CN205094265U

CN205094265U - Supplementary cooking equipment

Info

Publication number: CN205094265U
Application number: CN201520753073.8U
Authority: CN
Inventors: 郑平
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-09-25
Filing date: 2015-09-25
Publication date: 2016-03-23
Anticipated expiration: 2025-09-25

Abstract

The utility model discloses a supplementary cooking equipment, it is including powder type food material proportioning device, this powder type food material proportioning device eats the quantitative subassembly of material including whitewashed type and eats material storage subassembly with whitewashed type, powder type food material ration subassembly is including powder type food material ration feed cylinder, locate the powder type food material ration clamp plate in the powder type food material ration feed cylinder, a material storage section of thick bamboo is eaten including whitewashed type to a powder type food material storage subassembly, it type eats and to hold the material piston in the material storage section of thick bamboo to locate the powder, and be used for promoting holding the material piston and type eat the rebound of a material storage section of thick bamboo along the powder and type eat the first quantitative driver that the quantitative feed cylinder of material type was eaten to material extrusion to powder in order will type of powder to eat powder in the material storage section of thick bamboo, a powder type food material proportioning device still includes the cutting plate, and be used for when the pressure that the lower face that material ration clamp plate type was eaten to the powder bore reaches predetermined pressure value drive cutting plate shutoff powder type to eat the second shutoff driver of the feed inlet of the quantitative feed cylinder of material. The utility model relates to a supplementary cooking equipment, it can accurate, high efficiency ground ration powder type food material.

Description

Auxiliary cooking equipment

Technical Field

The utility model belongs to the culinary art field especially relates to an auxiliary cooking equipment.

Background

In the cooking process, the use amount of powder food materials (such as flour, potato powder and the like) is mainly taken out by a user manually according to experience at present, or a weighing device is adopted for weighing and quantifying; if a manual mode is adopted, the problem of inaccurate quantification exists, and if a weighing mode is adopted, the time consumption of the weighing process is long, and the problem of low quantification efficiency exists.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide an auxiliary cooking equipment, it can be accurate, high-efficient quantitative powder class eat the material, still reduced user's work load simultaneously, reduce intensity of labour, improve work efficiency.

In order to achieve the above object, the utility model provides an auxiliary cooking equipment, including powder class edible material proportioning device, powder class edible material proportioning device includes that the position sets up from top to bottom powder class edible material proportioning component and powder class edible material storage component, powder class edible material proportioning component includes powder class edible material proportioning cylinder, locates the powder class edible material quantitative clamp plate in the powder class edible material proportioning cylinder, powder class edible material storage component includes powder class edible material storage cylinder, locates hold the material piston in the powder class edible material storage cylinder and be used for promoting hold the material piston along the powder class edible material storage cylinder move upwards in order to extrude the powder class edible material in the powder class edible material storage cylinder to the first quantitative driver of the powder class edible material proportioning cylinder, wherein, the feed inlet of powder class edible material proportioning cylinder with the discharge gate butt joint of powder class edible material storage cylinder;

the powder food material quantifying device further comprises a cutting plate and a second plugging driver, wherein the second plugging driver is used for driving the cutting plate to plug the feed inlet of the powder food material quantifying material cylinder when the pressure borne by the lower plate surface of the powder food material quantifying pressing plate reaches a preset pressure value.

Optionally, the powder food quantitative assembly further comprises a first quantitative elastic member for applying a downward elastic restoring force to the powder food quantitative pressing plate when the powder food quantitative pressing plate moves upwards, a touch switch located on the upper side of the powder food quantitative pressing plate and used for controlling the cutting plate to block the feed inlet of the powder food quantitative charging barrel, and a touch rod arranged on the upper plate surface of the powder food quantitative pressing plate and used for touching the touch switch along with the upward movement of the powder food quantitative pressing plate.

Optionally, the powder food quantitative component further comprises a first quantitative fixing plate located on the upper side of the powder food quantitative pressing plate, and a position adjusting member for adjusting the position of the first quantitative fixing plate in the powder food storage cylinder, the first quantitative elastic member is arranged between the first quantitative fixing plate and the powder food quantitative pressing plate, and the touch switch is fixed to the first quantitative fixing plate.

Optionally, the powder food material quantifying assembly further comprises a limiting plate for limiting the upward movement stroke of the powder food material quantifying pressing plate, the limiting plate is provided with a through hole for the touch rod to penetrate through, the touch rod is provided with a limiting pin for preventing the touch rod from sliding downwards, one end of the first quantitative elastic member abuts against the limiting pin, and the other end of the first quantitative elastic member abuts against the fixing plate; wherein,

the limiting plate and the first quantitative fixing plate are fixedly arranged in a relative position.

Optionally, the powder material storage assembly comprises a plurality of powder material storage barrels arranged in an annular array, a support frame for fixing the powder material storage barrels, and a third rotary driver for driving the support frame to rotate and enabling the powder material storage barrels to sequentially pass through the lower part of the powder material dosing barrels.

