry out analysis pair Than, and then generate a feedback result in relation to breast milk.Further the feedback result in relation to breast milk is by shown communication device 23 It is able to be communicated to the electronic equipment of user, that is to say, user can be by being communicatively coupled to the communication device 23 The communication device 23 just can recognize whether itself breast milk healthy.

It is noted that the characterization monitoring assembly 211 of the monitoring assembly is further able to benefit in monitoring periodically The amount being discharged with row's milk device 300, in other words, according to this law embodiment, the characterization monitoring assembly 211 can also be supervised The amount for the breast milk that test period is discharged using row's milk device, and medically, the periodically interior milk production of the women of nursing period It can be used as a parameter for measuring lactating female health, and the parameter also has an international standard, and in this implementation Example, the parameter are also previously stored in the storage assembly 222 of the processing unit 22, and then in the characterization component The characterization information (in the present embodiment, the amount of breast milk is specifically drawn for the extractor) of monitoring is transferred to the processing dress After setting 22 analytic unit 221, the analytic unit 221 received information and can will be pre-stored within processing unit Parameter in 22 storage assembly 222 is analyzed relatively and then forms a feedback information, further, the feedback letter Breath is able to be communicated to user by the communication device 23, that is to say, user can directly can fill from the communication It sets and recognizes whether itself is healthy in relation to oneself breast milk in 23.

Further, row's milk device 300 includes a flow control component 32, wherein the flow control component 32 is arranged at institute The fluid channel 3110 of the row's of stating milk device main body 31, to flow to the stream portion 3112 out from the influent stream portion 3111 in fluid When, user can regulate and control the flow velocity of fluid by adjusting the flow control component 32.Preferably, the flow control component 32 can To be arranged to different gears.

Row's milk device 300 further comprises a timer 33, wherein the timer 33 is connected to the control Component 32 is simultaneously arranged at row's milk device device main body 311, so make that the flow control component 32 works under each flow velocity when Between be able to by the timer 33 record so that formed a corresponding data-signal.Specifically, in the present embodiment, the timing Device is able to record the time that row's milk device works under different stalls.It is understood that the timer 33 can be remembered Record total time of row's milk device work.

Preferably, row's milk device row milk device main body 311 3110 monitoring temperature component 34 of the fluid channel with Monitoring flows through the temperature of the liquid of the fluid channel 3110, and then judges whether row's milk device is in running order.

It is highly preferred that row's milk device 300 further comprises a heater 35, wherein the heater 35 is set In the fluid channel 3110 of row's milk device main body 311, wherein the heater is connected to the temperature sense component And then enable the heater by the driving of the temperature sense component selectivity.Specifically, when flowing through the fluid channel When the temperature of liquid is lower than the temperature defaulted in the temperature sense component 34 in 3110, the heater 34 is by driving pair The liquid flowed through in the fluid channel is heated, and then allows the liquid to reach the critical-temperature.

It is highly preferred that row's milk device 300 can further include a massager (being not drawn into figure), when user exists When carrying out row's milk using row's milk device, the massager can massage user.

Row's milk device 300 further comprises a communication component 36, wherein the communication component 36 be connected to it is described Flow control component 32, to obtain working condition locating for the flow control component 32.Specifically in the present embodiment, the current module 32 Gear locating for the available flow control component 32.Preferably, wherein the communication component 32 is communicatively coupled to user The terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.) used, and then enable a user to by a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.) and then row's milk device can be regulated and controled, such as the intelligence of user It can be equipped with the virtual key of each gear corresponding to the flow control component 32 in terminal, and then the flow control group can be regulated and controled The unlatching of the gear of part 32, row's milk device.It is highly preferred that the communication component can be by the synchronizing information of record in cloud End.

Further, the communication component 36 is connected to the timer 33, can obtain the timer record Relevant information (time that such as described row's milk device works under different stalls, the operating time etc. of row's milk device) with into One step forms another data-signal.Preferably, the data-signal that the communication component 36 obtains, which can be transferred into user, to be made One terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.).

It is noted that according to the utility model embodiment, when user is used cooperatively 300 He of row's milk device When the intelligent container 100, the communication component 36 of row's milk device 300 is communicatively coupled to the intelligent container 100 The smart machine 20 the communication device 23, and then obtain the communication component 36 of row's milk device 300 Data-signal is able to be transferred to the communication device 23 of the smart machine 20.Dress is handled described in the smart machine 20 Set the physics letter that 22 analytic unit 221 is monitored in conjunction with the monitoring device 21 of the data-signal and the smart machine 20 Number, and then row's milk device can be calculated and arrange the rate of milk under different stalls to form corresponding consequential signal, it is described Consequential signal can be synchronously sent to a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.).Namely It says, user can be by a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.).

