CN218073405U - Pet food cooking device - Google Patents

Abstract

The application discloses a pet foodstuff cooking device, which comprises a main body and a feeding assembly, wherein the main body is provided with a cooking cavity, the feeding assembly is arranged above the cooking cavity, and the feeding assembly comprises a bottom cover and a material storage disc positioned above the bottom cover; the material storage disc is divided into a plurality of material storage cavities; be provided with the dog-house on the bottom, the storage tray can rotate for the bottom, makes the foodstuff that is arranged in the storage cavity of dog-house top can fall into the culinary art chamber. Through the mode, multiple feeding in the cooking process can be realized.

Description

Pet food cooking device

Technical Field

The application relates to a pet feeding technical field especially relates to pet foodstuff cooking device.

Background

In life, many people choose to breed pets to enrich their lives, and the corresponding pets can also give companionship and warmth to pet owners and their families. In order to maintain a healthy life of pets, it is indispensable to pay attention to the dietary conditions of pets. Most of pet foods sold on the market at present are dried and puffed dry food, and the dry food has less moisture, is dry and hard, has good and uneven quality, and is likely to be disliked when a pet eats more food and is also likely to be unfavorable for the health of the pet. Therefore, for some pet owners who love pets in particular, the pet owners can select to cook food for the pets by themselves, which often takes a lot of time.

At present, the prior art is very lack of devices which can be specially used for cooking pet food, and a few related devices in the prior art have single function and structure, are difficult to adapt to the practical requirements of diversification and equalization of pet food, have low cooking efficiency and need to consume a great deal of time of pet owners.

SUMMERY OF THE UTILITY MODEL

The main technical problem who solves of this application provides pet foodstuff cooking device, can improve the culinary art efficiency of the culinary art process of pet food.

In order to solve the technical problem, the technical scheme adopted by the application is as follows: a pet food cooking device is provided. The pet food cooking device comprises a main body and a feeding assembly, wherein a cooking cavity is arranged in the main body; the feeding assembly is arranged above the cooking cavity; the feeding assembly comprises a bottom cover and a material storage tray positioned above the bottom cover; the material storage disc is divided into a plurality of material storage cavities; be provided with the dog-house on the bottom, the storage tray can rotate for the bottom, makes the foodstuff that is arranged in the storage cavity of dog-house top can fall into the culinary art chamber.

The beneficial effect of this application is: be different from prior art's condition, through setting up the material subassembly of throwing in culinary art chamber top, throw the material subassembly and include the bottom and be located the storage tray of bottom top, at the storage tray for bottom pivoted in-process, the storage chamber can be linked together with the dog-house, the pet foodstuff in the storage chamber can fall into the culinary art chamber through the dog-house, can pass through the rotation of control storage tray, and then realize that the foodstuff of different storage chambers successively drops into the culinary art chamber and cooks, realized throwing the material many times in the culinary art in-process, both can satisfy the same foodstuff and throw the material many times, also can satisfy throwing the material many times of different foodstuff, and pivoted implementation, simple structure and reliability are high, need not the manual edible material of taking of culinary art person and add toward the culinary art chamber, the energy and the time of the culinary art person have both been further saved, do benefit to and control every foodstuff addition again, improve culinary art efficiency.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of a pet food cooking device of the present application;

FIG. 2 is a schematic structural view of the body assembly shown in FIG. 1;

FIG. 3 is a schematic view of the disassembled structure of the pet food cooking device shown in FIG. 1;

FIG. 4 is a schematic structural view of the feeding assembly shown in FIG. 1;

FIG. 5 is a schematic view of a partial perspective view of the pet food cooking device of FIG. 1;

fig. 6 isbase:Sub>A cross-sectional view of the pet food cooking device of fig. 1 taken along linebase:Sub>A-base:Sub>A.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The inventor finds that, through long-term research, in order to ensure the balanced nutrition of the pet and the richness of the taste of the meal, the pet is often required to be cooked with foods made of various foods in each meal, and the foods of the pet can comprise turkey meat, chicken meat, pork, beef, pumpkin, brown rice or white rice, spinach, carrots, peas, green beans, sweet potatoes and the like. The existing devices are single in structure and function, for example, a user is often required to manually grab food materials to be thrown into the cooking device, the cooking efficiency is low, and especially when various pet foods are required to be thrown into the cooking device in a separated mode, the energy and time of a cooker are consumed. To solve this technical problem, the present application provides the following embodiments.

