CN211224623U - Feeding system and cooking equipment - Google Patents

Abstract

The utility model is suitable for a culinary art technical field provides a feed system and cooking equipment, and this system includes: the auxiliary material device is used for containing auxiliary materials; the feeding nozzle assembly is provided with a first discharge hole and a first feed hole; the first integrated plate is arranged on the auxiliary material device and provided with a first flow guide pipeline; one end of the guide pipe is connected with the first diversion pipeline, and the other end of the guide pipe is connected with the feeding hole; the material pumping device is arranged on the feeding nozzle assembly and provides power for the auxiliary materials to flow out from the first discharge hole and enter the feed inlet through the guide pipe. The utility model discloses a set up first integrated board to set up first water conservancy diversion pipeline on first integrated board, make the auxiliary material have the part to be carried through the first water conservancy diversion pipeline of first integrated board, avoid whole adoption pipe, can the corresponding length that reduces the pipe, avoid the pipe folding to appear, thereby avoided the problem that the auxiliary material blockked up in the pipe, can also avoid the pipe overlength and in disorder in addition, reduce the stringing complexity, improve stringing efficiency.

Description

Feeding system and cooking equipment

Technical Field

The utility model belongs to the technical field of the culinary art, especially, relate to a feed system and cooking equipment.

Background

Along with the improvement of the living standard and the progress of science and technology of people, people gradually use various machines so as to improve the working efficiency and the life quality of people and further improve the happiness index of people. In the field of kitchen electricity technology, a series of intelligent cooking robots are produced in recent years.

When the cooking robot works, automatic feeding is needed to be realized according to the established electronic menu, and the cooking robot is required to be provided with a feeding system capable of adding various required auxiliary materials into a pot. The feeding system generally comprises a feeding nozzle and a plurality of auxiliary material containers, wherein each auxiliary material container is connected with the feeding nozzle through a conveying pipeline respectively so as to finally inject corresponding auxiliary materials into the pot through the feeding nozzle.

Among the prior art, the feeder system who uses at present has the defect that: every auxiliary material is transported by a hose in the whole course, the number of the conduits is large and long, the pipe arrangement is complex, time and labor are wasted, and the hose is easy to fold to cause discharge blockage.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a feed system and cooking equipment aims at solving the technical problem who easily causes ejection of compact jam among the prior art.

The embodiment of the utility model provides a realize like this, a feeding system, the system includes:

the auxiliary material device is used for containing auxiliary materials;

the feeding nozzle assembly is provided with a first discharge hole and a first feed hole;

the first integrated plate is arranged on the auxiliary material device and provided with a first flow guide pipeline;

one end of the guide pipe is connected with the first diversion pipeline, and the other end of the guide pipe is connected with the feed inlet;

and the material pumping device is arranged on the feeding nozzle assembly and supplies power to the auxiliary materials which enter the feeding hole from the guide pipe and flow out from the first discharging hole.

Furthermore, the feeding system further comprises a second integrated board arranged on the feeding nozzle assembly, a second flow guide pipeline is arranged on the second integrated board, and the second flow guide pipeline is communicated with the guide pipe, the material pumping device and the feeding port of the feeding nozzle assembly.

Furthermore, the second diversion pipeline comprises a first branch port, a second branch port and a third branch port which are communicated with each other, the first branch port is communicated with the guide pipe, the second branch port is communicated with the material pumping device, and the third branch is communicated with the feeding port of the feeding nozzle assembly.

Furthermore, a check valve is arranged at the discharging position of the auxiliary material device.

Furthermore, the feeding system further comprises a main control board, the auxiliary material device comprises a container for containing auxiliary materials and a box body used for installing the container, the first integrated board is fixed on the box body, and a liquid level detection sensor which is in contact with the container and is electrically connected with the main control board is arranged on the box body.

Further, the container and the case are detachably coupled.

Furthermore, the second integrated board is provided with an air defense tube sensor for sensing liquid in the conduit, and the air defense tube sensor is electrically connected with the main control board.

