CN114209227B - Complementary food machine - Google Patents

Abstract

The invention relates to the technical field of cooking equipment, in particular to a complementary food machine, which comprises a cup body, an inner container, a stirring knife and a driving mechanism, wherein the inner container is detachably arranged in the cup body and used for preparing complementary food, the stirring knife is detachably arranged in the inner container, the driving mechanism is detachably connected with the stirring knife in a transmission way, and the driving mechanism can drive the stirring knife to rotate around a rotating axis of the driving mechanism and can also drive the stirring knife to move along the extending direction of the rotating axis. The auxiliary food disclosed by the invention can realize function expansion and improve the problem of resource waste caused by idling.

Description

Complementary food machine

Technical Field

The invention relates to the technical field of cooking equipment, in particular to a complementary food machine.

Background

The auxiliary food machine is a common cooking device, and the auxiliary food machine provided by the related technology can be used for directly heating food to be minced so as to complete food stewing while the food is minced, so that the auxiliary food machine is convenient to operate and can effectively save time.

However, the complementary food machine provided by the related technology has single function and is easy to idle, so that the resource waste is caused.

Disclosure of Invention

The invention aims to provide a complementary food machine which can realize the expansion of functions and improve the problem of resource waste caused by idling.

Embodiments of the present invention are implemented as follows:

The present invention provides a complementary food machine, comprising:

A cup body;

The inner container is detachably arranged in the cup body and is used for preparing complementary food;

the stirring knife is detachably arranged in the inner container;

The stirring knife is detachably connected with the driving mechanism in a transmission way, and the driving mechanism can drive the stirring knife to rotate around the rotating axis of the stirring knife and can also drive the stirring knife to move along the extending direction of the rotating axis.

In an alternative embodiment, the driving mechanism comprises a driving assembly and a transmission shaft, the driving assembly is in transmission fit with the transmission shaft, the stirring blade is detachably arranged on the transmission shaft, the driving assembly is used for driving the transmission shaft to drive the stirring blade to rotate around the rotation axis, and the driving assembly can also drive the transmission shaft to drive the stirring blade to move along the extending direction of the rotation axis.

In an alternative embodiment, the driving assembly comprises a first gear, the transmission shaft comprises a screw rod part and a transmission part, the screw rod part is connected with the transmission part, the first gear is meshed with the screw rod part, the stirring blade is detachably arranged on the transmission part, and the first gear is used for driving the screw rod part to drive the transmission part and the stirring blade to move along the extending direction of the rotation axis.

In an alternative embodiment, the driving assembly further comprises a first motor, the first motor is in transmission connection with the first gear and is used for driving the first gear to rotate, so that the screw rod portion drives the transmission portion and the stirring blade to move along the extending direction of the rotation axis.

In an alternative embodiment, the driving assembly further comprises a second gear, the transmission part is connected with the second gear in an inserting mode, and the second gear is used for driving the transmission part to drive the stirring blade to rotate around the rotation axis.

In an alternative embodiment, the transmission part comprises a sliding part and a connecting part which are sequentially connected, one end of the sliding part, which is far away from the connecting part, is connected with the screw rod part, the stirring knife is detachably connected with the connecting part, the sliding part is spliced with the second gear, the sliding part can move relative to the second gear along the extending direction of the rotating axis, and the relative position of the sliding part and the second gear in the direction encircling the rotating axis is fixed.

In an alternative embodiment, the driving assembly further comprises a second motor, and the second motor is in transmission fit with the second gear and is used for driving the second gear to rotate, so that the transmission part drives the stirring blade to rotate around the rotating shaft line.

In an alternative embodiment, the drive assembly further comprises a third gear, the second gear is meshed with the third gear, and the output shaft of the second motor is in driving connection with the third gear.

In an alternative embodiment, the complementary food machine further comprises a heating assembly and a base, wherein the heating assembly and the cup body are arranged on the base, and the heating assembly is used for heating the inner cavity of the cup body.

In an alternative embodiment, when the liner is arranged in the cup body, a containing cavity is formed between the liner and the cup body, the containing cavity is used for containing water, and the liner is provided with a channel communicated with the containing cavity.