It will be further appreciated that wherein the analysis elements component 221 can be with row's milk device 300 described in comparative analysis not With row's milk rate of the rate for arranging milk under gear and the lactating female for corresponding to international standard, and then form another corresponding result Signal, the consequential signal can be transferred to user terminal (such as: intelligent robot, electronic equipment, virtual cloud Deng), cloud can also be synchronized to.

Those skilled in the art answer it is described it is understood that when row's milk device utilized above draws lotion lotion flow velocity It can be used as the parameter for measuring general women's health as scheduled with flow velocity, only describe the utility model and the cited case, it can't The utility model is caused to limit, those skilled in the art are it is conceivable that other obvious embodiments.

It will be appreciated to those of skill in the art that row's milk device in the utility model can with adapted in the market its He uses container, and in use, user can be capable of the physics of real-time monitoring draw fluid by row's milk device Signal, and when row's milk device is used to draw breast milk, row's milk device can monitor the phase in breast-feeding mothers Close health.

With reference to Figure 26, other side according to the present utility model, the utility model provides the job family of an intelligent container System 500, wherein the intelligent container work system 500 includes an acquisition module 51, wherein the acquisition of the acquisition module 51 is located at The physical message of substance is in one container body 10 of the intelligent container to form a corresponding physical signal.

The acquisition module 51 includes one first acquisition module 511, wherein first acquisition module 511 acquisition is located at institute It states the characterization information of substance in the container body 10 of intelligent container and then forms corresponding physical signal.The acquisition Module 51 further comprises one second acquisition module 512, wherein second acquisition module 512 acquisition is located at the intelligent container Container body 10 in substance temperature so that form corresponding temperature signal.

According to the utility model, the acquisition module 51 is set and the monitoring device 51.

It will be appreciated by those skilled in the art that the acquisition module 51 can also be located at the container body 10 by acquisition Other physical messages of middle substance such as temperature, volume or concentration etc., the utility model is not limited.

The work system 50 of the intelligent container further comprises a processing module 52, wherein the processing module includes one Analytical unit 521, wherein the analytical unit 521 is connected to the acquisition module 51, can obtain the acquisition module The physical signal of 51 acquisitions, wherein the analytical unit 521 can obtain a reference signal, and 521 energy of the analytical unit It is enough to compare and analyze the physical signal and the reference signal, and then form a consequential signal.According to the utility model, The processing module 52 is set and the processing unit 22.

Preferably, the processing module 52 further comprises a storage unit 522, wherein the reference signal is set and deposits It is stored in the storage unit 522, wherein the storage unit 522 is connected to the analytical unit 521, and then makes described point Analysis unit 521 can obtain the reference signal for being stored in the storage unit 52.

The work system 50 of the intelligent container further comprises a communication module 53, wherein 53 quilt of the communication module It is connected to the acquisition module 51, wherein the communication module 53 obtains the physical signal that the acquisition module 51 acquires, and The communication module 53 can be communicatively coupled to extraneous any electronic equipment, and then the physical signal is remotely conveyed to User.

According to an embodiment of the present invention, the processing module 52 may be implemented as a network terminal, at this point, described Processing module 52 is communicatively coupled to the communication module 53, and then the processing module 52 is enable to pass through long-range mode Obtain the physical signal that the communication module 53 is obtained from the acquisition module 51.

Preferably, the work system 50 of the intelligent container further comprises a display module 54, wherein the display mould Block 54 is connected to the acquisition module 51, and then can obtain the physics letter for the related temperature that the acquisition module 51 acquires Number, and then the physical signal is enable to be communicated to user.

In addition, the display module 54 is connected to the analytical unit 521 of the processing module 52, can obtain The consequential signal that the analytical unit 521 is formed.

With reference to Figure 27, other side according to the present utility model, the utility model provides a management system 700, wherein The management system 700 includes a transmission module 71 and an analysis module 72, wherein the analysis module 72 be connected to it is described Transmission module 72.