Still further, the feed nozzle assembly includes:

a feeding nozzle;

an integrated board assembly; the first discharge gate is located the feed mouth, first discharge gate is a plurality of, and is a plurality of first discharge gate is cyclic annular and arranges, the integrated board subassembly include with connecting portion that the feed mouth is connected and with the third integrated board that connecting portion are connected, connecting portion be equipped with a plurality of second discharge gates of first discharge gate one-to-one and intercommunication, the feed inlet is located the third integrated board and with second discharge gate intercommunication one by one, it is a plurality of the setting of feed inlet sharp interval.

Furthermore, the material pumping device is a water pump.

The embodiment of the utility model provides a still provide a cooking equipment, including organism, pan and foretell feed system, feed system with the pan is all located in the organism, feed mouth subassembly of feed system is located the top of pan.

The utility model discloses the beneficial effect who reaches: through setting up first integrated board to set up the first water conservancy diversion pipeline that supplies the auxiliary material circulation on first integrated board, make the auxiliary material have the part to be carried through the first water conservancy diversion pipeline of first integrated board, avoid whole adopting the pipe, can the corresponding length that reduces the pipe, avoid the pipe folding to appear, thereby avoided the problem that the auxiliary material blockked up in the pipe, can also avoid the pipe overlength and in disorder in addition, reduce the cloth pipe complexity, improve the cloth pipe efficiency.

Drawings

Fig. 1 is an exploded perspective view of a feeding system according to a first embodiment of the present invention;

fig. 2 is a perspective assembly view of a feeding system according to a first embodiment of the present invention;

fig. 3 is a perspective view of a second integrated board in the first embodiment of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 4;

fig. 6 is an exploded perspective view of a container according to a first embodiment of the present invention;

fig. 7 is an exploded perspective view of a feeding nozzle assembly according to a first embodiment of the present invention;

FIG. 8 is a perspective assembly view of a feed nozzle assembly according to a first embodiment of the present invention;

fig. 9 is an exploded perspective view of a feeding nozzle according to a first embodiment of the present invention;

FIG. 10 is a perspective view of a first embodiment of the present invention;

fig. 11 is an exploded perspective view of a circuit board assembly according to an embodiment of the present invention;

fig. 12 is a perspective assembly view of the integrated board assembly according to an embodiment of the present invention;

FIG. 13 is a cross-sectional view taken along line E-E of FIG. 8;

fig. 14 is an exploded perspective view of a feeding nozzle assembly according to a second embodiment of the present invention;

fig. 15 is an exploded view of the feeding nozzle and the integrated plate assembly according to the second embodiment of the present invention;

fig. 16 is an exploded perspective view of a third embodiment of the present invention;

fig. 17 is a perspective assembly view of a feeding system in a third embodiment of the present invention;

fig. 18 is a cross-sectional view taken along line F-F in fig. 17.

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.

Every auxiliary material of current feed system all uses the hose to carry in the whole journey, and the pipe is many and long, and the stringing is complicated and consuming time hard to the hose is folded easily and is caused the ejection of compact and stop up. Therefore the utility model aims to provide a feed system and cooking equipment to through setting up the integrated board, and set up the water conservancy diversion pipeline that supplies the auxiliary material circulation on the integrated board, avoid whole adopting pipe, with the above-mentioned problem that the solution pipe overlength brought.

Example one

Referring to fig. 1 to 6, a feeding system according to a first embodiment of the present invention is shown, including an auxiliary material device 30, a first integrated board 40, a conduit 50, a material pumping device 60 and a feeding nozzle assembly 100, wherein:

