CN211224763U - Feeding device and cooking equipment - Google Patents

Abstract

The utility model is suitable for a culinary art technical field provides a throw material device, include: a support member; the stocker is arranged on the support piece and provided with a feed inlet and a discharge outlet; the pushing rod is movably arranged in the material storage device, one end of the pushing rod is provided with a pushing part, the pushing part is arranged in the material storage device and is attached to the inner wall of the material storage device, the pushing rod part is arranged outside the material storage device, and when the pushing rod moves, the pushing part can push the material out of the material outlet; the driving mechanism is arranged on the supporting piece and used for driving the material pushing rod to move; the leakage-proof mechanism is arranged at the discharge hole to prevent the material from being discharged from the discharge hole when the material pushing rod is static. The utility model provides a throw material device, simple structure can be applicable to the thick form material simultaneously and throw the material with liquid material, and application scope is wide.

Description

Feeding device and cooking equipment

Technical Field

The utility model belongs to the technical field of the culinary art, especially, relate to a throw material device and cooking equipment.

Background

The full-automatic cooker does not need to be manually observed, all prepared main materials, auxiliary materials and seasonings are put in at one time, after a program is set, oil is automatically heated, the frying is automatically turned, the duration and degree of heating are automatically controlled, and automatic cooking can be realized without experience.

In cooking, the frying machine needs to feed different seasonings, the seasonings are divided into thick seasonings and liquid seasonings according to different forms of the seasonings, the thick seasonings are oil-consuming, and the liquid seasonings are soy sauce, vinegar and the like. The feeding device for liquid seasonings in the existing dish frying machine is not suitable for thick seasonings, and if the thick seasonings adopt the feeding device for the liquid seasonings, blockage can be easily caused, so that the thick seasonings need to adopt an additional feeding device, a plurality of feeding devices are required to be arranged, and the structure of cooking equipment is complex. In addition, what have adopted at present to the thick form condiments is that the container winding that will hold the thick material is thrown the material by the mode that the motor rotated the extruded article extrusion container of drive at the output end of motor, and this kind of mode makes the shell of the thick material that holds easily broken by squeezing to the thick form condiments of a large amount are easily remained in the container, cause the waste.

SUMMERY OF THE UTILITY MODEL

The utility model provides a throw the material device, the thick form condiments that aim at solving among the prior art and liquid condiments are established separately and are thrown the material device and lead to the cooking equipment structure complicacy and the thick form condiments throw the material device and lead to the thick form condiments to break and cause the extravagant technical problem of thick form condiments throwing the container that the material in-process caused to hold thick form condiments easily.

The utility model discloses a realize like this, a throw material device, include:

a support member;

the stocker is arranged on the support piece and provided with a feed inlet and a discharge outlet;

the pushing rod is movably arranged in the material storage device, one end of the pushing rod is provided with a pushing part, the pushing part is arranged in the material storage device and is attached to the inner wall of the material storage device, the pushing rod part is arranged outside the material storage device, and when the pushing rod moves, the pushing part can push the material out of the material outlet;

the driving mechanism is arranged on the supporting piece and used for driving the material pushing rod to move;

the leakage-proof mechanism is arranged at the discharge hole to prevent the material from being discharged from the discharge hole when the material pushing rod is static.

Further, the support member comprises a body portion and a connecting portion arranged on the body portion, and the stocker is detachably connected with the connecting portion.

Furthermore, the inner wall of the material storage device at the discharge port is provided with a groove, the connecting part is arranged in the discharge port and matched with the groove, the side wall of the material storage device is also provided with a first vacancy for the connecting part to pass in and out of the material storage device, and the connecting part is provided with a through groove for the pushing rod to pass through.

Furthermore, the size of the through groove is larger than the overall dimension of the material pushing rod and smaller than the overall dimension of the material pushing part.

Further, the first gap is higher in height in the moving direction of the pushing rod than in the stocker when the pushing part abuts against one end of the through groove.

Further, the stocker comprises a shell connected with the connecting portion in a detachable mode and a container arranged in the shell and connected with the shell in a detachable mode, the discharge port is arranged on the container, the feed port comprises a first feed port arranged on the shell and a second feed port arranged on the container and corresponding to the first feed port, and the groove and the first gap are arranged on the side wall of the shell where the first feed port is located.

