CN209996035U - Cooking machine and batching feeding device - Google Patents

Abstract

The utility model relates to a fried dish machine and batching are put in device, this batching is put in the device including depositing the case, the fly leaf, the batching is put in box and magazine support, deposit the case, comprising a base plate, the bottom plate is equipped with the dog-house, it is equipped with uncovered to deposit the case, the fly leaf is used for sealing uncovered, the batching is put in the box and is located and deposit the incasement, the batching is put in and is equipped with the chamber that holds that is used for holding the solid batching in the box, the bottom that the box was put in to the batching is equipped with can with hold the discharge gate that the chamber is linked together, the discharge gate sets up with the dog-house relatively, the magazine support is equipped with screens, the batching is put in the box and is inserted and is located in screens, but the inner wall sliding connection of magazine support and case, the magazine.

Description

Cooking machine and batching feeding device

Technical Field

The utility model relates to a batching input technical field especially relates to kinds of fried dish machines and batching input device.

Background

With the improvement of living standard and the acceleration of life rhythm of people, convenient, safe and high-quality meal is more and more favored by people, and the frying machine is in due course, the batching feeding device is important parts in the frying machine and is used for feeding batching into cooked dishes.

SUMMERY OF THE UTILITY MODEL

Therefore, kinds of frying machines and ingredient feeding devices are needed to be provided, and ingredient adding or replacing of the frying machines and the ingredient feeding devices are convenient and quick.

an ingredient delivery device, comprising:

the storage box comprises a bottom plate, a feeding port is formed in the bottom plate, and an opening is formed in the storage box;

a movable plate movable or rotatable relative to the storage compartment, the movable plate being capable of closing the opening;

a magazine holder with a th detent, which is slidably arranged in the storage box and can slide out of the storage box through the opening, and

the box is put in the batching, the box card is put in the batching is located the screens, it holds the chamber to be equipped with in the box is put in the batching, the bottom that the box was put in the batching be equipped with can with hold the discharge gate that the chamber is linked together, the discharge gate can with the dog-house sets up relatively.

Among the above-mentioned batching input device, the batching is deposited in the batching box, the batching box is put in and is placed in depositing the case, the discharge gate of batching box bottom portion and the dog-house of depositing the case set up relatively, when the discharge gate with hold the chamber intercommunication, hold the batching of intracavity through the discharge gate, the dog-house falls into in the pan, thereby accomplish the batching and put in the process, the screens of magazine support are located to the batching box card, when needs are put in the box to the batching and are reinforced or change, remove or rotate the fly leaf, make and deposit incasement portion through uncovered and external intercommunication, the magazine support carries the batching box warp uncovered slip extremely deposit the case can be reinforced or change outward, convenient and fast saves operator's time and energy, after the change finishes, remove once more or rotate the fly leaf, make the fly leaf open seal can.

In embodiments, the storage box further comprises a side panel, a second side panel and a third side panel, the side panel is disposed adjacent to the second side panel and the third side panel, the second side panel is disposed opposite to the third side panel, and the opening is opened on the side panel.

In embodiments, the ingredient delivery device further includes a guide bar, a second guide bar, a third guide bar and a fourth guide bar, the guide bar and the second guide bar are fixed on the inner side of the second side plate, the guide bar and the second guide bar are arranged at intervals to form a -th guide groove, the third guide bar and the fourth guide bar are fixed on the inner side of the third side plate, the third guide bar and the fourth guide bar are arranged at intervals to form a second guide groove, and the two opposite sides of the cartridge holder are respectively inserted into the -th guide groove and the second guide groove and can slide along the -th guide groove and the second guide groove.

In embodiments, the batching feeding device further comprises a drying box arranged in the storage box, a plurality of ventilation holes are formed in the drying box, a drying agent is stored in the drying box, a second clamping position is formed in the material box support, and the drying box is inserted into the second clamping position.

In embodiments, the ingredient feeding device further comprises a cover plate, the storage box further comprises a top plate, an access opening is formed in the top plate, and/or the cover plate is used for sealing the access opening

The magazine support is fixed on the inner side of the movable plate.