Fig. 1 is a schematic perspective view of an embodiment of a pet food cooking device according to the present application, showing an overall perspective structure of a pet food cooking device 1 (hereinafter, referred to as cooking device 1). As shown in fig. 1, a cooking device 1 for cooking pet food (hereinafter referred to as food) for a pet according to an embodiment of the pet food cooking device of the present application may include: a body assembly 100 and a feeding assembly 200.

The body assembly 100 functions to cook foodstuff and provide mounting support for other functional components. Throw material subassembly 200 and be used for splendid attire foodstuff to can throw the foodstuff to main part subassembly 100 in and cook.

Fig. 2 is a schematic structural view of the main body assembly 100 shown in fig. 1, illustrating a structure of the cooking apparatus 1 in an open-lid state.

As shown in fig. 2, the main body assembly 100 is opened with a cooking cavity 101 and a feed inlet 102 communicating with the cooking cavity 101. The cooking chamber 101 functions to contain foodstuff, and during cooking, the cooking apparatus 1 heats foodstuff in the cooking chamber 101 to realize cooking of the foodstuff. The throat 102 is a channel through which the feeding assembly 200 feeds the cooking chamber 101, and the feeding assembly 200 feeds the foodstuff into the cooking chamber 101 through the throat 102 into the cooking chamber 101.

The body assembly 100 includes a body 109 and an upper cover 110. The upper cover 110 is used to close the main body 109. The cooking cavity 101 opens in the main body 109. The upper cover 110 is disposed above the cooking chamber 101. The feeding assembly 200 is disposed above the cooking cavity 101. In some embodiments, the feeding assembly 200 may be disposed inside the upper cover 110. In other embodiments, the feeding assembly 200 may be independent of the upper cover 110 and disposed above the cooking cavity 101. The feed inlet 102 opens into the upper cover 110. Alternatively, the upper cover 110 may be rotatably coupled to the main body 109, and the upper cover 110 may be rotated relative to the main body 109 to open and close the cooking apparatus 1.

Optionally, the main body 109 is provided with a receiving groove 111, an inner container 112 is detachably disposed in the receiving groove 111, and the cooking cavity 101 is disposed in the inner container 112. Since the inner container 112 is separable from the main body 109, the inner container 112 can be taken out from the main body 109 and cleaned.

Optionally, a ring of fins 113 is provided at the outlet of the inner container 112, an annular sealing ring 114 is provided on the upper cover 110, when the upper cover 110 is fastened to the main body 109, the annular sealing ring 114 can contact with the fins 113 to seal the cooking cavity 101, so as to prevent the gas or liquid in the cooking container from escaping or overflowing from the interface between the upper cover 110 and the main body 109.

The main body 109 may have a control circuit board 300 therein, and the control circuit board 300 functions to control the operation of the cooking apparatus 1.

As shown in fig. 3, the feeding member 200 is disposed on the main body member 100. Optionally, the main body assembly 100 may be formed with a mounting groove 103, and the mounting groove 103 communicates with the cooking cavity 101 through the feed inlet 102. The feeding assembly 200 may be at least partially received in the mounting groove 103, and foodstuff in the feeding assembly 200 may be fed into the cooking chamber 101 through the feed inlet 102.

As shown in fig. 4, the feeding assembly 200 is provided with at least two material storage cavities 201 for storing foodstuff, each material storage cavity 201 can rotate relative to the main assembly 100 to rotate to the feeding hole 102 and communicate with the feeding hole 102, so that foodstuff in the corresponding material storage cavity 201 can fall into the cooking cavity 101.

The present embodiment is through setting up the rotation of the storage chamber 201 of feeding subassembly 200 for main part subassembly 100 to realize throwing the foodstuff into the function of cooking chamber 101 in grades. The storage cavity 201 is used for storing foodstuffs needing to be thrown out, for example, a plurality of foodstuffs needing to be thrown out at different times need to be stored respectively, so that the storage cavity 201 with the number not less than the throwing times needs to be set to meet the storage requirement of the foodstuffs. Optionally, the food stuff can not be placed in the storage cavity 201, and other functions of the cooking device 1, such as the use of cooking function, are not affected, and at this time, the feeding assembly 200 does not need to perform feeding operation, and can play a role in sealing the cooking cavity 101 during the cooking process. Alternatively, the foodstuff may be placed in some of the hoppers 201, and other hoppers 201 may be left empty.