Optionally, the auxiliary cooking device further comprises a rack, a pot for cooking, a pot discharging device, and a container conveying device for conveying containers to a first material falling position and a second material falling position in sequence, wherein the powder food material quantifying device, the pot discharging device and the container conveying device are all fixed on the rack,

the pot discharging device comprises a colander and a first blanking assembly which is used for inserting the colander into the pot and blanking food in the pot to a first blanking position;

powder class is eaten material proportioning device still including the drive powder class is eaten material proportioning barrel extremely go out the top of pot device in order to eat the material blanking extremely with powder class the second blanking subassembly of pan and be used for adding the condiment to the condiment interpolation device of the container of second blanking position.

Optionally, the auxiliary cooking appliance further comprises a vessel dispensing device for dispensing vessels to the vessel delivery device, the vessel dispensing device comprising a dispenser and a vessel magazine for placing vessels, the dispenser comprising a dispensing assembly and a first dispensing drive assembly for driving the dispensing assembly into or out of the vessel magazine, wherein,

the first distribution driving assembly drives the distribution assembly to extend into the container storage barrel so that the distribution assembly is arranged at a distribution position of a gap between the flanging of two adjacent containers, and the first distribution driving assembly drives the distribution assembly to move away from the container storage barrel so that the distribution assembly is at a switching position to be switched to the distribution position;

the dispensing assembly comprises a supporting piece for supporting the upper flanging at the dispensing position and a falling piece for moving downwards at the dispensing position so as to be supported away from the lower flanging;

the container dispensing device further comprises a container holder and a second dispensing drive assembly for driving the container holder to move to a holding position holding the container in the cartridge when the dispensing assembly is in the switching position.

Optionally, the first dispensing driving assembly includes a first dispensing fixing member, a first dispensing swing rod, a first dispensing push rod, and a first dispensing driver for driving the first dispensing push rod to move downward, an upper end of the first dispensing swing rod is hinged to the first dispensing fixing member, and a side of the first dispensing swing rod away from the container storage barrel is provided with a first inclined surface for interference fit with a free end of the first dispensing push rod;

when the first distributing driver drives the first distributing push rod to move downwards, the free end of the first distributing push rod firstly props against the inclined surface so that the free end of the first distributing swing rod swings towards the charging barrel by taking a hinge point as a center, and the free end of the first distributing push rod pushes the ejecting and dropping part to move downwards after crossing the inclined surface;

the first dispensing drive assembly further includes a first dispensing spring having a tendency for the first dispensing swing lever to move away from the cartridge centered on a hinge point, and a second dispensing spring for the top drop to move upwardly.

Optionally, the seasoning adding device comprises a seasoning storage assembly, wherein the seasoning storage assembly comprises a seasoning storage cylinder, a seasoning carrying piston arranged in the seasoning storage cylinder, and a first seasoning driver moving upwards along the seasoning storage cylinder to push the powder food material in the seasoning storage cylinder to the upper part of the seasoning storage cylinder;

the seasoning adding device also comprises a scraper and a second seasoning driver for driving the scraper to scrape the seasonings above the seasoning storage barrel to the container on the second blanking position.

Optionally, the side of strainer is along being connected with the baffle, the baffle box has been seted up to the baffle, the second blanking subassembly is including being used for the drive the strainer slant is so that foodstuff in the strainer is followed the baffle box blanking is to the first drive of putting out the pot in the container of first material level that falls. The technical scheme is as follows: as a further improvement of the present technical solution,

based on the structure of the utility model, in the using process, the first quantitative driver drives the material bearing piston to move upwards along the powder material storage cylinder so as to push the powder material in the powder material storage cylinder into the powder material quantitative cylinder, after the powder material contacts with the lower plate surface of the powder material quantitative press plate, the lower plate surface of the powder material quantitative press plate starts to bear pressure, and the pressure borne by the lower plate surface of the powder material quantitative press plate is increased along with the material bearing piston moving upwards along the powder material storage cylinder, until the pressure borne by the lower plate surface of the powder material quantitative press plate reaches a preset pressure value, the density of the powder material reaches a certain value under the action of the pressure, and under the condition that the pressure borne by the powder material is the same, the density value of the powder material is the same, and then the second quantitative driver plugs and drives the cutting plate to plug the feed inlet of the powder material quantitative cylinder, at this time, a closed space is formed by the cutting plate, the powder material quantitative pressing plate and the powder material quantitative charging barrel, and the size of the closed space is also preset. Therefore, the quantitative operation based on the structure can obtain accurate quantitative powder food material.