The complementary food machine has the beneficial effects that the complementary food machine comprises the cup body, the inner container, the stirring knife and the driving mechanism, the inner container is detachably arranged in the cup body and used for preparing complementary food, the stirring knife is detachably arranged in the inner container, the driving mechanism is detachably connected with the stirring knife in a transmission mode, the driving mechanism can drive the stirring knife to rotate around the rotating axis of the driving mechanism, and the driving mechanism can also drive the stirring knife to move along the extending direction of the rotating axis. When the auxiliary food machine is used, the inner container is assembled in the cup body, the stirring knife is arranged in the inner container, the stirring knife in transmission connection with the inner container can be driven by the driving mechanism to rotate, so that food in the inner container is minced to prepare auxiliary food, the stirring knife is separated from the driving mechanism, the inner container is detached from the cup body, the stirring knife is in transmission connection with the driving mechanism, the stirring knife can be driven by the driving mechanism to move along the extending direction of the rotating axis, the stirring knife moves towards the direction close to the bottom wall of the cup body, so that the stirring knife can directly pulverize food in the cup body, the auxiliary food machine can be used as a general stirring machine, the function of the auxiliary food machine is expanded, the function of the auxiliary food machine is not single to prepare auxiliary food, and the problem that resources of the auxiliary food machine are wasted easily due to idle is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a cross-sectional view of a complementary food machine with a liner disposed in a cup according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the complementary food processor when the liner is removed from the cup in an embodiment of the invention;

FIG. 3 is a schematic diagram showing an exploded structure of the complementary food processor in the embodiment of the invention;

FIG. 4 is a schematic view of a transmission shaft according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a driving assembly according to another embodiment of the present invention;

FIG. 6 is a schematic diagram of a second gear according to an embodiment of the present invention;

Fig. 7 is an enlarged view at VII in fig. 1.

The icons comprise 010-complementary food machine, 100-base, 110-heating component, 120-gear bracket, 130-cup cover, 131-groove, 132-protrusion, 140-bottom cover, 150-upper cover component, 151-first inserting hole, 152-first upper cover, 153-second upper cover, 160-bearing, 161-oil seal, 170-knob, 171-circuit board, 200-cup, 210-containing cavity, 211-second inserting hole, 300-inner container, 310-inner container body, 311-containing space, 320-inserting column, 321-through hole, 322-gap, 400-stirring knife, 410-cylinder, 411-knife blade, 412-opening, 413-connecting column, 500-driving mechanism, 510-driving component, 511-first gear, 512-first motor, 513-second gear, 514-third gear, 515-second motor, 516-inserting hole, 517-fourth gear, 518-electromagnetic clutch, 520-transmission shaft, 521-screw part, 522-transmission part, 523-sliding part, and connecting part a-axis.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected through an intermediate medium, or in communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The complementary food machine provided by the related art can heat food when the food is minced, so that food is cooked while the food is minced, the operation is convenient, and the time can be effectively saved.

However, only the infant needs to eat the supplementary food, and as the infant grows, the supplementary food machine is not needed to be used after the supplementary food stage of the infant is finished, so that the supplementary food machine has a single function and is easy to idle, thereby wasting resources.

Referring to fig. 1, the present embodiment provides a complementary food machine 010, which can be used for preparing complementary food, and can be used as a general mixer, and is only used for mincing food without cooking and heating the food.

Referring to fig. 1, the complementary food machine 010 of the embodiment includes a base 100, a cup 200, a liner 300, a stirring blade 400, and a driving mechanism 500, wherein the cup 200 is disposed on the base 100, the liner 300 is detachably connected with the cup 200, the stirring blade 400 is detachably disposed in the liner 300, the driving mechanism 500 is detachably connected with the stirring blade 400 in a transmission manner, and the driving mechanism 500 can drive the stirring blade 400 to rotate around a rotation axis a thereof, so that food placed in the liner 300 of the liner 300 can be minced when the driving mechanism 500 drives the stirring blade 400 to rotate.

Further, the complementary food machine 010 further comprises a heating assembly 110, the heating assembly 110 is arranged on the base 100, the heating assembly 110 is used for heating the inner cavity of the cup body 200, the heating assembly 110 comprises but is not limited to an electric heating wire, a mica heating plate and the like, when the liner 300 is arranged in the cup body 200, a containing cavity 210 is formed between the liner 300 and the cup body 200, the containing cavity 210 is used for containing water, and the liner 300 is provided with a channel communicated with the containing cavity 210. When the auxiliary food machine 010 is used, water can be filled in the accommodating cavity 210, food is placed in the inner container 300, the water in the accommodating cavity 210 is heated by the heating component 110, so that the water is heated into water vapor which enters the inner container 300 through the channel, the food in the inner container 300 is steamed and heated, the stirring knife 400 is driven to rotate around the rotation axis a by the driving mechanism 500, and the food placed in the inner container 300 can be minced, so that the food can be steamed and heated while being minced, and the auxiliary food can be conveniently and quickly prepared.