The feeding assembly 200 is provided with a feeding port 202 communicated with the feeding port 102, and each material storage chamber 201 can rotate relative to the feeding port 202 so as to rotate to the feeding port 202 and be communicated with the feeding port 202. When the feeding assembly 200 performs a feeding operation, the material storage chamber 201 can be rotated relative to the feeding port 202 by a corresponding angle and then can be communicated with the feeding port 202, and further the material storage chamber 201 can be communicated with the feeding port 102 through the feeding port 202.

Alternatively, the accumulator chamber 201 may be shaped as a cylindrical cavity with a sector-shaped cross-section. The shape and size of each accumulator chamber 201 may be the same or different. For example, the reservoirs 201 are arranged in a circumferential direction. Further, the reservoirs 201 can be concentrically arranged. The material inlet 202 may also be configured to correspond to the material storage chamber 201, and may have the same or similar shape as the material storage chamber 201, such as a channel with a fan-shaped cross section. When the material storage cavity 201 rotates to the feeding port 202, the projection of the material storage cavity 201 on the plane perpendicular to the blanking direction can fall into the projection of the feeding port 202 on the plane, so that the blanking of the material storage cavity 201 is facilitated. Of course, the projection of the feeding port 202 can only accommodate the projection of one storage cavity 201, and then when feeding materials at a time, one storage cavity 201 is allowed to feed materials, under such a condition, if the storage cavity 201 which does not store foodstuffs is rotated to be communicated with the feeding port 202, the other storage cavities 201 and the cooking cavity 101 can be separated from each other to a certain extent, so as to achieve a certain sealing effect.

Optionally, a sealing film 203 is disposed at the outlet end of the non-foodstuff storing cavity 201 for communicating with the feeding port 202 to isolate the storing cavity 201 from the feeding port 202, and further isolate other storing cavities 201 and the feeding port 202 to function as a sealing cavity.

As shown in fig. 4, the feeding assembly 200 can include a magazine tray 204 and a bottom cover 205 that can rotate relative to each other. On the plane of perpendicular to blanking direction, the cross section of storage tray can be circular, and a plurality of storage chamber 201 size equals, and all is fan-shaped setting. In other words, each accumulator chamber 201 is identical in shape and size. The magazine 204 has a storage space 206 and an opening 207 communicating with the storage space 206, and the storage space 206 is spaced to form a plurality of magazine chambers 201. The feeding port 202 is opened at the bottom cover 205, and the bottom cover 205 is detachably covered at the opening 207 and fixed relative to the main body assembly 100. Since the bottom cover 205 is detachable with respect to the hopper 204, foodstuff can be placed into the hopper 201 through the opening 207 after the bottom cover 205 is detached, and then the bottom cover 205 is replaced, and the other portion of the bottom cover 205, which is not provided with the feeding port 202, can seal the hopper 201. Relative rotation of the accumulator chamber 201 and the feed port 202 is achieved by relative rotation of the accumulator tray 204 and the bottom cover 205. The storage space 206 inside the storage tray 204 is divided into a plurality of storage chambers 201 for storing the foodstuff thrown out at different times. The size and shape of the dispensing opening 202 is the same as the size and shape of each of the storage chambers 201.

For example, the hopper 204 may be provided with five fan-shaped cylindrical hopper chambers 201, four of which are provided with the fan-shaped cylindrical hopper chambers 201 for holding foodstuff, and the remaining one of the fan-shaped cylindrical hopper chambers 201 is not provided with foodstuff due to the communication with the feeding port 202.

As shown in fig. 3, the cooking apparatus 1 may include a first driving mechanism 400, wherein the first driving mechanism 400 is disposed on the main body assembly 100 and is rotatably connected to the material storage tray 204 for driving the material storage tray 204 to rotate relative to the bottom cover 205. For example, the first driving mechanism 400 may be disposed on the upper cover 110, and the feeding member 200 may drive the material storage tray 204 to rotate when disposed on the upper cover 110.