referring to fig. 1 and 2, the auxiliary material device 30 includes a container 31 for containing an auxiliary material and a box 32 for installing the container 31, the container 31 is contained in the box 32, the number of the containers 31 is plural, the containers 31 are arranged side by side, and each container 31 can correspondingly contain an auxiliary material. One side of container 31 is provided with second ejection of compact joint 311, container 31 is through this second ejection of compact joint 311 to arranging the material outward, second ejection of compact joint 311 is deep into container 31 through a straw 3111, straw 3111 is pressed close to container 31 bottom, in order to follow container 31 through straw 3111 in with the auxiliary material suction, the cover is equipped with a first ejection of compact joint 312 on the second ejection of compact joint 311, this first ejection of compact joint 312 is worn out box 32 and is fixed in on the box 32, and adopt gum cover interference fit between first ejection of compact joint 312 and the second ejection of compact joint 311, realize both sealedly, also make second ejection of compact joint 311 and first ejection of compact joint 312 to dismantle simultaneously and be connected, second ejection of compact joint 311 cover is established on straw 3111 and adopt gum cover interference fit between, realize both sealedly.

Referring to fig. 1 and 2, the first integrated plate 40 is disposed at the top of the box 32, a plurality of first flow guide pipes 41 are disposed in the first integrated plate 40, one end of each first flow guide pipe 41 extends out of the first integrated plate 40 to form a feeding connection column 41a on the first integrated plate 40, the other end of each first flow guide pipe 41 also extends out of the first integrated plate 40 to form a discharging connection column 41b on the first integrated plate 40, the feeding connection columns 41a are disposed downward, the discharging connection columns 41b are disposed upward, each feeding connection column 41a is connected to a first discharging connector 312 through a check valve 42, so that the second discharging connector 311 of each container 31 is communicated with one first flow guide pipe 41, and the check valve 42 functions to prevent the auxiliary materials in the pipes from flowing back into the auxiliary material containers, so that the auxiliary materials are left in the pipes, and the next extraction can be performed quickly. The check valve is preferably mechanical and does not require a connection to the main control panel.

Referring to fig. 6, preferably, the container 31 is detachably connected to the box 32 by a detachable connection manner such as screwing, clamping, magnetic attraction, and the like, and an opening 321 is formed at one side of the box 32, so that the box 32 can be put in or taken out from the opening 321, thereby facilitating the addition of auxiliary materials into the container 31 and the cleaning of the container 31. In specific implementation, the check valve 42 can be connected to the feeding connection column 41a and the first discharging connector 312 in a pipe orifice sleeve manner or by using a pipe joint, and sealing members such as a sealing ring and an O-ring can be arranged between the check valve 42 and the feeding connection column 41a and the first discharging connector 312 for sealing, so as to avoid the overflow at the joint.

Referring to fig. 3 and 5, the feeding nozzle assembly 100 is provided with a plurality of first discharge holes 10a and a plurality of feed holes 22a, and the first discharge holes 10a are in one-to-one correspondence with the feed holes 22 a. Accordingly, the number of the guide pipes 50 is plural, one end of the guide pipe 50 is connected to the discharging connection column 41b to communicate with the first guide flow pipes 41, the other end of the guide pipe 50 is connected to the feeding port 22a, and each first guide flow pipe 41 communicates with one feeding port 22a through one guide pipe 50.

Referring to fig. 1-5, in order to further shorten the length of the conduit, the feeding system further includes a second integrated plate 70, the second integrated plate 70 is disposed on the feeding nozzle assembly 100, and the conduit 50 is indirectly connected to the feeding hole 22a through the second integrated plate 70. Specifically, the second manifold plate 70 is provided with a plurality of second guiding pipes 71, and each of the guiding pipes 50 is communicated with one of the feeding ports 22a through one of the second guiding pipes 71. More specifically, the second guide duct 71 includes a first branch port 711, a second branch port 712, and a third branch port 713 that communicate with each other, the first branch port 711 communicating with the duct 50, and the third branch port 713 communicating with the feed port 22 a.

Referring to fig. 1, 2, 3 and 4, in an implementation, the two ends of the conduit 50 are provided with the quick-connect plugs 51, the conduit 50 is connected with the discharge connection column 41b and the first branch port 711 through the quick-connect plugs 51, and the components can be sealed by sealing elements such as sealing rings, O-rings and the like to avoid the flash at the connection position.