Based on the using process, the powder food material bearing piston is pushed to move upwards through the first quantitative driver, and when the pressure borne by the lower plate surface of the quantitative pressing plate reaches a preset pressure value, the second driver drives the cutting plate to plug the feed port of the quantitative charging barrel, so that the whole quantitative process is very simple and rapid. Therefore, adopt the utility model discloses can be fast, high efficiency ground ration powder class eat the material.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a powder food quantifying device according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of another viewing angle of the powder material quantifying device according to an embodiment of the auxiliary cooking apparatus of the present invention;

fig. 3 is a sectional view of a powder food material dosing device provided in an embodiment of the auxiliary cooking apparatus of the present invention;

fig. 4 is a cross-sectional view of a powder food material dosing barrel according to an embodiment of the auxiliary cooking device of the present invention;

fig. 5 is a partial sectional view of the powder material storage barrel according to an embodiment of the auxiliary cooking device of the present invention;

fig. 6 is a schematic perspective view of a powder food quantifying device according to another embodiment of the present invention;

fig. 7 is a schematic view of a perspective of another embodiment of the auxiliary cooking apparatus of the present invention;

fig. 8 is a schematic view of another perspective of another embodiment of the auxiliary cooking apparatus of the present invention;

FIG. 9 is a schematic view of the overall structure of a container dispenser according to still another embodiment of the auxiliary cooking apparatus of the present invention;

FIG. 10 is a schematic view of a container storage drum according to yet another embodiment of the auxiliary cooking apparatus of the present invention;

FIG. 11 is a side view of a container and some of the components of a container storage cartridge of yet another embodiment of an auxiliary cooking apparatus of the present invention;

FIG. 12 is a schematic view of a storage container of an auxiliary cooking device according to another embodiment of the present invention;

FIG. 13 is a schematic view of another embodiment of the auxiliary cooking device of the present invention showing a part of a storage container;

FIG. 14 is a schematic view of a state of parts of a container magazine according to yet another embodiment of the present invention;

FIG. 15 is a schematic view of another embodiment of the auxiliary cooking device according to the present invention showing a state of some parts of a container storage cartridge;

FIG. 16 is a schematic view of a further embodiment of an auxiliary cooking device according to the present invention showing a state of a part of a storage container;

fig. 17 is a schematic view of the entire structure of a pan discharging device according to still another embodiment of the auxiliary cooking apparatus of the present invention;

fig. 18 is a schematic view of the overall structure of the seasoning adding device of the pot discharging device according to still another embodiment of the auxiliary cooking apparatus of the present invention.

The reference numbers illustrate:

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be further noted that, in the embodiment of the present invention, the XYZ rectangular coordinate system established in fig. 1 is defined: one side in the positive direction of the X axis is defined as the front, and one side in the negative direction of the X axis is defined as the back; one side in the positive Y-axis direction is defined as the left side, and one side in the negative Y-axis direction is defined as the right side; the side in the positive direction of the Z axis is defined as the upper side, and the side in the negative direction of the Z axis is defined as the lower side.

The utility model provides an auxiliary cooking equipment.

The auxiliary cooking apparatus includes a powder material quantifying device, as shown in fig. 1 and 2, wherein the powder material quantifying device 100 includes a powder material quantifying assembly 110 and a powder material storing assembly (not shown) which are disposed at upper and lower positions. The powder material quantifying assembly 110 includes a powder material quantifying cylinder 111 and a powder material quantifying press plate 112 disposed in the powder material quantifying cylinder 111, and the powder material storing assembly includes a powder material storing cylinder 121, a material receiving piston 122 disposed in the powder material storing cylinder 121, and a first quantifying driver 123 for pushing the material receiving piston 122 to move upward along the powder material storing cylinder 121 to push the powder material in the powder material storing cylinder 121 to the powder material quantifying cylinder 111, i.e., the powder material in the powder material storing cylinder 121 is received by the material receiving piston 122 due to gravity of the powder material. In order to ensure that the material receiving piston 122 moves upwards along the material storage cylinder to push the powder type food material in the powder type food material storage cylinder 121 to the powder type food material quantifying material cylinder 111, the feeding hole of the powder type food material quantifying material cylinder 111 is in butt joint with the discharging hole of the powder type food material storage cylinder 121; in implementation, the feed inlet of the powder material quantitative cylinder 111 and the discharge outlet of the powder material storage cylinder 121 can be directly connected in a butt joint manner, or a material guide assembly is arranged between the feed inlet of the powder material quantitative cylinder 111 and the discharge outlet of the powder material storage cylinder 121 to realize the butt joint between the feed inlet of the quantitative cylinder and the discharge outlet of the powder material storage cylinder 121.

As shown in fig. 1, fig. 2 and fig. 6, the material guiding assembly includes a fixed material guiding cylinder 151, a movable material guiding cylinder 152 sleeved on the fixed material guiding cylinder 151, and a material guiding driver for driving the movable material guiding cylinder 152 to move along the fixed material guiding cylinder 151, wherein one end of the fixed material guiding cylinder 151 is in butt joint with the feed port of the powder material quantifying cylinder 111, and the movable material guiding cylinder 152 is in butt joint with the discharge port of the powder material storing cylinder 121 under the driving of the material guiding driver; based on the structure, the powder material quantitative material barrel 111 and the powder material storage barrel 121 have a certain distance, and when the material guide driver drives one end of the movable material guide barrel 152 away from the discharge hole of the powder material storage barrel 121, the powder material storage barrel 121 is convenient to detach and replace.