Further, the shell is provided with a second gap for the container to enter and exit at the opposite side of the first gap.

Furthermore, the shell is cylindrical, the shell has stress deformability, and the second vacancy is smaller than one half of the inner diameter of the shell.

Further, the shell is provided with a third vacancy below the first vacancy.

Furthermore, the hopper is in threaded connection with a connecting part at one end where the feed inlet is located, and the connecting part is provided with a through groove for the pushing rod to pass through.

Furthermore, a flexible pushing block is arranged outside the pushing part and is attached to the inner wall of the stocker.

Furthermore, the driving mechanism is positioned outside the material storage device, part of the material pushing rod is arranged outside the material storage device, and the driving mechanism comprises a driving piece arranged on the supporting piece and used for driving the material pushing rod to move and a linkage assembly for connecting the driving piece and the material pushing rod.

Further, the linkage subassembly is including locating the first gear of the drive end of driving piece and locating the ejector tie and with the tooth of first gear engagement, the tooth extends along the length direction of ejector tie.

Furthermore, the linkage assembly comprises a second gear arranged at the driving end of the driving part and a third gear which is rotatably arranged on the supporting part and is meshed with the second gear, and the third gear is in threaded fit with the material pushing rod.

Further, leak protection mechanism is including locating the ejection of compact mouth of discharge gate, locating in the ejection of compact mouth and supporting the sealing of discharge gate, locating sealing and the elastic component of discharge gate butt between sealing and the discharge gate and making sealing, and when the ejector pin removed towards the discharge gate, the sealing can extrude the elastic component in order to keep away from the sealing.

Furthermore, the discharge port extends outwards to form a hollow cylinder, and the discharge nozzle is detachably connected with the hollow cylinder.

The utility model also provides a cooking equipment, including the cavity, locate the pan in the cavity and aforementioned throw the material device, throw the material device and locate in the cavity and can throw the material to the pan.

The beneficial effects of the utility model reside in that, the setting is used for holding the stocker of material, movably setting up the ejector pin on the stocker, the one end of ejector pin sets up and pushes away material portion, push away material portion put in the stocker and set up with the inner wall laminating of stocker, when actuating mechanism promoted the ejector pin and removed, push away material portion can release the material in the stocker, push away material portion can accomplish the adnexed material of inner wall of stocker and release the stocker outside, can not cause the stocker to block up, can also not cause the material extravagant. In addition, the leakage-proof device is arranged at the discharge port, so that the material waste caused by the dropping of the material from the discharge port when the material pushing rod is in a static and non-material pushing state can be avoided. The utility model provides a throw material device, simple structure can be applicable to the thick form material simultaneously and throw the material with liquid material, and application scope is wide.

Drawings

Fig. 1 is a cross-sectional view of an embodiment of a feeding device provided by the present invention;

FIG. 2 is a partially exploded view of FIG. 1;

fig. 3 is a schematic structural diagram of another embodiment of a feeding device provided by the present invention;

FIG. 4 is a partially exploded view of FIG. 3;

FIG. 5 is a cross-sectional view of FIG. 3;

fig. 6 is a cross-sectional view of another embodiment of a feeding device provided by the present invention;

fig. 7 is a cross-sectional view of yet another embodiment of a feeding device according to the present invention.

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.

The utility model provides a throw the material device, can solve the thick form condiments among the prior art and liquid condiments and establish respectively to throw the material device and lead to the cooking equipment structure complicated and thick form condiments throw the material device and lead to thick form condiments to break and cause the extravagant technical problem of thick form condiments at the container of throwing the material in-process and causing thick form condiments easily. The feeding device is provided with the material storage device for containing materials, the material storage device is movably provided with the pushing rod, one end of the pushing rod is provided with the material pushing part, the material pushing part is arranged in the material storage device and is attached to the inner wall of the material storage device, when the driving mechanism pushes the pushing rod to move, the material pushing part can push the materials in the material storage device out, the material pushing part can push the materials attached to the inner wall of the material storage device out of the material storage device, the material storage device cannot be blocked, and material waste cannot be caused. In addition, set up leak protection device at the discharge gate, can avoid the material to drip from the discharge gate and cause the material extravagant when the ejector pin is in the static state that does not push away the material, simple structure can be applicable to thick form material and liquid material simultaneously and throw the material, and application scope is wide, when being applied to thick form material and throwing the material, compares in the structure of current product, and the life of product is longer.