It should be appreciated that in other embodiments, the complementary food processor 010 further includes a steam mechanism independently disposed on the base 100, the steam mechanism is in communication with the inner container 300 through a pipe, the steam mechanism is configured to contain water, the steam mechanism is capable of heating water into hot steam, and the hot steam is enabled to enter the inner container 300 through the pipe, so that the food in the inner container 300 is conveniently heated by the hot steam.

In other embodiments, the auxiliary food machine 010 may not be provided with the heating assembly 110, and when preparing auxiliary food with the auxiliary food machine 010, steamed food may be placed in the inner container 300, and then the driving mechanism 500 is used to drive the stirring blade 400 to rotate around the rotation axis a, so as to mince the cooked food in the inner container 300.

With continued reference to fig. 1, the liner 300 of the present embodiment includes a liner body 310 and a plug post 320, the plug post 320 is connected with the liner body 310, and an accommodating space 311 for accommodating food is formed between the plug post 320 and the liner body 310, the plug post 320 is provided with a through hole 321, when the liner 300 is disposed in the cup 200, the through hole 321 is communicated with the accommodating cavity 210, a stirring blade 400 in driving connection with the driving mechanism 500 is detachably plugged into the plug post 320, and a gap 322 is formed between the stirring blade 400 and an outer wall of the plug post 320, and the gap 322 is communicated with the accommodating space 311, the through hole 321 is communicated with the gap 322, and when the heating assembly 110 heats water in the accommodating cavity 210, generated water vapor sequentially passes through the through hole 321 and the gap 322 to enter the liner 300, so as to heat and cook food placed in the accommodating space 311 by using high-temperature steam entering the liner 300.

Further, the stirring blade 400 comprises a barrel 410 and a blade 411 connected to the barrel 410, the barrel 410 is detachably connected with the driving mechanism 500, the barrel 410 is spliced with the spliced pole 320, a gap 322 is formed between the inner wall of the barrel 410 and the outer part of the spliced pole 320, an opening 412 is formed between one end of the barrel 410 close to the bottom wall of the liner body 310 and the liner body 310, so that water vapor entering the gap 322 enters the accommodating space 311 through the opening 412, namely, the through hole 321, the gap 322 and the opening 412 together form a channel communicated with the accommodating cavity 210 of the liner 300, and the arrangement ensures that water in the accommodating cavity 210 can flow through the through hole 321, the gap 322 and the opening 412 to enter the accommodating space 311 for heating and cooking foods after being heated to water vapor.

Optionally, the sidewall of the cylinder 410 is provided with an air outlet (not shown) which is communicated with the accommodating space 311, so that the water vapor entering the gap 322 can enter the accommodating space 311 from the air outlet, so that the accommodating space 311 obtains a large enough heating range, and the food placed in the accommodating space 311 can be heated and steamed efficiently.

It should be noted that, the manner in which the liner body 310 is detachably disposed in the cup 200 is similar to the related art, such as overlapping, clamping, etc., and is not particularly limited herein.

Referring to fig. 1 and 2, in the present embodiment, the driving mechanism 500 can also drive the stirring blade 400 to move along the extending direction of the rotation axis a, when the complementary food machine 010 is used, the stirring blade 400 and the driving mechanism 500 can be separated, the inner container 300 can be detached from the cup 200, then the stirring blade 400 is in transmission connection with the driving mechanism 500, and food can be placed in the cup 200, i.e. the driving mechanism 500 can be used to drive the stirring blade 400 to move along the extending direction of the rotation axis a, so that the stirring blade 400 moves towards the direction close to the bottom wall of the cup 200, and the stirring blade 400 can directly grind the food placed in the cup 200, so that the complementary food machine 010 can be used as a general stirrer without cooking the food, thus the functions of the complementary food machine 010 can be expanded, the functions of preparing complementary food are not single, and the problem of wasting resources of the complementary food machine 010 due to idle is solved.

Referring to fig. 1-3, the driving mechanism 500 of the present embodiment includes a driving component 510 and a driving shaft 520, the driving component 510 is in driving engagement with the driving shaft 520, the stirring blade 400 is detachably disposed on the driving shaft 520, the driving component 510 is configured to drive the driving shaft 520 to drive the stirring blade 400 to rotate around the rotation axis a, and further drive the driving shaft 520 to drive the stirring blade 400 to move along the extending direction of the rotation axis a. Thus, when the complementary food machine 010 is used for preparing complementary food or used as a general stirrer, the driving assembly 510 is used for driving the transmission shaft 520 and the stirring blade 400 to move along the extending direction of the rotation axis a, so as to meet different stirring requirements. It should be noted that, in this embodiment, the driving assembly 510 is configured to be fixed by driving the driving shaft 520 and the stirring blade 400 to move synchronously along the extending direction of the rotation axis a by using the driving assembly 510, so that the structure is relatively simple, the assembly is easy, and the maintenance is easy.