Of course, based on the above structure, the ration of the powder food material can not be realized yet, therefore, in the utility model, as shown in fig. 1 and fig. 2, the powder food material quantifying device 100 further comprises a cutting plate 131 and a second plugging driver 132 for plugging the feed inlet of the powder food material quantifying material cylinder 111 when the pressure borne by the lower plate surface of the powder food material quantifying pressing plate 112 reaches a predetermined pressure value.

Based on all the above structures, in the using process, the first quantitative driver 123 drives the material holding piston 122 to move upwards along the powder material storage cylinder 121, so as to push the powder material in the powder material storage cylinder 121 into the powder material quantitative material cylinder 111, after the powder material contacts the lower plate surface of the powder material quantitative pressure plate 112, the pressure borne by the lower plate surface of the powder material quantitative pressure plate 112 starts to be the pressure, and as the material holding piston 122 continues to move upwards along the powder material storage cylinder 121, the pressure borne by the lower plate surface of the powder material quantitative pressure plate 112 also increases, until the pressure borne by the lower plate surface of the powder material quantitative pressure plate 112 reaches the predetermined pressure value, and under the action of the pressure, the density of the powder material reaches a certain value, and under the condition that the pressure borne by the powder material is the same, the density value of the powder material is the same, and then the second sealing driver 132 drives the cutting plate 131 to seal the feed inlet of the powder material quantitative material cylinder 111, at this time, the cutting plate 131, the powder material quantitative pressing plate 112 and the powder material quantitative cylinder 111 together form a closed space, and the size of the closed space is also preset. Therefore, the quantitative operation based on the structure can obtain accurate quantitative powder food material.

Based on the above using process, the powder food material bearing piston 122 is pushed to move upwards by the first quantitative driver 123, and when the pressure borne by the lower plate surface of the quantitative pressure plate reaches a preset pressure value, the second driver drives the cutting plate 131 to block the feed port of the quantitative charging barrel, so that the whole quantitative process is very simple and rapid. Therefore, adopt the utility model discloses can accurately, high-efficiently ration powder class eat the material.

In the above, the powder material quantitative pressing plate 112 may be fixedly disposed in the powder material quantitative material barrel 111, or movably disposed in the powder material quantitative material barrel 111, so as to obtain the pressure borne by the lower surface of the powder material quantitative pressing plate 112, two situations may be adopted, one is when the powder material quantitative pressing plate 112 is fixedly disposed in the quantitative material, a weighing sensor may be directly disposed on the lower surface of the powder material quantitative pressing plate 112, and the pressure borne by the lower surface of the powder material quantitative pressing plate 112 is sensed by the weighing sensor, the other is when the powder material quantitative pressing plate 112 is movably disposed in the powder material quantitative material barrel 111, but the following technical scheme may be adopted:

referring to fig. 4, the powdery material quantifying assembly 110 further includes a first quantitative resilient member 114 for applying a downward resilient restoring force to the powdery material quantifying pressing plate 112 when the powdery material quantifying pressing plate 112 moves upward, a touch switch 115 located at an upper side of the powdery material quantifying pressing plate 112 and for controlling the cutting plate 131 to close the feed opening of the powdery material quantifying cylinder 111, and a touch lever 116 disposed at an upper plate surface of the quantifying pressing plate and for touching the touch switch 115 with the upward movement of the quantifying pressing plate. Based on the structure, in the using process, by utilizing the characteristic that the first quantitative elastic member 114 has elastic recovery potential energy when being deformed, when the lower plate surface of the quantitative pressing plate 112 for powder food receives a certain pressure, the quantitative pressing plate 112 for powder food moves upwards, and along with the increase of the pressure received by the lower plate surface of the quantitative pressing plate, the quantitative pressing plate 112 for powder food continues to move upwards, wherein when the quantitative pressing plate 112 for powder food moves upwards to a certain distance and the touch rod 116 touches the touch switch 115, the pressure received by the lower plate surface of the quantitative pressing plate 112 for powder food reaches a predetermined pressure value, and then the touch switch 115 controls the second blocking driver 132 to drive the cutting plate 131 to block the feeding hole of the quantitative charging barrel for powder food 111.