Referring to fig. 1 to 5, the material pumping device 60 is disposed on the feeding nozzle assembly 100, and the number of the material pumping devices 60 is plural, and the material pumping devices 60 are fixedly disposed on the support 61, the support 61 is fixedly connected to the second integrated board 70, each second diversion pipeline 71 is connected to one material pumping device 60, specifically, the material pumping devices 60 are communicated with the second branch opening 712, a pump waterproof jacket 62 is disposed between the material pumping devices 60 and the second branch opening 712, and the pump waterproof jacket 62 is disposed in the second branch opening 712 and is in interference fit with the material pumping devices 60 and the second branch opening 712, so as to improve the sealing performance of the connection. The material pumping device 60 is used for providing power for the process that the auxiliary materials enter the feeding hole 22a from the conduit 50 and flow out from the first discharging hole 10a, that is, when the material pumping device 60 pumps the materials, a pressure difference is generated, and the auxiliary materials in the corresponding container 31 are conveyed through the corresponding first flow guide pipeline 41, the conduit 50, the second flow guide pipeline 71 and the feeding hole 22a in sequence and finally flow out from the first discharging hole 10a to be discharged into a pot below. In some optional embodiments of the present invention, the pumping device 60 can be selected as a water pump. Through setting up second manifold plate 70, reduced a large amount of adapters that feed mouth subassembly 100, take out and connect between material device 60, the pipe 50 three needs, simplified overall structure, reduced the installation degree of difficulty.

Referring to fig. 7-13, the feeding nozzle assembly 100 specifically includes a feeding nozzle 10 and an integrated plate assembly 20 connected to each other, wherein:

referring to fig. 7-10, the feeding nozzle 10 includes a feeding portion 11, a discharging portion 12 connected to the feeding portion 11, and an end cap 13 covering an end of the discharging portion 12 away from the feeding portion 11. The first discharge hole 10a is arranged on the feeding nozzle 10, the first discharge hole 10a extends from the feeding part 11 to the discharging part 12, and the first discharge hole 10a extends out of the feeding part 11 to form a first convex column 10b, namely, the first discharge hole 10a continues to extend outwards from the end face of the end of the feeding part 11 and crosses over the end face of the end of the feeding part 11 to form a first convex column 10b on the end face of the end of the feeding part 11 so as to be connected with a second discharge hole of a subsequent integrated board assembly 20; simultaneously first discharge gate 10a still extends the end cover from ejection of compact portion 12 and forms second projection 10c, first discharge gate 10a extends the terminal surface back that reachs ejection of compact portion 12 promptly, continue outwards to extend and cross the terminal surface of ejection of compact portion 12, with form second projection 10c on the terminal surface of ejection of compact portion 12, second projection 10c runs through end cover 13, so that the auxiliary material pours into the pan into, and can also avoid the material stream on end cover 13, lead to the mutual mixed pollution between the auxiliary material. The first convex column 10b and the second convex column 10c are positioned at two ends of the feeding nozzle 10.

Referring to fig. 13, in the present embodiment, the interior of the feeding nozzle 10 is hollowed around the first discharging hole 10a, so that each discharging hole 10a forms a discharging column 10d in the inner cavity of the feeding nozzle 10 after the hollowed, and the first discharging hole 10a is an inner pipe of the discharging column 10 d. In other embodiments, a plurality of first discharge ports 10a may be directly formed on the solid feeding nozzle 10, but compared to the hollow structure design of the present embodiment, the feeding nozzle 10 does not have the advantage of light weight. Meanwhile, the end face of the discharging part 12 can be recessed downwards to form a containing groove 121, the end cover 13 is contained in the containing groove 121, protruding is avoided, and attractiveness is improved, in addition, in order to achieve sealing, a third sealing element 14 is arranged between the end cover and the discharging part 12 to prevent oil smoke and water vapor from entering an inner cavity of the feeding nozzle 10, the third sealing element 14 is contained in the containing groove 121, and the third sealing element 14 can be an O-shaped ring, a rubber pad, a silica gel pad and the like.