It should be appreciated that in other embodiments, the drive assembly 510 may be configured to be integrally movable along the extension direction of the axis of rotation a, for example, the drive mechanism 500 may further include a lift mechanism drivingly coupled to the drive assembly 510 for driving the drive assembly 510 to move along the extension direction of the axis of rotation a such that the drive shaft 520 drivingly coupled to the drive assembly 510 and the stirring blade 400 removably coupled to the drive shaft 520 move synchronously along the extension direction of the axis of rotation a. Wherein the lifting mechanism comprises, but is not limited to, a screw mechanism, a gear rack mechanism.

The driving assembly 510 of the embodiment is disposed on the base 100, and the driving shaft 520 extends out of the base 100 and into the cup 200, when the liner 300 is disposed in the cup 200, the driving shaft 520 is inserted into the through hole 321 and detachably connected with the cylinder 410 to realize the detachable connection between the stirring blade 400 and the driving shaft 520, wherein the driving shaft 520 and the wall of the through hole 321 are distributed at intervals to ensure that water in the accommodating cavity 210 can smoothly enter the gap 322 through the through hole 321 after being heated into steam, and then enter the accommodating space 311 through the outlet.

The detachable connection mode of the transmission shaft 520 and the stirring blade 400 can be selected according to the need, referring to fig. 1, the stirring blade 400 of the embodiment further comprises a connection post 413, the connection post 413 is connected in the cylinder 410 and is coaxially distributed with the cylinder 410, one end of the transmission shaft 520 far away from the driving assembly 510 is spliced with the connection post 413, and in this way, the arrangement ensures the easy operability and the stability of the detachable connection of the stirring blade 400 and the transmission shaft 520. Alternatively, when the stirring blade 400 and the driving shaft 520 are assembled together, the connection post 413 may be inserted into the through hole 321 to be inserted into the driving shaft 520, or the driving shaft 520 may protrude from the through hole 321, and the connection post 413 may be inserted into the driving shaft 520 outside the through hole 321, which is not particularly limited herein.

It should be appreciated that in other embodiments, the drive shaft 520 may also be engaged with the barrel 410 of the stirring blade 400, etc., and is not specifically limited herein.

Referring to fig. 3 and 4, the driving assembly 510 of the present embodiment includes a first gear 511, the driving shaft 520 includes a screw portion 521 and a driving portion 522, the screw portion 521 is connected to the driving portion 522, the first gear 511 is meshed with the screw portion 521, the stirring blade 400 is detachably disposed in the driving portion 522, specifically, the connecting post 413 is detachably inserted into the driving portion 522, the first gear 511 is used for driving the screw portion 521 to drive the driving portion 522 and the stirring blade 400 to move along the extending direction of the rotation axis a, specifically, when the first gear 511 rotates, the screw portion 521 is driven to move along the extending direction of the rotation axis a, and then the screw portion 521 is utilized to drive the driving portion 522 and the stirring blade 400 to synchronously move along the extending direction of the rotation axis a, so that when the liner 300 is disposed in the cup 200, the position of the stirring blade 400 is raised to be located in the liner 300, so as to prepare the complementary food by the complementary food 010, or when the liner 300 is detached from the cup 200, the position of the stirring blade 400 is lowered to be close to the bottom of the cup 200, so as to use the complementary food 010 as a general stirring machine.

Further, referring to fig. 3, the driving assembly 510 further includes a first motor 512, and the first motor 512 is in transmission connection with the first gear 511 and is configured to drive the first gear 511 to rotate, so that the screw portion 521 drives the transmission portion 522 and the stirring blade 400 to move along the extending direction of the rotation axis a. Specifically, the output shaft of the first motor 512 is fixedly connected with the first gear 511 coaxially, so that the first motor 512 can be used for reliably driving the first gear 511 to rotate, the volume of the driving assembly 510 can be reduced, and the miniaturization and compactness of the design are ensured.

Of course, in other embodiments, the first motor 512 may be further connected to the first gear 511 by a gear assembly, and thus, the gear assembly may be used for decelerating or accelerating the transmission as required to meet various requirements.