As mentioned above, with reference to fig. 4, the first quantitative resilient member 114 can directly apply a downward resilient restoring force to the powder material quantitative pressure plate 112, or indirectly apply a downward resilient restoring force to the powder material quantitative pressure plate 112. In this embodiment, the first quantitative resilient member 114 indirectly applies a downward resilient restoring force to the powdery material quantitative pressing plate 112, and for this purpose, the powdery material quantitative assembly 110 further includes a first quantitative fixing plate 117 located on the upper side of the powdery material quantitative pressing plate 112, and a position adjusting member 118 for adjusting the position of the first quantitative fixing plate 117 in the powdery material storage cylinder 121, the first quantitative resilient member 114 is disposed between the first quantitative fixing plate 117 and the powdery material quantitative pressing plate 112, and the touch switch 115 is fixed to the first quantitative fixing plate 117; based on this structure, the position of the powder material quantitative pressing plate 112 in the powder material storage cylinder 121 is indirectly adjusted by adjusting the position of the first quantitative fixing plate 117 in the powder material storage cylinder 121 by the position adjuster 118, so that the size of the quantitative space shared by the cutting plate 131, the powder material quantitative pressing plate 112, and the powder material quantitative material cylinder 111 is adjusted, and the amount of the powder material is adjusted.

Further, as shown in fig. 4, the powder food quantifying assembly 110 further includes a limiting plate 119 for limiting the upward movement stroke of the powder food quantifying pressing plate 112, the limiting plate 119 is provided with a through hole for the touch rod 116 to penetrate, the touch rod 116 is provided with a limiting pin 1161 for preventing the touch rod 116 from sliding downward, one end of the first quantitative elastic member 114 abuts against the limiting pin 1161, and the other end abuts against the first quantitative fixing plate 117; based on this, the limit plate 119 limits the upward movement stroke of the powder material quantitative pressing plate 112 relative to the limit plate 119, and the limit plate 119 is also beneficial to limiting the size of the quantitative space shared by the cutting plate 131, the powder material quantitative pressing plate 112 and the powder material quantitative charging barrel 111; the relative position between the position limiting plate 119 and the fixing plate is fixed, so that the positions of the position limiting plate 119 and the first quantitative fixing plate 117 in the quantitative material barrel can be adjusted together by the position adjusting part 118 without being adjusted separately, thereby improving the adjustment efficiency.

In the present invention, when the pressure applied to the lower surface of the quantitative pressing plate 112 for powder food reaches a predetermined pressure value, the first quantitative driver 123 stops driving the material-receiving piston 122 to move upward, so as to avoid extruding the cutting plate 131; in the embodiment, the material receiving piston 122 stops moving upward, and in the embodiment, the material receiving piston 122 may directly stop moving or may turn to move downward.

The utility model discloses in, when the pressure that the lower plate face of edible material ration clamp plate 112 was born to powder class reached predetermined pressure value, second driver drive cutting plate 131 from one side mouth concora crush of quantitative feed cylinder's feed inlet to the mouth edge of relative opposite side to cut off that powder class in edible material ration feed cylinder 111 is eaten to powder class and the powder class of edible material storage cylinder 121 is eaten to powder class and be connected between the edible material, and the feed inlet of edible material ration feed cylinder 111 is eaten to shutoff powder class.

In the present invention, as another embodiment, referring to fig. 6, the powder material storage assembly may include a plurality of powder material storage barrels 121 arranged in an annular array, a support frame 124 for fixing the powder material storage barrels 121, and a rotation driver 125 for driving the support frame 124 to rotate and making the powder material storage barrels 121 pass through the lower side of the powder material dosing barrels 111 in sequence. Based on this, after the powder material in one powder material storage cylinder 121 is used up, the rotary driver 125 drives the next powder material storage cylinder 121, which still stores the powder material, to the lower side of the powder material quantitative cylinder 111, and the powder material storage cylinder 121 needs to be detached to be filled with the material after one powder material storage cylinder 121 is used up.

After the quantifying is completed, the subsequent use is often needed, and for this reason, as shown in fig. 1, fig. 3 and fig. 6, the auxiliary cooking device of the present invention may include a quantitative blanking driver 141 for driving the powder material quantifying material cylinder 111 to suspend to perform blanking, and the blanking is performed by using the gravity of the powder material itself; in this embodiment, the auxiliary cooking device may further include a blanking guiding sheet 142, and the blanking guiding sheet 142 is used for guiding the powder quantitative material cylinder 111 to the suspension location and also for preventing the powder material from falling off during the process of the quantitative blanking driver 141 for guiding the powder quantitative material cylinder 111 to the suspension location.

Referring to fig. 5, the inner wall surface of the powder material storage cylinder 121 is provided with a boss 1211 for limiting the sliding of the material receiving piston 122 so as to prevent the material receiving piston 122 from sliding.

The utility model discloses still provide another kind of supplementary cooking equipment, see that fig. 7 and fig. 8 are shown, including frame 600, powder class eat material proportioning device 100, go out pot device 300 and be used for carrying container 260 to the appearance utensil conveyor 400 of first material level, the second material level that falls in proper order, powder class eat material proportioning device 100, be used for the pan 700 of culinary art, go out pot device 300, appearance utensil conveyor 400 and condiments add device 500 and all be fixed in frame 600. The powder material quantifying device 100 in this embodiment is not expanded to have a detailed structure, and specific structures and technical effects can be referred to the powder material quantifying device 100 in the foregoing embodiment, which are not described herein again; the pan discharging device 300 comprises a strainer 310 and a first blanking component in the container 260 for blanking the food in the strainer 310 to a first blanking position.