Referring to fig. 10, preferably, the feeding portion 11 and the discharging portion 12 are disposed at an included angle, so that the discharging portion 12 is disposed obliquely downward, thereby facilitating the injection of the auxiliary materials into the pot disposed below the feeding nozzle 10. The angle between the feeding section 11 and the discharging section 12 is preferably 90 to 160 degrees, and most preferably 145 degrees.

In addition, referring to fig. 9-10, in the embodiment, the plurality of first discharging holes 10a are distributed in a ring shape, so that the volume of the feeding nozzle 10 can be reduced compared with the uniform discharging. In other embodiments, the first discharge ports 10a may be distributed in a rectangular array for the purpose of reducing the volume of the feeding nozzle 10. It should be noted that, in the specific implementation, the number, shape, size and other specifications of the first discharge holes 10a are not limited, and may be determined according to actual requirements, and the feeding portion 11 and the discharge portion 12 are preferably integrally formed, and the end cap 13 is preferably installed and fixed by a fastening and detaching fixing method, such as a screw joint, a snap joint, and the like.

On the other hand, referring to fig. 7, 11 and 12, the manifold assembly 20 includes a connecting portion 21 connected to the feeding nozzle 10 and a third manifold 22 connected to the connecting portion 21, the connecting portion 21 has a plurality of second discharge ports 21a corresponding to and communicating with the first discharge ports 10a, and the feed ports 22a are disposed on the third manifold 22 and communicate with the second discharge ports 21 a.

Referring to fig. 11, a plurality of flow guide channels 10b are disposed on the third integrated plate 22, and each feed port 22a is communicated with a second discharge port 21a through one flow guide channel 10 b. Specifically, the third integrated board 22 includes a bottom cover 221 and a face plate 222 covering the bottom cover 221, the connecting portion 21 is connected to the bottom cover 221, the second discharge hole 21a extends from the connecting portion 21 to the bottom cover 221, the feed hole 22a is disposed on the face plate 222, the flow guide channel 10b is located between the bottom cover 221 and the face plate 222, one end of the flow guide channel 10b is communicated with the second discharge hole 21a, and the other end is communicated with the feed hole 22 a. More specifically, the diversion channel 10b includes a first diversion trench 10b1 disposed on the bottom cover 221 and a second diversion trench 10b2 disposed on the panel 222, and when the bottom cover 221 is closed with the panel 222, the first diversion trench 10b1 and the second diversion trench 10b2 are spliced to form the diversion channel 10 b. Specifically, the first convex column 10b is plugged into the second discharge port 21a to be connected with the second discharge port 21a, and the first convex column 10b and the second discharge port 21a can be sealed through a sealing ring. The feed opening 22a is sleeved with a sealing rubber sleeve 22a1 to play a role of sealing connection when being connected with a pipeline subsequently.

To achieve sealing, a first sealing member (not shown) is disposed between the first guide groove 10b1 and the second guide groove 10b2, and the first sealing member may be a sealing ring, and may be disposed around the periphery of the guide passage 10b and embedded in the bottom cover 221 and/or the face plate 222, or a sealing gasket may be disposed between the bottom cover 221 and the face plate 222, and the sealing gasket is opened at a position opposite to the guide passage 10b to avoid the guide passage 10 b. In addition, in specific implementation, the bottom cover 221 and the panel 222 can be detachably connected in a screwing mode, a clamping mode and the like, so that the flow guide channel 10b can be conveniently processed, and the flow guide channel 10b can be cleaned and dredged after being used for a certain time; alternatively, the bottom cover 221 and the panel 222 may be ultrasonically welded after being closed, so that the two are integrally connected to improve the sealing effect.

Referring to fig. 11, preferably, the plurality of feeding ports 22a are linearly spaced, i.e., arranged in a line, so that the material drawing devices 60 connected to the plurality of feeding ports 22a can be arranged side by side, and the occupied space of the material drawing devices 60 is minimized. Based on this, one of the flow guide channels 10b is disposed at the center of the third integrated board 22, and the other flow guide channels 10b are annularly arranged and strip-shaped with respect to the flow guide channel 10b at the center, and by the ingenious flow channel layout, the butt joint of the in-line arranged feeding flow channels and the annularly arranged discharging flow channels is realized.