It should be appreciated that in other embodiments, the drive shaft 520 includes a rack portion and a drive portion 522 connected to each other, the rack portion being engaged with the first gear 511, and when the first gear 511 rotates, the rack portion is driven to move in the extending direction of the rotation axis a, thereby driving the drive portion 522 and the stirring blade 400 to move synchronously in the extending direction of the rotation axis a.

In other embodiments, the driving assembly 510 does not include the first motor 512, the driving shaft 520 may not include the screw portion 521, the driving shaft 520 is fixedly connected with a stirring member, including but not limited to a stirring rod or a stirring block, and the stirring member extends out of the base 100, and when the height of the stirring blade 400 needs to be adjusted, that is, when the stirring blade 400 needs to be moved along the extending direction of the rotation axis a, a user manually applies a force to the stirring member, that is, the driving shaft 520 and the stirring blade 400 can be driven by the stirring member to move along the extending direction of the rotation axis a.

Referring to fig. 2 and 3, the driving assembly 510 of the present embodiment further includes a second gear 513, a transmission portion 522 is inserted into the second gear 513, and the second gear 513 is configured to drive the transmission portion 522 to rotate the stirring blade 400 around the rotation axis a. The transmission part 522 is inserted into the second gear 513, so that the driving mechanism 500 can be compact in structure, and the miniaturization of the structural design can be ensured.

Further, the driving assembly 510 further includes a second motor 515, and the second motor 515 is in driving engagement with the second gear 513, so as to drive the second gear 513 to rotate, so that the driving part 522 drives the stirring blade 400 to rotate around the rotation axis a. The second motor 515 is used to drive the second gear 513 to rotate, so that the reliability of the rotation of the stirring blade 400 by the second gear 513 driving the transmission part 522 can be ensured.

Still further, the driving assembly 510 further comprises a third gear 514, the second gear 513 is meshed with the third gear 514, the third gear 514 is in transmission connection with the output shaft of the second motor 515, and specifically, the output shaft of the second motor 515 is fixedly connected with the third gear 514 coaxially. By means of the arrangement, on one hand, the second motor 515 can reliably drive the second gear 513 to rotate through the third gear 514, on the other hand, excessive parts such as gears can be avoided, the structure of the driving assembly 510 is prevented from occupying excessive space, and therefore compact structural design is facilitated.

It should be appreciated that referring to fig. 5, in other embodiments, the driving assembly 510 may include only one motor, the driving assembly 510 further includes a fourth gear 517 and an electromagnetic clutch 518, the motor is coaxially connected with the third gear 514, the third gear 514 is meshed with the second gear 513, the third gear 514 is further meshed with the fourth gear 517, and the fourth gear 517 is in driving connection with the first gear 511 through the electromagnetic clutch 518. When the motor drives the third gear 514 to rotate, the third gear 514 can synchronously drive the second gear 513 and the fourth gear 517 to rotate, when the electromagnetic clutch 518 is attracted, the fourth gear 517 synchronously drives the first gear 511 to rotate, so that the first gear 511 drives the stirring blade 400 to move along the extending direction of the rotating axis a while the motor drives the stirring blade 400 to rotate about the rotating axis a, and when the electromagnetic clutch 518 is disconnected, the fourth gear 517 cannot drive the first gear 511 to rotate, and at the moment, the motor can only drive the second gear 513 to drive the stirring blade 400 to rotate about the rotating axis a through the third gear 514, but cannot drive the first gear 511 to drive the stirring blade 400 to move along the extending direction of the rotating axis a. By the arrangement, the number of the motors can be reduced, and the cost is reduced due to the reduction of the number of the motors.

Referring to fig. 1,2 and 4, the transmission part 522 of the present embodiment includes a sliding part 523 and a connecting part 524 connected in sequence, wherein one end of the sliding part 523 away from the connecting part 524 is connected with a screw rod part 521, the stirring blade 400 is detachably connected with the connecting part 524, specifically, the connecting post 413 is detachably inserted and matched with the connecting part 524, the sliding part 523 is inserted and matched with the second gear 513, the sliding part 523 can move along the extending direction of the rotation axis a relative to the second gear 513, and the sliding part 523 can be fixed relative to the second gear 513 along the direction surrounding the rotation axis a. In this way, when the first motor 512 and the first gear 511 drive the transmission shaft 520 to move along the extending direction of the rotation axis a, the relative position of the second gear 513 is fixed, so that the second gear 513 and the third gear 514 are always kept in a stable meshed state, after the stirring blade 400 moves along the extending direction of the rotation axis a, the second motor 515 can still be used to drive the third gear 514 to drive the second gear 513 to rotate the stirring blade 400 around the rotation axis a, and the relative shaking between the sliding part 523 and the second gear 513 can be reduced, so that the driving component 510 can be ensured to drive the stirring blade 400 to rotate stably, and the food can be reliably, stably and efficiently minced by the complementary food machine 010.