The auxiliary cooking apparatus further includes a second discharging assembly for driving the quantitative cylinder above the pot discharging device 300 to discharge the powder food to the pot 700, and a seasoning adding device 500 for adding a seasoning to the container 260 at a second discharging position. In practice, as shown in fig. 1, 3 and 6, the second blanking assembly includes a quantitative blanking driver 141 and a blanking guide sheet 142, see the previous embodiments specifically.

Based on the above structure, the cooking process using the auxiliary cooking apparatus is as follows:

the second blanking component blanks the quantified powder food material in the powder food material quantifying device 100 into the pot 700, cooks in the pot 700, and after the cooking is finished and becomes food, the first blanking component blanks the food into the container 260 on the first blanking position, at this time, the conveying component conveys the container on the first blanking position to the second blanking position, and when the second blanking position, the seasoning adding device 500 finally adds the seasoning into the container 260 on the second blanking position.

In the process, the quantitative determination and blanking of the powder food materials, the blanking of the food in the pot, the addition of the seasonings and the conveying of the container 260 are completed by the auxiliary cooking equipment without manual intervention, so that the workload of a user is reduced, the labor intensity is reduced, and the working efficiency is improved.

Referring to fig. 1, the container transporting apparatus 400 includes a conveyor belt (not shown) for transporting the containers 260, and a third transport driver (not shown) for driving the conveyor belt.

Further, as shown in fig. 1 and 2, the auxiliary cooking appliance may further include a vessel dispenser 200, and a dispensing object of the vessel dispenser 200 is a vessel 260 having a flange. Specifically, referring to fig. 9-16, the vessel dispensing device 200 includes a dispenser, and a vessel magazine 210 for placing vessels 260, and in practice, a plurality of stacked vessels 260 are typically placed into the vessel magazine 210. The dispenser includes a dispensing assembly 220 and a first dispensing driving assembly for driving the dispensing assembly 220 to insert into or probe away from the container magazine 210, and the dispensing assembly 220 is located at a dispensing position of a gap between flanges of two adjacent containers 260 when inserted into the container magazine 210, and is located at a switching position to be switched to the dispensing position when probed away from the container magazine 210. Wherein, a side hole 211 for the dispensing component 220 to insert into or separate from the container storage barrel 210 is formed on the side wall of the container storage barrel 210.

Of the above, the dispensing assembly 220 includes a holder 221 for holding the upper flange in the dispensing position, and a landing member 222 for moving downward to lift the lower flange in the dispensing position; based on this, referring to fig. 11, when the dispenser is in the dispensing position, that is, the dispenser is in the gap between the outer flanges of two adjacent containers 260 in the container storage barrel 210, at this time, the container 260 with the outer flange above the dispensing assembly 220 is not dropped due to the abutting of the abutting member 221, and the container 260 with the outer flange below the dispensing assembly 220 is dropped due to the downwardly moving abutting member 222, so that the dispensing of the container 260 is realized.

However, based on the structure of the container dispenser 200, when the dispensing assembly 220 is in the switching position, all of the containers 260 that have not been dispensed and are placed in the container magazine 210 will fall. Therefore, in the present invention, the container dispensing apparatus 200 further includes a container receiver 240 and a second dispensing driving assembly for driving the container receiver 240 to move to the supporting position of the container 260 in the container storage barrel 210 when the dispensing assembly 220 is in the switching position, that is, when the dispensing assembly 220 is in the switching position, the second dispensing driving assembly drives the container receiver 240 to move to the supporting position, so as to prevent the container 260 which is not yet dispensed from falling down.

Based on all of the above structures, it should be noted herein that to ensure that the dispensing assembly 220 can dispense containers 260 with the flared edges below the dispensing assembly 220 when in the dispensing position, those skilled in the art will appreciate that when the dispensing assembly 220 is driven by the first dispensing drive assembly to again be in the dispensing position, the container supports 240 should be moved out of the supporting position to avoid obstructing the dispensing of the containers 260; in practice, the evacuation of the container support 240 may be driven by the second distributed driving assembly, or may be driven by another independent driving assembly, which is not limited herein.

In conclusion, the utility model discloses a to the automatic distribution of container 260, need not artifical distribution to reduce human resources's occupation, reduce cost.

Further, referring to fig. 12 to 16, the first dispensing driving assembly includes a first dispensing fastener 231, a first dispensing swing rod 232, a first dispensing push rod 233, and a first dispensing driver for driving the first dispensing push rod 233 to move downward, an upper end of the first dispensing swing rod 232 is hinged to the first dispensing fastener 231, and a side of the first dispensing swing rod 232 facing away from the container storage barrel 210 has a first inclined surface 2321 for interference fit with a free end of the first dispensing push rod 233.