Example one

Referring to fig. 1-2, in order to provide an embodiment of the feeding device of the present invention, the feeding device includes a supporting member 1, a hopper 2, a material pushing rod 3, a driving mechanism 4, and a leakage preventing mechanism 5. The material storage device 2 is arranged on the support member 1, the material storage device 2 is provided with a feeding hole 21 and a discharging hole 22, the material pushing rod 3 is movably arranged on the material storage device 2, one end of the material pushing rod is provided with a material pushing part 31, the material pushing part 31 is arranged in the material storage device 2 and is attached to the inner wall of the material storage device 2, the material pushing rod 3 is partially arranged outside the material storage device 2, when the material pushing rod 3 moves, the material pushing part 31 can push the material out of the discharging hole 22, the driving mechanism 4 is arranged on the support member 1 and is used for driving the material pushing rod 3 to move, and the leakage-proof mechanism 5 is arranged on the discharging.

The fact that the pushing part 31 is attached to the inner wall of the stocker 2 means that when the pushing rod 3 moves on the stocker 2, the pushing part 31 can push the material out of the discharge port 22 without causing the material to run out of the gap between the pushing part 31 and the inner wall of the stocker 2 toward the feed port 21.

During installation, the support piece 1 is fixed on a machine body of cooking equipment so that the feeding device is fixed on the cooking equipment, when the feeding device is used, the driving mechanism 4 drives the pushing rod 3 to move in the material storage device 2, the material is pushed out from the material outlet 22 by the pushing part 31, because the pushing part 31 is attached to the inner wall of the material storage device 2, when the pushing rod 3 moves, the pushing part 31 can completely strip the material on the inner wall of the material storage device 2 off the inner wall of the material storage device 2, the material cannot be left on the material storage device 2, the material is prevented from being blocked in the material storage device 2, the material can be extruded more cleanly, the material waste is avoided, the leakage-proof mechanism 5 is arranged, the material can be prevented from dropping from the material inlet 21 when the pushing rod is not moved.

Example two

Referring to fig. 1-2, on the basis of the first embodiment, the supporting member 1 further includes a main body 11 and a connecting portion 12 disposed on the main body 11, and the hopper 2 is detachably connected to the connecting portion 12. In practice, the material storage device 2 may be a container filled with materials, and the material storage device 2 may be directly replaced to add materials after the materials are used up, so that the material storage device 2 does not need to be cleaned, and the use is extremely simple. Of course, the hopper 2 may also be a container fixed to the support 1 for containing the material, so that the hopper 2 can be removed for cleaning after the material in the hopper 2 is used up, for the next addition of fresh material.

EXAMPLE III

Referring to fig. 2, based on the second embodiment, specifically, the hopper 2 is provided with a groove 23 on an inner wall of the discharge port 22, the connecting portion 12 is disposed in the discharge port 22 and is matched with the groove 23, the sidewall of the hopper 2 is further provided with a first vacancy 2524 for the connecting portion 12 to enter and exit the hopper 2, and the connecting portion 12 is provided with a through groove 121 for the pushing rod 3 to pass through. The first gap 2524 is arranged to facilitate the connection part 12 to be clamped into the discharge port 22 to be matched with the groove 23, and to facilitate the connection part 12 and the groove 23 to be stably matched, the groove 23 can extend around the axis of the stocker 2 on the inner wall of the stocker 2, so that the matching area of the connection part 12 and the groove 23 can be increased, and the through groove 121 can avoid the material pushing rod 3 and can realize the movement of the material pushing rod 3 on the stocker 2.

In this embodiment, the body 11 of the support 1 may be located outside the hopper 2 and above the connecting portion 12 or beside the connecting portion 12, and when the body 11 is located above the connecting portion 12, the through slot 121 needs to penetrate through the body 11 so that the pushing rod 3 can pass through the support 1 and extend out of the hopper 2.

The size of the through groove 121 is larger than the outer dimension of the pushing rod 3 and smaller than the outer dimension of the pushing part 31. Therefore, the situation that the driving mechanism 4 breaks down due to the fact that the pushing part 31 penetrates through the through groove 121 to enable the pushing rod 3 to be separated from the supporting piece 1 when the driving mechanism drives the pushing rod 3 to move towards the direction of the feeding hole 21 can be avoided.