In order to fix the relative position of the sliding portion 523 and the second gear 513 in the direction around the rotation axis a, that is, in order to prevent the second gear 513 from rotating around the rotation axis a relative to the sliding portion 523, that is, in order to enable the second gear 513 to reliably rotate around the rotation axis a in synchronization with the sliding portion 523, optionally, referring to fig. 6, the second gear 513 is provided with a jack 516, the jack 516 includes, but is not limited to, a waist-shaped hole, a long hole, a flat hole, and a square hole, and the sliding portion 523 is adapted to the jack 516, that is, the shape and the size of the sliding portion 523 are adapted to the jack 516, so that when the sliding portion 523 is inserted into the jack 516, the sliding portion 523 can only slide in the extending direction of the rotation axis a in the jack 516 and cannot rotate relative to the second gear 513.

In this embodiment, the connection portion 524 is inserted into the barrel 410 of the stirring blade 400, specifically, the connection portion 524 is inserted into the connection post 413, and forms an interference fit, so that when the transmission shaft 520 rotates around the rotation axis a, the stirring blade 400 is driven to rotate around the rotation axis a synchronously. It should be appreciated that in other embodiments, the connection portion 524 may also be snapped or screwed with the connection post 413, etc., and is not specifically limited herein.

Optionally, referring to fig. 2 and 3, the complementary food machine 010 further includes a gear bracket 120, the gear bracket 120 is fixedly disposed in the base 100, and the second gear 513 and the third gear 514 are rotatably disposed on the gear bracket 120. In this way, during assembly, the second gear 513 and the third gear 514 can be rotatably arranged on the gear bracket 120 and then integrally assembled on the base 100, so that the modular assembly of the complementary food machine 010 is ensured, the assembly is easier to operate, the second gear 513 and the third gear 514 can be ensured to be stably meshed and connected through the gear bracket 120, and further, the second gear 513 can be reliably meshed and assembled with the third gear 514 after the transmission shaft 520 moves along the length extending direction of the rotation axis a, and the second motor 515 can be ensured to stably drive the second gear 513 to drive the transmission shaft 520 to rotate around the rotation axis a through the third gear 514.

Further, a transmission shaft 520 inserted into the second gear 513 is meshed with the first gear 511 through the gear bracket 120, and optionally, a bearing is provided between the transmission shaft 520 and the gear bracket 120, that is, the transmission shaft 520 is rotatably engaged with the gear bracket 120 through the bearing.

Referring to fig. 1-3, the complementary food machine 010 of the embodiment further includes a cup cover 130, the cup cover 130 is detachably connected with the cup body 200, when the complementary food machine 010 is used for mincing food, the cup cover 130 is connected with the cup body 200, namely, the cup cover 130 can be used for shielding the opening 412 of the liner 300 or the opening 412 of the cup body 200, specifically, when the liner 300 is arranged in the cup body 200, the cup cover 130 can be used for shielding the opening 412 of the liner 300 and the opening 412 of the cup body 200, and when the liner 300 is not arranged in the cup body 200, the cup cover 130 can be used for shielding the opening 412 of the cup body 200, so that the cup cover 130 can be used for preventing food from splashing out from the opening 412 of the liner 300 or the opening 412 of the cup body 200.

Further, the cup cover 130 is provided with a groove 131, the cylinder 410 of the stirring blade 400 is provided with a protrusion 132, the inner container 300 is arranged in the cup body 200, and when the stirring blade 400 is positioned in the inner container 300, the protrusion 132 is in plug-in fit with the groove 131, so that the driving mechanism 500 can drive the stirring blade 400 to rotate in the inner container 300 reliably and stably, and food placed in the inner container 300 can be ground reliably.

It should be appreciated that in other embodiments, the cap 130 is provided with a protrusion 132, the barrel 410 of the stirring blade 400 is provided with a recess 131, and the protrusion 132 is in a plug-fit with the recess 131 when the liner 300 is disposed within the cup 200 and the stirring blade 400 is disposed within the liner 300.