As shown in fig. 15, in the process that the first dispensing driver drives the first dispensing push rod 233 to move downward, the free end of the first dispensing push rod 233 first pushes against the inclined surface so that the free end of the first dispensing swing rod 232 swings toward the container storage barrel 210 with the hinge point as the center, and after the free end of the first dispensing push rod 233 passes over the inclined surface, as shown in fig. 16, the top-and-down piece 222 is pushed to move downward; this allows the first dispensing drive assembly to drive the dispensing assembly 220 into the container magazine 210 and move the landing member 222 downward when the dispensing assembly 220 is in the dispensing position.

To ensure that the dispensing assembly 220 performs the next dispensing cycle, i.e., that the dispensing assembly 220 is in the switching position, as shown in FIGS. 12-16, the first dispensing actuator assembly further includes a first dispensing resilient member 234 having a tendency to move the first dispensing swing lever 232 about the hinge point in a direction away from the container magazine 210, and a second dispensing resilient member 254 for having an upward movement tendency for the landing member 222. When the first distributing push rod 233 moves upward and cancels the lateral thrust of the first distributing push rod 233 to the top-and-bottom member 222, at this time, under the action of the second distributing elastic member 254, the top-and-bottom member 222 will reset to the position where the first distributing push rod 233 is not pushed downward, the first distributing push rod 233 continues to move upward and will cancel the lateral thrust of the first distributing push rod 233 to the first swinging rod, and under the action of the first distributing elastic member 234, the first distributing swinging rod 232 will reset to the position where the lateral thrust of the first distributing push rod 233 is not pushed, and at this time, the distributing assembly is at the switching position. The first distributing elastic member 234 may be a compression spring, a torsion spring, or other elastic member, and in the present embodiment, according to the above-described structure, the first distributing elastic member 234 is a torsion spring; the second distribution spring 254 may be a compression spring, or may be a component having elasticity such as a torsion spring, and in the present embodiment, the second distribution spring 254 is a compression spring according to the above configuration.

Referring to fig. 12 to 16, the second dispensing driving assembly includes a second dispensing fixing member 251, a second dispensing swing rod 252, a second dispensing push rod 253, and a second dispensing driver for driving the second dispensing push rod 253 to move downward, the upper end of the second dispensing swing rod 252 is hinged to the second dispensing fixing member 251, the second dispensing swing rod 252 has a second inclined surface on a side surface facing the container storage barrel 210 for interference fit with the free end of the second dispensing push rod 253, and during the downward movement of the second dispensing push rod 253 driven by the second dispensing driver, the free end of the second dispensing push rod 253 interferes with the second dispensing inclined surface and causes the free end of the second dispensing swing rod 252 to swing away from the container storage barrel 210 with the hinge point as the center. With this structure, the container holder 240 holds the containers 260 in the container magazine 210 when the dispensing unit 220 is in the switching position, and prevents the containers 260 in the container magazine 210 from falling down completely when the dispensing unit 220 is in the switching position.

Further, to prevent the dispensing assembly 220 from being disabled from dispensing in the dispensing position, the second dispensing actuation assembly further includes a third dispensing resilient member 2221 having a tendency for the second dispensing swing lever 252 to move about the hinge point toward the container magazine 210. When the second dispensing push rod 253 moves upwards and the lateral thrust of the second dispensing push rod 253 on the second dispensing oscillating rod 252 is cancelled, the container support 240 will leave the supporting position under the action of the third dispensing elastic element 2221.

In this embodiment, the first and second distributing drivers may be the same driver, and the first and second distributing swing levers 232 and 252 are driven by the intermediate connecting member, so that the number of drivers used can be reduced, and the use cost can be reduced.

Referring to fig. 12 and 13, the first dispensing fastener 231 and the second dispensing fastener 251 are both fixed to the container magazine 210, so that the first dispensing driving assembly can be conveniently removed integrally when detached; and the first distributing fixing member 231 and the second distributing fixing member 251 are integrally provided, which is convenient for production and manufacture. In this embodiment, four dispensers are provided, and the four dispensers are arranged around the container storage barrel 210 at equal intervals.

In the above, the inner diameter of the container storage barrel 210 is slightly larger than the outer diameter of the outward flange of the container 260, so that the container 260 is prevented from being stuck in the container storage barrel 210 during the downward-releasing process, and the normal dispensing function of the dispensing assembly 220 is effectively guaranteed.

Referring to fig. 17, the side edge of the strainer 310 is connected with a material guiding member 320, the material guiding member 320 is provided with a material guiding groove, and the second material dropping assembly includes a first pan discharging driver 330 for driving the strainer 310 to incline so that the foodstuff in the strainer 310 is dropped into the container 260 at the first material dropping position along the material guiding groove.