Further, the height of the first gap 2524 in the moving direction of the push rod 3 is greater than the height of the pusher 31 in the stocker 2 when the pusher 31 abuts against one end of the through-groove 121, so that the pusher 31 can escape from the first gap 24 when the stocker 2 is removed, and the pusher 31 does not interfere with the first gap 24 and affect the removal of the stocker 2.

In this embodiment, the supporting portion further includes a fixing portion 13 disposed on the main body portion 11 and extending above the connecting portion 12, the fixing portion 13 is provided with a through hole (not shown) corresponding to the through groove 121, and one end of the material pushing rod 3 passing through the through groove 121 extends to the through hole and extends out of the fixing portion 13, so as to position the material pushing rod 3 and prevent the material returning rod from shaking when the driving mechanism 4 drives the material pushing rod 3 to move.

Example four

Referring to fig. 3 to 5, on the basis of any one of the first to third embodiments, the stocker 2 further includes a housing 2a detachably connected to the connecting portion 12 and a container 2b disposed in the housing 2a and detachably connected to the housing 2a, the discharge port 22 is disposed on the container 2b, the feed port 21 includes a first feed port 211 disposed on the housing 2a and a second feed port 212 disposed on the container 2b and corresponding to the first feed port 211, and the recess 23 and the first void 24 are both disposed on a side wall of the housing 2a where the first feed port 211 is located. The hopper 2 is divided into a shell 2a detachably connected with the connecting part 12 and a container 2b which is arranged in the shell 2a and detachably connected with the shell 2a, and by adopting the scheme of the design scheme, the hopper does not need to be detached from the shell 2a, when the materials need to be replaced, the container 2b can be directly replaced, and the operation is simple and convenient.

Referring to fig. 4, further, the housing 2a is provided with a second space 25 for the container 2b to enter and exit at the opposite side of the first space 24. The second gap 25 is arranged, so that the container 2b can be loaded into or unloaded from the shell 2a, the disassembly and the assembly are extremely simple, the disassembly and the assembly difficulty are reduced, the disassembly and the assembly procedures are simplified, and the disassembly and the assembly efficiency are improved.

In this embodiment, the housing 2a may be cylindrical and has a force-deformation capability, and the second void 25 is smaller than one-half of the inner diameter of the housing 2 a. The housing 2a can be made of plastic material, and the second gap 25 is smaller than one half of the inner diameter of the housing 2a, so that the wrapping area of the housing 2a to the container 2b exceeds one half of the surface of the container 2b, and the container 2b is stably installed in the housing 2a and is not easy to fall off.

Referring to fig. 4, further, the housing 2a is provided with a third gap 26 below the first gap 24. The third recess 26 is provided below the first recess 24, that is, the third recess 26 is provided opposite to the second recess, so that when the container 2b is removed, the container 2b can be pushed out of the housing 2a from the third recess 26, thereby facilitating the removal of the container 2 b.

EXAMPLE five

Referring to fig. 6, on the basis of the second embodiment, further, the hopper 2 may be screwed to the connecting portion 12 at the end where the feeding hole 21 is located, and the connecting portion 12 is provided with a through groove 121 for passing the pushing rod 3. By adopting the scheme, the detachable connection between the material storage device 2 and the connecting part 12 can be realized, and the through groove 121 is arranged, so that the material pushing rod 3 can be avoided, and the material pushing rod 3 can penetrate through the supporting part 1 and extend out of the material storage device 2.

The size of the through groove 121 is larger than the outer dimension of the pushing rod 3 and smaller than the outer dimension of the pushing part 31. Therefore, the situation that the driving mechanism 4 breaks down due to the fact that the pushing part 31 penetrates through the through groove 121 to enable the pushing rod 3 to be separated from the supporting piece 1 when the driving mechanism drives the pushing rod 3 to move towards the direction of the feeding hole 21 can be avoided.

EXAMPLE six

In addition to any one of the first to fifth embodiments, a flexible pushing block 6 is further provided outside the pushing section 31, and the pushing block 6 is attached to the inner wall of the stocker 2. The flexible push block 6 is arranged, so that the close joint between the material pushing part 31 and the inner wall of the material storage device 2 can be improved, and the probability of material permeation between the material pushing part 31 and the inner wall of the material storage device 2 is further reduced.