The first driving mechanism 400 comprises a first motor 401 and a driving wheel 402 connected with an output shaft of the first motor 401, the driving wheel 402 is in transmission connection with the material storage disc 204, and the first motor 401 is used for driving the driving wheel 402 to rotate so as to drive the material storage disc 204 to rotate. The bottom cover 205 may be stationary relative to the body assembly 100 during the dosing process. When the storage tray 204 rotates, each storage chamber 201 rotates together with the storage tray 204, and when the storage tray 204 rotates by a corresponding angle until the corresponding storage chamber 201 is communicated with the feeding port 202, the foodstuff in the storage chamber 201 falls through the feeding port 202. During one rotation of the material storage tray 204, each material storage chamber 201 can be communicated with the material inlet 202, so that the foodstuff in the material storage chamber 201 can fall through the material inlet 202.

The first motor 401 is a power source of the feeding assembly 200, and the rotation and stop of the material storage tray 204 can be controlled by controlling the start and stop of the first motor 401, so that the material storage tray 204 stops rotating when rotating to a position where the material storage cavity 201 is communicated with the feeding port 202. The driving wheel 402 plays a role of transmitting power, and the power provided by the first motor 401 is transmitted to the storage tray 204. The driving wheel 402 may be a pulley, a gear, or the like. The first motor 401 may be electrically connected to the control circuit board 300.

Alternatively, the feeding time control feeding assembly 200 may be set to start feeding, the cooker sets the feeding time in advance, in the initial state, the material storage cavity 201 with foodstuff placed therein is not communicated with the feeding port 202, and when the set time is reached, the material storage cavity 201 rotates relative to the feeding port 202 until being communicated with the feeding port 202.

As shown in fig. 3, the stock tray 204 and the bottom cover 205 are received in the mounting slot 103. The accumulator 204 is circumferentially provided with an elastic friction member 215, and the elastic friction member 215 is fixed relative to the accumulator 204 and is used for receiving the power of the first driving mechanism 400 to rotate the accumulator 204. Alternatively, the elastic friction member 215 may be disposed in a circular ring shape and fixed on the outer periphery of the material storage tray 204 near the bottom cover 205, and the material of the elastic friction member 215 may be a polymer material, such as a silicone ring, a rubber ring, or the like.

The main body assembly 100 is provided with a through hole 104 communicating the inside thereof with the mounting groove 103, and the first motor 401 and the driving wheel 402 are disposed inside the main body assembly 100. Specifically, the first motor 401 and the driving wheel 402 may be disposed in the inner space of the upper cover 110, and the through hole 104 may be opened in a side wall of the mounting groove 103 to communicate the mounting groove 103 and the inner space of the upper cover 110.

At least part of the driving wheel 402 is exposed to the mounting groove 103 through the through hole 104 to abut against the elastic friction member 215, so as to drive the material storage disc 204 to rotate. After the accumulator plate 204 and the bottom cover 205 are placed in the mounting groove 103, the elastic friction member 215 circumferentially mounted on the accumulator plate 204 contacts the driving wheel 402 and generates a pressure perpendicular to the contact surface. Alternatively, the driving wheel 402 may have an elastic friction portion 403 arranged in the circumferential direction, and the elastic friction portion 403 may contact the elastic friction member 215 and generate a pressing force perpendicular to the contact surface.

After the first motor 401 starts, the output shaft of the first motor 401 drives the driving wheel 402 to rotate, and because the elastic friction piece 215 arranged on the driving wheel 402 and the material storage disc 204 has interactive pressure, when the driving wheel 402 rotates, the driving wheel 402 can generate relative motion along the circumferential direction or relative motion trend along the circumferential direction relative motion relative to the elastic friction piece 215, so that the elastic friction piece 215 synchronously rotates under the action of the friction force along the circumferential direction, and the material storage disc 204 is driven to rotate.

The cooking device 1 may include the hall sensor 105 and at least two magnet pieces 208, the at least two magnet pieces 208 are disposed on the storage tray 204, and are disposed in one-to-one correspondence with the at least two storage cavities 201, the hall sensor 105 is disposed on the main assembly 100, and is electrically connected to the first driving mechanism 400, the hall sensor 105 and the at least two magnet pieces 208 are used for cooperatively controlling the first driving mechanism 400 to rotate by a corresponding angle each time, so that the corresponding storage cavities 201 rotate to communicate with the feeding port 102.