Referring to fig. 18, the seasoning adding apparatus 500 comprises a seasoning storage unit 510 and a third discharging unit 520, wherein the seasoning storage unit 510 comprises a seasoning storage cylinder, a seasoning receiving piston 122 disposed in the seasoning storage cylinder, and a fourth driver for moving upward along the seasoning storage cylinder to push the powder material in the seasoning storage cylinder to the upper side of the seasoning storage cylinder, and the third discharging unit 520 comprises a scraper and a sixth driver for driving the scraper to scrape the seasoning above the seasoning storage cylinder to the receptacle 260 at the second discharging position.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.

Claims

1. An auxiliary cooking device is characterized by comprising a powder food material quantifying device, wherein the powder food material quantifying device comprises a powder food material quantifying assembly and a powder food material storage assembly which are vertically arranged, the powder food material quantifying assembly comprises a powder food material quantifying material cylinder and a powder food material quantifying pressing plate arranged in the powder food material quantifying material cylinder, the powder food material storage assembly comprises a powder food material storage cylinder, a material bearing piston arranged in the powder food material storage cylinder and a first quantitative driver used for pushing the material bearing piston to move upwards along the powder food material storage cylinder so as to extrude the powder food material in the powder food material storage cylinder to the powder food material quantifying material cylinder, wherein a feeding hole of the powder food material quantifying material cylinder is in butt joint with a discharging hole of the powder food material storage cylinder;

2. The auxiliary cooking apparatus of claim 1, wherein the powdery material quantitative assembly further comprises a first quantitative resilient member for applying a downward resilient restoring force to the powdery material quantitative pressing plate when the powdery material quantitative pressing plate moves upward, a touch switch located at an upper side of the powdery material quantitative pressing plate and for controlling the cutting plate to close the feed opening of the powdery material quantitative cylinder, and a touch lever disposed at an upper plate surface of the powdery material quantitative pressing plate and for touching the touch switch as the powdery material quantitative pressing plate moves upward.

3. The auxiliary cooking apparatus as claimed in claim 2, wherein the powder measuring assembly further comprises a first measuring plate disposed at an upper side of the powder measuring pressing plate, and a position adjusting member for adjusting a position of the first measuring plate within the powder storing tube, the first measuring elastic member is disposed between the first measuring plate and the powder measuring pressing plate, and the touch switch is fixed to the first measuring plate.

4. The auxiliary cooking apparatus as claimed in claim 3, wherein the powder material quantifying assembly further comprises a limiting plate for limiting the upward movement of the powder material quantifying pressing plate, the limiting plate is provided with a through hole for the touch rod to penetrate through, the touch rod is provided with a limiting pin for preventing the touch rod from sliding downwards, one end of the first quantity of elastic members abuts against the limiting pin, and the other end abuts against the fixing plate; wherein,

5. The auxiliary cooking apparatus as claimed in claim 1, wherein the powder material storage assembly comprises a plurality of powder material storage barrels arranged in an annular array, a support frame for fixing the powder material storage barrels, and a third rotary driver for driving the support frame to rotate and making the powder material storage barrels pass below the powder material dosing barrels in sequence.

6. The auxiliary cooking apparatus of any one of claims 1 to 5, further comprising a frame, a pot for cooking, a pot discharging means, and a container conveying means for conveying containers to a first falling position and a second falling position in sequence, wherein the powdery food material dosing means, the pot discharging means, and the container conveying means are fixed to the frame,

7. The auxiliary cooking apparatus of claim 6, further comprising a vessel dispensing device for dispensing vessels to the vessel delivery device, the vessel dispensing device comprising a dispenser and a vessel magazine for placing vessels, the dispenser comprising a dispensing assembly and a first dispensing drive assembly for driving the dispensing assembly into or out of the vessel magazine, wherein,

8. The auxiliary cooking apparatus of claim 7 wherein the first dispensing drive assembly comprises a first dispensing fixture, a first dispensing swing lever, a first dispensing push rod, and a first dispensing actuator for actuating the first dispensing push rod to move downwardly, the first dispensing swing lever being hingedly connected to the first dispensing fixture at an upper end thereof, the first dispensing swing lever having a first angled surface on a side facing away from the receptacle magazine for interference engagement with a free end of the first dispensing push rod;

9. The auxiliary cooking apparatus of claim 6, wherein the seasoning adding means comprises a seasoning storage assembly comprising a seasoning storage cylinder, a seasoning receiving piston disposed within the seasoning storage cylinder, and a first seasoning driver for moving up the seasoning storage cylinder to push the powdered food material within the seasoning storage cylinder above the seasoning storage cylinder;

10. The auxiliary cooking apparatus of claim 6, wherein a material guiding member is connected to a side edge of the strainer, the material guiding member defines a material guiding slot, and the first material dropping assembly includes a first pan-out driver for driving the strainer to tilt so as to drop the foodstuff in the strainer to a first dropping level along the material guiding slot.