To sum up, feed system in the middle of the embodiment, through setting up first integrated board 40 and second integrated board 70, and set up the water conservancy diversion pipeline that supplies the auxiliary material to circulate on first integrated board 40 and second integrated board 70 respectively, make the auxiliary material have the part to be carried through the water conservancy diversion pipeline of first integrated board 40 and second integrated board 70, avoid whole journey to adopt the pipe, can the corresponding length that reduces the pipe, avoid the pipe folding to appear, thereby the problem of auxiliary material jam in the pipe has been avoided, in addition, can also avoid the pipe overlength and in disorder, reduce the stringing complexity, improve the stringing efficiency. Moreover, through a plurality of independent first discharge gates 10a of integration on a feeding mouth 10, can guarantee that every auxiliary material can the ejection of compact alone and avoid producing the cluster flavor, in addition through arranging first discharge gate 10a cyclic annularly, can reduce the volume of feeding mouth 10, the sharp interval distribution of feed inlet 22a, compare in cyclic annular setting, when feed inlet 22a is connected with taking out material device 60, it is minimum to take out material device 60 occupation space, and set up ingenious runner in that third integrated board 22 is inside and realize the butt joint of the inlet flow way of a font range and the annular discharge flow way of range, thereby make feeding mouth 10 occupation space few, compact structure, small in size.

Example two

Referring to fig. 14-15, a feeding system according to a second embodiment of the present invention is shown, which is different from the feeding system according to the first embodiment in that:

a second sealing member 21b is arranged between the first convex column 10b and the second discharge hole 21a, the second sealing member 21b is provided with a plurality of hollow cylinders 21b1, the hollow cylinder 21b1 is embedded in the second discharge hole 21a, namely, the hollow cylinder 21b1 is plugged in the second discharge hole 21a, the first convex column 10b is embedded in the hollow cylinder 21b1, namely, the hollow cylinder 21b1 is sleeved on the first convex column 10b, and the second sealing member 21b is preferably in interference fit with the first convex column 10b and the second discharge hole 21a, so that the first convex column 10b and the second discharge hole 21a are sealed, and liquid leakage is avoided. The second sealing member 21b may be made of silicone or rubber.

It should be noted that the implementation principle and some advantageous effects of the device in the second embodiment of the present invention are the same as those of the device in the first embodiment, and therefore, the application contents in the first embodiment can be referred to for the parts not mentioned in this embodiment.

EXAMPLE III

Referring to fig. 16-18, a feeding system according to a second embodiment of the present invention is shown, which is different from the feeding system according to the first embodiment in that:

referring to fig. 16-18, the feeding system further includes a main control board 80, the main control board 80 is fixedly disposed on the bracket 61, the tank 32 is provided with liquid level detection sensors 91 contacting the containers 31 and electrically connected to the main control board 80, each container 31 corresponds to one liquid level detection sensor 91, the liquid level detection sensors 91 are used for detecting the residual amount in the container 31 and sending the residual amount in the container 31 to the main control board 80 in real time, so that the main control board 80 controls the alarm to give an alarm when the residual amount in the container 31 is known to be insufficient, so as to replenish the auxiliary materials in time.

Referring to fig. 16 and 17, the box 32 has a plurality of mounting slots at corresponding positions, a liquid level sensor 91 is disposed in each mounting slot, a cover 322 is disposed at a slot opening of the mounting slot, and the cover 322 compresses the liquid level sensor 91 in the mounting slot. The gland 322 is detachably connected to the case 32 by a detachable connection means such as a screw connection, a snap connection, etc.