The foodstuff in one storage chamber 201 can be thrown out by each rotation process of the storage tray 204, so that the storage tray 204 needs to rotate for a plurality of times if the feeding device needs to feed materials for a plurality of times. The starting of each rotation process of the storage tray 204 can be realized by setting the starting time. When the material storage disc 204 stops rotating, the rotation angle of the material storage disc 204 needs to be satisfied that the material storage cavity 201 is communicated with the material inlet 202, and the rotation angle needs to be accurately positioned, and the positioning of the rotation angle can be realized through the hall sensor 105 and the plurality of magnet pieces 208.

The hall sensor 105 is a magnetic field sensor made according to the hall effect. The hall effect is essentially the deflection of moving charged particles in a magnetic field caused by lorentz forces, which, when the charged particles (electrons or holes) are confined in a solid material, results in the accumulation of positive and negative charges in the direction perpendicular to the current and magnetic field, thus forming an additional transverse electric field.

The hall sensor 105 is provided to the main body assembly 100. Specifically, the hall sensor 105 may be provided in an inner space of the upper cover 110. The magnet pieces 208 are arranged on the storage disc 204, each magnet piece 208 corresponds to one storage cavity 201, when the storage disc 204 starts to rotate relative to the main body assembly 100 at a set time, the magnet pieces 208 also start to rotate relative to the hall sensor 105 synchronously, and the linear distance between the magnet pieces 208 and the hall sensor 105 also changes continuously. When the material storage cavity 201 is rotated to be communicated with the material inlet 202, the magnet piece 208 corresponding to the material storage cavity 201 can trigger the hall sensor 105 through the change of the magnetic field, so that the hall sensor 105 sends an electric signal to control the first motor 401 to stop rotating, and then the material storage disc 204 also stops rotating.

For a plurality of preset times, when a set time is reached, the storage disc 204 rotates to a certain angle, then foodstuff in one storage cavity 201 is thrown out, and the accurate positioning of the rotation angle can be controlled by a signal given by a magnet piece 208 corresponding to the storage cavity 201.

For example, when the storage tray 204 is uniformly provided with five identical storage chambers 201 along the circumferential direction, one storage chamber 201 cannot store foodstuff due to the communication with the feeding port 202, and at most four storage chambers 201 can store foodstuff, at least four magnet pieces 208 are correspondingly provided corresponding to the four storage chambers 201.

Four feeding time can be set for in advance, every feeding time corresponds a storage cavity 201 in proper order, when arriving the first feeding time, first drive mechanism drives storage disc 204 and begins to rotate, when rotating to the 72 degrees angle, thereby hall sensor 105 senses the signal variation who lets first motor 401 stall's signal of telecommunication of sending of the magnet piece 208 that storage cavity 201 corresponds of the first storage foodstuff that stores in the rotation direction, storage disc 204 stall, this moment along the first storage cavity 201 in the rotation direction is being in the state that communicates with dog-house 202, the foodstuff falls down through dog-house 202.

By analogy, when the second, third and fourth feeding time is reached, the foodstuff in the second, third and fourth storage cavities 201 can fall through the feeding port 202 in the second, third and fourth rotating processes respectively along the rotating direction.

As shown in fig. 4, the storage tray 204 is provided with a fixing column 209 coaxially arranged with the axis thereof, and the fixing column 209 is provided with an air-permeable channel 210 along the axis direction. The top wall 211 of the storage space 206 is provided with an air hole 212 communicated with the air passage 210. The bottom cover 205 is opened with a first exhaust hole 213 communicating with the ventilation channel 210, and the mounting groove 103 is opened with a second exhaust hole 106 communicating with the cooking cavity 101 and the first exhaust hole 213.

Optionally, a first protruding pillar 214 is disposed on one side of the first exhaust hole 213 communicating with the ventilation channel 210, the first protruding pillar 214 may extend into the ventilation channel 210, and the first protruding pillar 214 may ensure that the gas exhausted from the first exhaust hole 213 is completely exhausted into the ventilation channel 210.

Optionally, the section of the air hole 212 is circular, the outer wall of the section of the first convex column 214 is in a circular arc shape which is the same as the section of the air hole 212 and is cut off in a circular symmetry manner, and the arc part of the outer wall of the first convex column 214 can be attached to the inner wall part of the air hole 212, so that the storage tray 204 and the bottom cover 205 can be coaxially positioned, and the rotation of the storage tray 204 cannot be influenced by the first convex column 214 when the storage tray 204 rotates relative to the bottom cover 205.