In the present invention, the transmission module 71 includes a receiving unit 711, wherein the institute of the transmission module 71 The communication device 23 that receiving unit 711 is communicatively coupled to the intelligent container 100 is stated, wherein the receiving unit 711 Physical signal and consequential signal that the communication device 23 transmits can be obtained, wherein the analysis module 72 be further able to from The physical signal and the consequential signal are obtained in the receiving unit 711, is believed by the physical signal and the result Number, the further comparative analysis of the analysis module 72 forms a feedback signal.

When the intelligent container by user for a long time to deploy milk powder when, the feedback signal can be by user The amount or every for monthly using the number of intelligent container allotment milk powder, user that the intelligent container is used to prepare milk powder every time Month/user prepares one of total amount etc. of milk powder using the intelligent container weekly or related children of a variety of formation feed Support rate signal.It will be appreciated by those skilled in the art that feedback signal described in the utility model may be implemented as other content, The utility model is not limited.

It is noted that user, which can use, logs in the management system 700, and then it can check the feedback letter Number.It will be appreciated by those skilled in the art that relevant log-in instruction, the log-in instruction can be set in the management system 700 Corresponding to user when buying the intelligent container, and the relevant information of setting (such as: user's name, phone number, password Deng), the utility model is not limited.

Further, the transmission module 71 further comprises a communication unit 712, wherein 712 quilt of the communication unit It is connected to the analysis module 72, wherein the communication unit 72 is connected to the analysis module 72., and then is made described logical Letter unit can obtain the feedback signal that the analysis module 72 is formed.Further, the communication unit 712 is by communication link It is connected to the communication terminal (such as nest bee data end, wechat platform) of communications industry service provider, and then enables the feedback signal User is directly conveyed in a manner of short message, information etc..

It is noted that the receiving unit 711 for conveying module 71 is further connected to row's milk dress 300 communication component 36 is set, and then the receiving unit 711 is enable to obtain the data letter from the communication component 39 Number, wherein the receiving unit 711 is by received data signal transmission to the analysis module 72, wherein the analysis module 72 It is further able to analyze the data-signal, and then forms another feedback signal.Wherein the feedback signal can be by making User every time using row's milk device 300 time, weekly/monthly user use row's milk device 300 total duration One of or a variety of formation a signal for having user's breast milk health degree, similarly, the feedback signal can also be by User is conveyed to by the communication terminal of communications industry service provider.

Other side according to the present utility model, the utility model provide the working method of an intelligent container, according to this One embodiment of utility model, wherein the working method of the intelligent container includes:

(a) monitoring device 21 monitors the physical message of a substance in a container body 10 of the intelligent container to be formed One corresponding physical signal；With

(b) communication device 23 for being connected to the monitoring device 21 obtains the physical signal, wherein the communication Device 23 is communicatively coupled to extraneous any electronic equipment.

Preferably, the working method of the intelligent container further comprises:

(c) instruction device 25 for being connected to the monitoring device 21 conveys the physical signal to user.

According to another embodiment of the utility model, wherein the working method of the intelligent container includes:

(1) one monitoring device 21 monitors the physical message of a substance in a container body 10 of the intelligent container to be formed One corresponding physical signal；With

(2) analytic unit 221 that a processing unit 20 of the monitoring device 21 includes is connected to from the monitoring Device 21 obtains the physical signal, and the analytic unit 21 obtains a reference signal；

(3) analytic unit 221 analyzes the physical signal and the reference signal to form a consequential signal.

Preferably, the step (1) includes:

(1.1) the characterization monitoring assembly 211 of the monitoring device 21 monitors a substance in the container body 10 Characterization information is to form a corresponding physical signal.

(1.2) temperature monitoring elements 211 of the monitoring assembly 21 monitor the substance in the container body 10 Temperature information one forms corresponding physical signal.

It is highly preferred that wherein the step (1.1) is implemented as:

(1.11) the characterization monitoring assembly 211 of the monitoring assembly 21 monitors a substance in the container body 10 Weight, to form a corresponding physical signal.

The preferably described step (2) further comprises:

(2.1) analytic unit 21 is connected to the analytic unit 221 from one and stores depositing for the reference signal Storage component 222 obtains the reference signal.

Further, the working method of the intelligent container further comprises

(4) one display devices 24 for being connected to the processing unit 20 obtain the consequential signal.

Further, the working method of the intelligent container further comprises

(5) one heating devices for being connected to the processing unit 20 obtain the consequential signal.