In order to facilitate assembly of the complementary food machine 010, referring to fig. 1 and 3, the base 100 includes a bottom cover 140 and an upper cover assembly 150, the upper cover assembly 150 is buckled and connected with the base 100, a first motor 512, a second motor 515, a gear bracket 120, a first gear 511, a second gear 513 and a third gear 514 are disposed between the bottom cover 140 and the upper cover assembly 150, and a transmission shaft 520 extends into the cup 200 through the upper cover assembly 150.

Further, referring to fig. 7, the upper cover assembly 150 is provided with a first plugging hole 151, the cup 200 is provided with a second plugging hole 211, the first plugging hole 151 is opposite to and communicated with the second plugging hole 211, and the transmission shaft 520 sequentially passes through the first plugging hole 151 and the second plugging hole 211 to extend into the cup 200. In order to ensure the smoothness of the rotation of the transmission shaft 520, the complementary food machine 010 further comprises a bearing 160, the bearing 160 is disposed in the first inserting hole 151, and the transmission shaft 520 is rotatably matched with the bearing 160, that is, the transmission shaft 520 is inserted into the first inserting hole 151 through the bearing 160.

The bearing 160 may be an oil-retaining bearing, a ball bearing, or the like, and is not particularly limited herein.

Optionally, the complementary food machine 010 further includes an oil seal 161, the oil seal 161 is disposed in the first inserting hole 151, and the transmission shaft 520 is rotatably matched with the oil seal 161, and the oil seal 161 can be used for reducing leakage of lubricating oil.

Optionally, referring to fig. 3, the upper cover assembly 150 includes a first upper cover 152 and a second upper cover 153, the first upper cover 152 is buckled with and connected to the bottom cover 140, the first motor 512, the second motor 515, the gear rack 120, the first gear 511, the second gear 513 and the third gear 514 are all disposed between the bottom cover 140 and the first upper cover 152, the second upper cover 153 is buckled with and connected to the first upper cover 152, the heating assembly 110 is disposed on the second upper cover 153, the second upper cover 153 is provided with a first plugging hole 151, and the transmission shaft 520 extends out of the first upper cover 152 and passes through the first plugging hole 151.

The connection between the bottom cover 140 and the first upper cover 152, and the connection between the first upper cover 152 and the second upper cover 153 are not limited to the fastening, the connection with a fastener such as a bolt, and the like, and are not particularly limited herein.

Optionally, referring to fig. 3, the complementary food machine 010 further includes a knob 170 and a circuit board 171, the circuit board 171 is disposed between the bottom cover 140 and the first upper cover 152, the knob 170 is electrically connected to the circuit board 171, the knob 170 is rotatably disposed outside the base 100, the knob 170 is distributed between the bottom cover 140 and the first upper cover 152, the first motor 512 and the second motor 515 are electrically connected to the circuit board 171, the rotation of the knob 170 can control the circuit board 171 to drive the first motor 512 to rotate forward or reverse, and further drive the transmission shaft 520 to drive the stirring blade 400 to move toward the bottom wall of the cup 200 or move away from the bottom wall of the cup 200.

Further, the complementary food machine 010 further comprises a button (not shown) disposed outside the base 100, for example, the button is disposed on the bottom cover 140 or the first upper cover 152 or the knob 170, and the button is electrically connected to the circuit board 171, and the button is used for controlling the circuit board 171 to drive the second motor 515 to rotate, so as to drive the stirring blade 400 to rotate around the rotation axis a.

It should be noted that the arrangement of the knob 170 and the button, the connection with the circuit board 171, and the control principle are similar to those of the related art, and will not be described herein.

The use method of the complementary food machine 010 of the embodiment includes:

The cup body 200 is filled with water, the inner container 300 is placed in the cup body 200, the water contained in the cup body 200 is placed in the accommodating cavity 210 between the inner container 300 and the cup body 200, the first motor 512 is used for driving the transmission shaft 520 to move along the extending direction of the rotation axis a towards the direction far away from the bottom wall of the cup body 200, the stirring blade 400 is connected with the transmission shaft 520, the stirring blade 400 is arranged in the inner container 300, the heating assembly 110 is used for heating the water in the accommodating cavity 210, formed water vapor enters the inner container 300 to heat and cook food placed in the inner container 300, the second motor 515 is used for driving the transmission shaft 520 to rotate, and the stirring blade 400 can be driven to synchronously rotate so as to grind the food placed in the inner container 300 to prepare complementary food.