Optionally, a second convex pillar 107 is disposed on one side of the second exhaust hole 106 communicating with the ventilation channel 210, the second convex pillar 107 can extend into the first exhaust hole 213, and the second convex pillar 107 can ensure that the gas exhausted from the second exhaust hole 106 is completely exhausted into the first exhaust hole 213.

Optionally, the outer wall of the second protruding pillar 107 can be attached to the inner wall of the first air vent 213, and the outer wall of the second protruding pillar 107 and the inner wall of the first air vent 213 are not circular, so as to prevent fool, thereby not only coaxially positioning the bottom cover 205 and the mounting groove 103, but also preventing the bottom cover 205 from rotating together with the storage tray 204.

As shown in fig. 5, the cooking apparatus 1 includes the stirring member 108 and the second driving mechanism 500. The stirring member 108 is movably disposed on the main body assembly 100. Specifically, the stirring member 108 is movably disposed on the upper cover 110 and extends into the cooking cavity 101. The second driving mechanism 500 is disposed on the main body assembly 100, and specifically, the second driving mechanism 500 is disposed on the upper cover 110. The second driving mechanism 500 is in transmission connection with the stirring member 108 for driving the stirring member 108 to move so as to stir and mix foodstuff in the cooking cavity 101.

The second driving mechanism 500 includes a second motor 501, a driving gear 502, and a driven gear 503 engaged with the driving gear 502. The second motor 501 is disposed on the main body assembly 100, and the driving gear is connected to an output shaft of the second motor 501. The driven gear 503 is rotatably disposed at a side of the body assembly 100 facing the cooking chamber 101. The stirring member 108 is fixedly connected to a side of the driven gear 503 facing the cooking chamber 101 to be capable of making a circular motion with the driven gear 503 by the driving of the second motor 501.

The second motor 501 is a power source of the stirring member 108, and the driving gear 502 transmits the power of the second motor 501 to the driven gear 503, so that the stirring member 108 is driven by the driven gear 503 to rotate. Alternatively, the rotation speed of the stirring member 108 can be adjusted by setting the rotation speed of the second motor 501, so that suitable stirring rotation speed parameters can be set according to user requirements, for example, three low, medium and high gears can be set for the rotation speed of the stirring member 108, for example, the rotation speed of the low gear can be set to 10r/min, the rotation speed of the medium gear can be set to 20r/min, and the rotation speed of the high gear can be set to 40r/min.

Alternatively, the driven gear 503 has more teeth and the driving gear 502 has less teeth, for example, the driving gear 502 may have 29 teeth, the driven gear 503 may have 192 teeth, and the driven gear 503 has more teeth, so that the stirring member 108 connected to the driven gear 503 has a larger circumferential diameter during the circular motion, and therefore the stirring member 108 has a larger stirring range, and the driving gear 502 has less teeth, so that the space occupied by the second driving mechanism 500 can be reduced, and the whole cooking apparatus 1 has a smaller volume.

A boss 115 is arranged on one side surface of the upper cover 110 facing the cooking cavity 101, the feed inlet 102 is arranged on the boss 115, the second motor 501 is arranged inside the upper cover 110, the driving gear 502 is arranged on one side of the upper cover 110 facing the cooking cavity 101 and is spaced from the boss 115, and the driven gear 503 is rotatably sleeved on the periphery of the boss 115 through the ball 116. The inner ring of the driven gear 503 is provided with a groove 504 along the circumferential direction, a plurality of balls 116 can be embedded in the groove 504, the balls 116 can roll between the inner ring of the driven gear 503 and the boss 115, and the rotation resistance of the driven gear 503 is reduced due to the existence of the balls 116. Alternatively, after the driven gear 503 is sleeved on the outer periphery of the boss 115, a ring-shaped gear holder 117 may be disposed on a side of the driven gear 503 close to the main body 109, the gear holder 117 may prevent the gear from sliding axially, and the gear holder 117 may be fixed on the upper cover 110 by a screw 118.