Other side according to the present utility model, the utility model provide the work of an intelligent container work system 500 Method, wherein the working method of the intelligent container work system includes:

(A) acquisition module 51 acquires the physical message of substance in the intelligent container to form corresponding physical signal；

(B) processing module 52 analysis element 521 that includes for being connected to the acquisition module 51 is adopted from described The physical signal is obtained in collection module 51, and the analysis element 521 obtains a reference signal；And

(C) analysis of analysis element 521 compares the physical signal and the reference signal to form a consequential signal.

Preferably, wherein the step (A) includes:

(A1) one first acquisition module 511 of the acquisition module 51 acquires the characterization information of substance in the intelligent container To form corresponding physical signal.

Wherein the step (A) further comprises:

(A2) the 51 one the second acquisition module 512 of the acquisition module acquires the temperature of substance in the intelligent container to be formed Corresponding physical signal.

It is highly preferred that wherein the step (A1) is implemented as:

(A11) one first acquisition module 511 of the acquisition module 51 acquire the weight of substance in the intelligent container with Form corresponding physical signal.

Preferably, wherein step (B) includes:

(B1) described in being obtained in the memory element 522 that the analysis element 521 is connected to the analysis element 521 from one Reference signal.

According to another embodiment of the utility model, the working method of the intelligent container work system includes:

(h) acquisition module 51 acquires the physical message of substance in the intelligent container to form corresponding physical signal； With

(g) communication module 53 for being connected to the acquisition module 51 obtains the physics that the acquisition module 51 acquires Signal, so that the physical signal that the communication module 53 can will acquire is transmitted to and is communicatively coupled to extraneous any electronics and sets It is standby, and then the physical signal is remotely conveyed to user.

On the other hand according to the utility model, the utility model provides the management method of a management system, wherein the pipe Reason method includes:

(K) receiving unit 711 of the transmission module 71 for being communicatively coupled to an intelligent container holds from the intelligence A physical signal or a consequential signal are obtained in the communication device of one smart machine of device；

(L) analysis module 72 for being connected to the receiving unit 711 is obtained from the receiving unit 711 The physical signal and the consequential signal；And

(M) receiving unit 711 analyzes the physical signal and the consequential signal to form a feedback signal.

According to an embodiment of the present invention, wherein the management method further comprises:

(N) communication unit 712 for being connected to the analysis module 72 obtains the feedback signal, described anti-to transmit Feedback signal to user a terminal (such as: intelligent robot, electronic equipment, virtual cloud etc.).

According to the other side of the utility model, the utility model further provides for the manufacturing method of a feeding bottle 1, wherein institute Manufacturing method is stated to include the following steps:

(a) it is arranged in such a way that the restocking for making the pedestal restocking 511 perforates 5111 corresponding to a cover film 513 described Cover film 513 is in the pedestal upper surface 5112 of the pedestal restocking 511；

(b) vacantly keep at least part of a sensor main body 522 of a sensor 52 in the pedestal restocking 511 The restocking perforation 5111, to obtain a base unit 50, wherein can press after the cover film 513 is deformed In the sensor main body 522；And

(c) one bottle body 40 of installation is in the base unit 50, with the shape between the bottle body 40 and the base unit 50 The feeding bottle 1 is made at an accommodating chamber 110, wherein the restocking by the pedestal restocking 511 of the cover film 513 is worn The corresponding part in hole 5111 is maintained at the accommodating chamber 110.

It is pair that those skilled in the art, which would appreciate that the utility model embodiment shown in the drawings and described above only, The example of the utility model rather than limit.

It can thus be seen that the utility model aim can be efficiently accomplished sufficiently.For explaining the utility model function and knot The embodiment of structure principle is absolutely proved and is described, and the utility model is not by based on these embodiment basis The limitation of change.Therefore, the utility model includes covering all repairing within appended claims claimed range and spirit Change.

Claims

1. a feeding bottle, which is characterized in that including a bottle body and a base unit, wherein the base unit further comprises:

One base body, wherein the base body includes a pedestal restocking and a cover film, wherein the pedestal restocking has One restocking perforation, the cover film is arranged at the pedestal upper surface of the pedestal restocking, and the pedestal restocking is described Restocking perforation corresponds to the cover film, wherein the bottle body is arranged at the base body, in the bottle body and described An accommodating chamber, and the corresponding portion of restocking perforation by the pedestal restocking of the cover film are formed between base body Quartile is in the accommodating chamber；With

One sensor, wherein the sensor includes a sensor cantilever and the free end for being arranged at the sensor cantilever One sensor main body, the connecting pin of the sensor cantilever are arranged at the base body, wherein the sensor main body At least part is maintained at the restocking perforation of the pedestal restocking with being suspended, and the cover film after deformation can Apply pressure to the sensor main body.