In the fourth embodiment, the pushing member 31 is attached to the inner wall of the container 2b, and when the pushing block 6 is provided, the pushing block 6 is attached to the inner wall of the container 2 b.

EXAMPLE seven

Referring to fig. 1 to 7, on the basis of any one of the first to sixth embodiments, specifically, the driving mechanism 4 is located outside the stocker 2, a portion of the push rod 3 is located outside the stocker 2, and the driving mechanism 4 includes a driving member 41 disposed on the support member 1 and driving the push rod 3 to move and a linkage assembly 42 connecting the driving member 41 and the push rod 3. The driving mechanism 4 is linked with the material pushing rod 3 arranged outside the material storage device 2 through the linkage assembly 42, so that the material pushing rod 3 is driven to move in the container 2b to realize the feeding of the material. In this embodiment, the driving member 41 may be a motor.

Example eight

Referring to fig. 2 or fig. 3, on the basis of the seventh embodiment, specifically, the linkage assembly 42 includes a first tooth 422 wheel 421 disposed at the driving end of the driving member 41 and a tooth 422 disposed on the material pushing rod 3 and engaged with the first tooth 422 wheel 421, and the tooth 422 extends along the length direction of the material pushing rod 3. The driving member 41 drives the first gear 422 to rotate, and the gear 422 disposed on the pushing rod 3 is engaged with the first gear 422, so that the first gear 422 drives the pushing rod 3 to move.

Example nine

Referring to fig. 7, on the basis of the seventh embodiment, specifically, the linkage assembly 42 includes a second gear 422 disposed at the driving end of the driving element 41, and a third gear 422 rotatably disposed on the support 1 and engaged with the second gear 422, and the third gear 422 is in threaded engagement with the material pushing rod 3.

In the embodiment, the third gear 422 is disposed in a through hole of the fixing portion 13 of the supporting member 1, and further, a bearing (not shown) is disposed in the through hole to reduce friction between the third gear 422 and the through hole when the third gear 422 is driven by the second gear 422 to rotate. The center of the second gear 422 is provided with a threaded hole, the outside of the material pushing rod 3 is provided with threads along the length direction, the material pushing rod 3 is in threaded fit with the threaded hole, and when the second gear 422 drives the third gear 422 to rotate, the third gear 422 can drive the pushing rod to move on the material storage device 2 through the threaded fit of the third gear 422 and the material pushing rod 3.

Example ten

Referring to fig. 1, in any one of the first to ninth embodiments, specifically, the leakage preventing mechanism 5 includes a discharge nozzle 51 disposed on the discharge port 22, a sealing member 52 disposed in the discharge nozzle 51 and abutting against the discharge port 22, a sealing member (not shown) disposed between the sealing member 52 and the discharge port 22, and an elastic member 53 for abutting the sealing member 52 against the discharge port 22, wherein when the plunger 3 moves toward the discharge port 22, the sealing member 52 can press the elastic member 53 to be away from the sealing member. Wherein, the sealing member 52 can be a ball, the sealing member can be an O-ring disposed at the discharge port 22, when the sealing member is installed, the ball is partially embedded in the discharge port 22 and abuts against the O-ring, the elastic member 53 is disposed in the discharge nozzle 51 and abuts against the ball, when the driving mechanism 4 drives the push rod 3 to move toward the discharge port 22, the pushing portion 31 pushes the material, the pressure of the material pushes the ball to squeeze the elastic member 53, so that the ball is far away from the sealing member to expose the discharge port 22, the material can enter the discharge nozzle 51 from the discharge port 22 and is extruded from the stocker 2, when the driving mechanism 4 stops driving the push rod 3, the material loses the pressure on the ball, the restoring force of the elastic member 53 pushes the ball to abut against the sealing member, thereby closing,

wherein, the discharging port 22 extends out of the hopper 2 to form a hollow column 27, and the discharging nozzle 51 is detachably connected with the hollow column 27. Further, the tap 51 may be sleeved with the outer wall of the hollow cylinder 27 and secured by a threaded connection, so as to facilitate removal of the leakage preventing mechanism 5 for cleaning the tap 51 and the discharge port 22.