The stirring blade 400 and the transmission shaft 520 are separated, the inner container 300 is taken out from the cup 200, the stirring blade 400 is connected with the transmission shaft 520, the transmission shaft 520 is driven by the first motor 512 to move towards the bottom wall of the cup 200 along the extending direction of the rotation axis a, and then the transmission shaft 520 is driven by the second motor 515 to rotate, so that the stirring blade 400 can be driven to synchronously rotate, and food placed in the cup 200 is minced.

In summary, the complementary food machine 010 of the present invention can be used for preparing complementary food, and can be used as a general mixer, so that the functions of the complementary food machine 010 are expanded, and the complementary food machine 010 is not a single complementary food preparation function, thereby improving the problem that the complementary food machine 010 is easy to waste resources due to idle.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A food supplement machine, comprising: Cup body (200); An inner liner (300), the inner liner (300) being detachably disposed in the cup body (200), and the inner liner (300) being used for preparing supplementary food; a stirring blade (400), the stirring blade (400) being detachably disposed in the inner pot (300); a driving mechanism (500), the driving mechanism (500) being detachably connected to the stirring blade (400); wherein the driving mechanism (500) can drive the stirring blade (400) to rotate around its own rotation axis (a), and can also drive the stirring blade (400) to move along the extension direction of the rotation axis (a); The driving mechanism (500) comprises a driving assembly (510) and a transmission shaft (520); the driving assembly (510) and the transmission shaft (520) are in transmission cooperation with each other, and the stirring blade (400) is detachably arranged on the transmission shaft (520); the driving assembly (510) is used to drive the transmission shaft (520) to drive the stirring blade (400) to rotate around the rotation axis (a); The transmission shaft (520) comprises a screw rod portion (521) and a transmission portion (522), the screw rod portion (521) being connected to the transmission portion (522), and the stirring blade (400) being detachably arranged on the transmission portion (522); the driving assembly (510) comprises a second gear (513), the transmission portion (522) being plugged into the second gear (513), and the second gear (513) being used to drive the transmission portion (522) to drive the stirring blade (400) to rotate around the rotation axis (a); The driving assembly (510) further comprises a first gear (511), a third gear (514), a fourth gear (517) and an electromagnetic clutch (518); the first gear (511) is meshed with the screw rod (521); the first gear (511) is used to drive the screw rod (521) to drive the transmission part (522) and the stirring blade (400) to move along the extension direction of the rotation axis (a); the third gear (514) is meshed with the second gear (513), and the third gear (514) is also meshed with the fourth gear (517); the fourth gear (517) is connected to the first gear (511) via the electromagnetic clutch (518). ) transmission connection; when the electromagnetic clutch (518) is engaged, the fourth gear (517) can synchronously drive the first gear (511) to rotate, so that the second gear (513) and the first gear (511) can synchronously rotate around their respective rotation axes through the electromagnetic clutch (518), so that while driving the stirring blade (400) to rotate around the rotation axis (a), it moves along the extension direction of the rotation axis (a); when the electromagnetic clutch (518) is disconnected, the fourth gear (517) cannot drive the first gear (511) to rotate, and the stirring blade (400) can only rotate around the rotation axis (a) with the rotation of the second gear (513). 2. The food supplement machine according to claim 1, characterized in that the transmission part (522) comprises a sliding part (523) and a connecting part (524) connected in sequence, one end of the sliding part (523) away from the connecting part (524) is connected to the screw part (521), and the stirring blade (400) is detachably connected to the connecting part (524); the sliding part (523) is plugged into the second gear (513), the sliding part (523) can move relative to the second gear (513) along the extension direction of the rotation axis (a), and the relative position of the sliding part (523) and the second gear (513) in the direction around the rotation axis (a) is fixed. 3. The food supplement machine according to claim 1, characterized in that the driving assembly (510) further comprises a second motor (515), the second motor (515) being in transmission cooperation with the second gear (513) for driving the second gear (513) to rotate, so that the transmission part (522) drives the stirring blade (400) to rotate around the rotation axis (a). 4. The supplementary food machine according to claim 3, characterized in that the output shaft of the second motor (515) is transmission-connected to the third gear (514). 5. The baby food machine according to any one of claims 1 to 4, characterized in that the baby food machine further comprises a heating component (110) and a base (100), the heating component (110) and the cup body (200) are both arranged on the base (100), and the heating component (110) is used to heat the inner cavity of the cup body (200). 6. The baby food machine according to claim 5, characterized in that when the inner pot (300) is arranged in the cup body (200), a receiving cavity (210) is formed between the inner pot (300) and the cup body (200), the receiving cavity (210) is used to hold water, and the inner pot (300) is provided with a channel communicating with the receiving cavity (210).