2. feeding bottle according to claim 1, wherein the cover film is formed in the pedestal restocking with the cover film The mode of the pedestal upper surface is arranged at the pedestal upper surface of the pedestal restocking.

3. feeding bottle according to claim 1, wherein the cover film with the cover film and the pedestal restocking integrally The mode of formation is arranged at the pedestal upper surface of the pedestal restocking.

4. feeding bottle according to claim 1, wherein the sensor upper surface of the sensor main body of the sensor with The pedestal upper surface of the pedestal restocking is concordant；Or the sensor upper surface of the sensor main body of the sensor Protrude from the pedestal upper surface of the pedestal restocking；Or table on the sensor of the sensor main body of the sensor Face is lower than the pedestal upper surface of the pedestal restocking.

5. according to claim 1 to the feeding bottle any in 4, wherein the base unit further comprises an insulation part, Described in insulation part be maintained between the cover film and the sensor main body of the sensor.

6. feeding bottle according to claim 5, wherein the insulation part is formed in the cover film and/or the sensor The sensor main body.

7. according to claim 1 to the feeding bottle any in 4, wherein the base unit further comprises a display screen, Described in display screen be connected to the sensor.

8. feeding bottle according to claim 5, wherein the base unit further comprises a display screen, wherein the display Screen is connected to the sensor.

9. feeding bottle according to claim 6, wherein the base unit further comprises a display screen, wherein the display Screen is connected to the sensor.

10. a breast pump characterized by comprising

One breast pump ontology；With

One feeding bottle, wherein the feeding bottle is arranged at the breast pump ontology, wherein the feeding bottle further comprise a bottle body and One base unit, wherein the base unit further comprises:

11. breast pump according to claim 10, wherein the cover film is formed on the pedestal with the cover film The mode of the pedestal upper surface of frame is arranged at the pedestal upper surface of the pedestal restocking.

12. breast pump according to claim 10, wherein the cover film is with the cover film and the pedestal restocking one The mode formed to body is arranged at the pedestal upper surface of the pedestal restocking.

13. breast pump according to claim 10, wherein table on the sensor of the sensor main body of the sensor Face is concordant with the pedestal upper surface of the pedestal restocking；Or on the sensor of the sensor main body of the sensor Surface protrudes from the pedestal upper surface of the pedestal restocking；Or the sensor of the sensor main body of the sensor Upper surface is lower than the pedestal upper surface of the pedestal restocking.

14. any breast pump in 0 to 13 according to claim 1, wherein the base unit further comprises one heat-insulated Portion, wherein the insulation part is maintained between the cover film and the sensor main body of the sensor.

15. breast pump according to claim 14, wherein the insulation part is formed in the cover film and/or the sensing The sensor main body of device.

16. any breast pump in 0 to 13 according to claim 1, wherein the base unit further comprises a display Screen, wherein the display screen is connected to the sensor.

17. breast pump according to claim 14, wherein the base unit further comprises a display screen, wherein described Display screen is connected to the sensor.

18. breast pump according to claim 15, wherein the base unit further comprises a display screen, wherein described Display screen is connected to the sensor.

19. a base unit, for being applied to a feeding bottle, wherein the feeding bottle includes a bottle body characterized by comprising

20. base unit according to claim 19, wherein the cover film is formed in the pedestal with the cover film The mode of the pedestal upper surface of restocking is arranged at the pedestal upper surface of the pedestal restocking；Or the cover film The pedestal restocking is arranged in such a way that the cover film is mounted on the pedestal upper surface of the pedestal restocking The pedestal upper surface.

21. base unit according to claim 19, wherein the cover film is with the cover film and the pedestal restocking The mode being integrally formed is arranged at the pedestal upper surface of the pedestal restocking.

22. base unit according to claim 19, wherein on the sensor of the sensor main body of the sensor Surface is concordant with the pedestal upper surface of the pedestal restocking；Or the sensor of the sensor main body of the sensor Upper surface protrudes from the pedestal upper surface of the pedestal restocking；Or the sensing of the sensor main body of the sensor Device upper surface is lower than the pedestal upper surface of the pedestal restocking.

23. any base unit in 9 to 22 according to claim 1, further comprises an insulation part, wherein described heat-insulated Portion is maintained between the cover film and the sensor main body of the sensor.