EXAMPLE eleven

The utility model also provides a cooking equipment, this cooking equipment include the cavity, locate the pan in the cavity and aforementioned throw the material device, throw the material device and locate in the cavity and can throw the material to the pan. During the installation, be fixed in the cavity with support piece 1 and be located the top of pan, when using, control actuating mechanism 4 drive ejector pin 3 and remove and can realize putting in the material in the pan.

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 (17)

1. A feeding device, comprising:

a support member;

the stocker is arranged on the support piece and provided with a feeding port and a discharging port;

the pushing rod is movably arranged in the material storage device, one end of the pushing rod is provided with a pushing part, the pushing part is arranged in the material storage device and is attached to the inner wall of the material storage device, the pushing rod part is arranged outside the material storage device, and when the pushing rod moves, the pushing part can push the material out of the material outlet;

the driving mechanism is arranged on the supporting piece and used for driving the material pushing rod to move;

the leakage-proof mechanism is arranged at the discharge hole to prevent the material from being discharged from the discharge hole when the material pushing rod is static.

2. The charging device of claim 1, wherein the support member includes a body portion and a coupling portion provided to the body portion, and wherein the hopper is detachably coupled to the coupling portion.

3. The charging device according to claim 2, wherein the hopper has a groove in an inner wall thereof at the discharge opening, the connecting portion is disposed in the discharge opening and engaged with the groove, the side wall of the hopper has a first opening for the connecting portion to enter and exit the hopper, and the connecting portion has a through groove for the plunger to pass through.

4. The charging device according to claim 3, wherein the through groove has a size larger than the outer dimension of the pushing rod and smaller than the outer dimension of the pushing portion.

5. The charging device according to claim 4, wherein the first gap has a height in a moving direction of the charging lever that is larger than a height in the stocker when the pusher abuts against one end of the through-groove.

6. The charging device according to any one of claims 3 to 5, wherein the hopper comprises a housing detachably connected to the connecting portion and a container detachably connected to the housing, the discharge port is provided on the container, the feed ports comprise a first feed port provided on the housing and a second feed port provided on the container and corresponding to the first feed port, and the groove and the first gap are both provided on a side wall of the housing where the first feed port is located.

7. The dispensing device of claim 6 wherein said housing has a second opening opposite said first opening for said container to enter and exit.

8. The charging device according to claim 7, wherein the housing is cylindrical, the housing has a force-deformation capability, and the second gap is less than one-half of the inner diameter of the housing.

9. The charging device of claim 6, wherein the housing is provided with a third void below the first void.

10. The charging device according to claim 2, wherein the hopper is screwed to the connecting part at the end where the feed inlet is located, and the connecting part is provided with a through groove for the push rod to pass through.

11. The charging device according to claim 1, wherein a flexible pushing block is arranged outside the material pushing part, and the pushing block is attached to the inner wall of the material storage device.

12. The charging apparatus according to claim 1, wherein the drive mechanism is located outside the hopper, and a portion of the plunger rod is located outside the hopper, and the drive mechanism includes a drive member disposed on the support member and configured to drive the plunger rod to move and a linkage assembly coupled to the drive member and the plunger rod.

13. The charging device according to claim 12, wherein the linkage assembly includes a first gear disposed at the drive end of the driving member and teeth disposed on the plunger and engaged with the first gear, the teeth extending along a length of the plunger.

14. The charging device of claim 12, wherein the linkage assembly includes a second gear disposed at the drive end of the driving member, and a third gear rotatably disposed at the support member and engaged with the second gear, the third gear being in threaded engagement with the plunger.

15. The charging device according to claim 1, wherein the leakage preventing mechanism comprises a discharging nozzle disposed at the discharging port, a sealing member disposed in the discharging nozzle and abutting against the discharging port, a sealing member disposed between the sealing member and the discharging port, and an elastic member abutting against the sealing member and the discharging port, wherein when the pushing rod moves toward the discharging port, the sealing member can press the elastic member to be away from the sealing member.

16. The dispensing apparatus according to claim 15 wherein said spout extends outwardly of said hopper to form a hollow cylinder, said spout being removably connected to said hollow cylinder.

17. A cooking device, comprising a cavity, a pot disposed in the cavity, and the feeding device of any one of claims 1 to 16, wherein the feeding device is disposed in the cavity and can feed the pot.

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