One end of the stirring member 108 connected to the driven gear 503 is closer to the side wall of the cooking cavity 101 than the axis of the cooking cavity 101, and extends from the driven gear 503 to the bottom wall of the cooking cavity 101. The other end of the stirring member 108 away from the driven gear 503 is bent and extended toward the axis of the cooking chamber 101. The other end of the stirring piece 108 away from the driven gear 503 is bent and extended towards the axis of the cooking cavity 101, so that the stirring piece 108 has a larger contact area with foodstuff in the cooking cavity 101, and meanwhile, the stirring area of the stirring piece 108 is increased, and the uniformity of foodstuff dispersion is better improved.

Alternatively, one end of the stirring member 108 connected to the driven gear 503 may be provided in a rod shape, and the other end of the stirring member 108 away from the driven gear 503 may be provided in a spiral shape, a ring shape, a spoon shape, a radial shape, or the like, in order to allow a larger stirring area of the stirring member 108.

Optionally, the cooking apparatus 1 may include an rf circuit 600, and the rf circuit 600 may be disposed on the upper cover 110 and may be electrically connected to the control circuit board 300. Through radio frequency circuit 600, cooking device 1 can be connected with other smart machines for receive the signal instruction that other smart machines sent, other smart machines include cell-phone, intelligent wrist-watch, electron bracelet etc.. Cooking device 1 can receive the culinary art parameter that other smart machine sent, for example the user can be through the throwing in time of the self-defined foodstuff in every storage cavity 201 of cell-phone APP, after cooking device 1 received corresponding parameter, can throw in the foodstuff according to the time of setting for.

For example, when the foodstuffs to be fed into the cooking cavity 101 are beef, brown rice, spinach and carrot, respectively, the cooker needs to put the foodstuffs into the corresponding material storage cavities 201 in sequence according to the feeding sequence of the foodstuffs, and then the feeding time corresponding to the 4 kinds of foodstuffs can be input through the intelligent device, and then the cooking device 1 can automatically and respectively feed the foodstuffs in the different material storage cavities 201 into the cooking cavity 101 at the set feeding time.

To sum up, this embodiment can realize that the foodstuff of different storage cavities 201 successively drops into culinary art chamber 101 in and cooks, has realized throwing the material many times at the culinary art in-process, both can satisfy the same foodstuff and throw the material many times, also can satisfy throwing the material many times of different foodstuff, and simple structure and reliability are high moreover, improve cooking efficiency.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. A pet food cooking device, comprising:

a main body in which a cooking cavity is provided;

the feeding assembly is arranged above the cooking cavity;

the feeding assembly comprises a bottom cover and a material storage tray positioned above the bottom cover; the material storage disc is divided into a plurality of material storage cavities; the bottom cover is provided with a feed opening, and the storage disc can rotate relative to the bottom cover, so that foodstuff in the storage cavity above the feed opening can fall into the cooking cavity.

2. The cooking device of claim 1, wherein the cross section of the storage tray is circular, and the plurality of storage cavities are equal in size and are all arranged in a fan shape.

3. The cooking device of claim 2, wherein the size and shape of the dispensing opening is the same as the size and shape of each of the holding chambers.

4. The cooking device of claim 1, wherein the cooking device comprises a first driving mechanism, the first driving mechanism is disposed on the main body and rotatably connected to the storage tray for driving the storage tray to rotate relative to the bottom cover.

5. The cooking device of claim 4, wherein the first driving mechanism comprises a first motor and a driving wheel connected to an output shaft of the first motor, the driving wheel is in transmission connection with the material storage tray, and the first motor is used for driving the driving wheel to rotate so as to drive the material storage tray to rotate.

6. The cooking device of claim 1, further comprising an upper cover for enclosing the body, the upper cover being disposed over the cooking cavity.

7. The cooking device of claim 6, wherein the dosing assembly is disposed inside the upper cover.

8. The cooking device of claim 7, wherein the upper cover is provided with a mounting groove and a feed inlet communicating with the mounting groove and the cooking cavity, the bottom cover and the storage tray are accommodated in the mounting groove, and the feed inlet is communicated with the feed inlet.

9. The cooking device of claim 6, wherein the dosing assembly is separate from the upper lid and disposed above the cooking cavity.

10. The cooking device of claim 6, wherein the cooking device includes a stirring member movably disposed on the upper cover and extending into the cooking cavity, and a second driving mechanism disposed on the upper cover and drivingly connected to the stirring member for driving the stirring member to move so as to stir and mix the pet food in the cooking cavity.

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