Referring to fig. 16-18, in addition, an empty pipe sensor 92 for sensing liquid in the conduit 50 is disposed on the second integrated board 70, the empty pipe sensor 92 is fixed on an empty pipe bracket 921, the empty pipe bracket 921 is fixed on the second integrated board, and the empty pipe sensor 92 is electrically connected to the main control board 80, specifically, the empty pipe sensor 92 senses the liquid in the conduit 50 at any time, after sensing the liquid, the main control board 80 starts to calculate the material (calculated according to the time when the empty pipe sensor senses the liquid and the material drawing speed), and when not sensing the liquid, the air is currently drawn, the material is not calculated, the material is continuously drawn until the auxiliary material is drawn, so as to ensure accurate calculation of the discharge amount, and solve the problem that the discharge amount cannot be correctly controlled after the existing conduit is empty pipe. The utility model discloses among some optional embodiments, air defense pipe sensor 92 can be capacitanc contactless liquid displacement sensor, then plays a role with pipe 50 apart from 3-5 millimeters, and the distance is more and more as good, consequently, when setting up air defense pipe sensor 92, can make air defense pipe sensor 92 and pipe 50 contact, also can set up in realizing the induction distance within range.

It should be noted that the implementation principle and some advantageous effects of the device in the third embodiment of the present invention are the same as those of the device in the first embodiment, and therefore, the application contents in the first embodiment can be referred to for the parts not mentioned in this embodiment.

Example four

The utility model discloses another aspect still provides a cooking equipment, including organism, pan and feed system, the feed system is the feed system in the middle of the above-mentioned arbitrary embodiment, the feed system with the pan is all located in the organism, the feed mouth subassembly of feed system is located the top of pan.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A feed system, characterized in that the system comprises:

the auxiliary material device is used for containing auxiliary materials;

the feeding nozzle assembly is provided with a first discharge hole and a first feed hole;

the first integrated plate is arranged on the auxiliary material device and provided with a first flow guide pipeline;

one end of the guide pipe is connected with the first diversion pipeline, and the other end of the guide pipe is connected with the feed inlet;

and the material pumping device is arranged on the feeding nozzle assembly and supplies power to the auxiliary materials which enter the feeding hole from the guide pipe and flow out from the first discharging hole.

2. The feeding system of claim 1, further comprising a second manifold plate disposed on the feeding nozzle assembly, wherein the second manifold plate is provided with a second flow guide channel, and the second flow guide channel is communicated with the conduit, the pumping device and the feeding port of the feeding nozzle assembly.

3. The feeding system of claim 2, wherein the second flow conduit includes a first branch port, a second branch port, and a third branch port, the first branch port is in communication with the conduit, the second branch port is in communication with the pumping device, and the third branch port is in communication with the feed opening of the feeding nozzle assembly.

4. Feeding system according to any of claims 1-3, characterized in that the discharge of the auxiliary material device is provided with a non-return valve.

5. The feeding system of claim 2, further comprising a main control board, wherein the auxiliary material device comprises a container for containing the auxiliary material and a box for mounting the container, the first integrated board is fixed to the box, and the box is provided with a liquid level detection sensor which is in contact with the container and is electrically connected with the main control board.

6. The feeding system of claim 5, wherein said container and said housing are removably connected.

7. The feeding system of claim 5, wherein the second manifold plate is provided with an air defense sensor for sensing liquid in the conduit, and the air defense sensor is electrically connected with the main control plate.

8. The feeding system of claim 1, wherein the feeding tip assembly comprises:

a feeding nozzle;

an integrated board assembly; the first discharge gate is located the feed mouth, first discharge gate is a plurality of, and is a plurality of first discharge gate is cyclic annular and arranges, the integrated board subassembly include with connecting portion that the feed mouth is connected and with the third integrated board that connecting portion are connected, connecting portion be equipped with a plurality of second discharge gates of first discharge gate one-to-one and intercommunication, the feed inlet is located the third integrated board and with second discharge gate intercommunication one by one, it is a plurality of the setting of feed inlet sharp interval.

9. The feeding system of claim 1, wherein the pumping device is a water pump.

10. A cooking device, comprising a body, a pot and a feeding system as claimed in any one of claims 1 to 9, wherein the feeding system and the pot are both disposed in the body, and a feeding nozzle assembly of the feeding system is located above the pot.

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