In embodiments, the batching and feeding device further comprises a feeding sealing assembly, the feeding sealing assembly comprises a rotary disc and a rotary driving mechanism, the rotary disc is arranged between the discharge port and the feeding port, the rotary disc is in sealing fit with the bottom plate, a communication hole is formed in the rotary disc, the rotary disc can rotate to enable the discharge port, the communication hole and the feeding port to be opposite and communicated, and the rotary driving mechanism is used for driving the rotary disc to rotate.

In embodiments, the batching feeding box comprises a box body, a feeding rod and a box plug, wherein the box body is provided with the accommodating cavity, the accommodating cavity comprises a main accommodating cavity and an auxiliary accommodating cavity which are communicated with each other, the auxiliary accommodating cavity is positioned below the main accommodating cavity, a communication port is formed between the main accommodating cavity and the auxiliary accommodating cavity, the discharge port is communicated with the auxiliary accommodating cavity, the feeding rod is inserted in the box body, the feeding rod is arranged in the direction from the main accommodating cavity to the auxiliary accommodating cavity and can move in the direction close to or far away from the discharge port, the box plug is sleeved on the feeding rod, the box plug comprises a closing piece and a second closing piece which are arranged at intervals in the extending direction of the feeding rod, the closing piece is used for sealing the discharge port, the second closing piece is used for sealing the communication port, when the closing piece closes the discharge port, the main accommodating cavity is communicated with the auxiliary accommodating cavity, and when the second closing piece seals the communication port, the auxiliary accommodating cavity is communicated with the outside through the discharge port.

In embodiments, the batching feeding device further includes a box cover, an elastic element and a rod cap, the box cover is disposed at a end of the box body close to the main accommodating cavity, the box cover is provided with a through hole, the feeding rod passes through the through hole, the elastic element is sleeved outside the feeding rod, the rod cap is fixed at a end of the feeding rod far away from the discharge port, a end of the elastic element abuts against the rod cap, and another end of the elastic element abuts against the box cover.

In embodiments, the ingredient dispensing device further includes a pressing driving mechanism and a pressing member, wherein the pressing driving mechanism is used for driving the pressing member to rotate or move so that the pressing member presses the rod cap.

The embodiment of the utility model also provides a kinds of cooking machines, which comprises the above ingredient feeding device.

This machine of cooking includes that above-mentioned batching puts in the device, consequently also has the technical effect that above-mentioned batching put in the device, and this machine of cooking's batching adds or changes all comparatively convenient and fast promptly.

Drawings

Fig. 1 is a schematic structural view of an ingredient feeding device according to an embodiment of the present invention, where an ingredient feeding box is located in a storage box, and a second side plate is omitted;

fig. 2 is a schematic structural diagram of the ingredient feeding device according to the embodiment of the present invention, where the ingredient feeding box is located outside the storage box;

FIG. 3 is a partial schematic view of FIG. 2;

FIG. 4 is another partial schematic view of FIG. 2;

fig. 5 is a half sectional view of the ingredient putting box of fig. 2, when the th fitting part closes the discharge hole, the first main accommodating chamber is communicated with the auxiliary accommodating chamber;

fig. 6 is a half sectional view of the ingredient putting box in fig. 2, where the second fitting portion closes the communication port and the auxiliary receiving chamber is communicated with the outside;

FIG. 7 is a partial view of FIG. 6;

FIG. 8 is a schematic view of a further portion of FIG. 2;

FIG. 9 is a top view of FIG. 8;

fig. 10 is a schematic structural view of the pressing member of fig. 9;

fig. 11 is a schematic structural view of the charging seal assembly of fig. 2.

Detailed Description

For purposes of promoting a better understanding of the objects, features, and advantages of the invention, reference is made to the following detailed description taken in conjunction with the accompanying drawings and the accompanying detailed description of which are included.

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

The terminology used herein in the description of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, the terminology used herein "and/or" includes any and all combinations of or more of the associated listed items.

The embodiment of the utility model discloses provides kind of fried dish machines, put in device 10 (as shown in fig. 1 and fig. 2) including the batching, this fried dish machine's batching adds or changes all comparatively convenient and fast, specifically, the batching puts in device 10 is including depositing case 100, fly leaf 210, batching and puts in box 300 and magazine support 400, this batching puts in device 10's batching interpolation or change all comparatively convenient and fast.

Specifically, as shown in fig. 1 to 5, the storage box 100 includes a bottom plate 110, the bottom plate 110 is provided with a feeding port 111, the storage box 100 is provided with an opening 120, the movable plate 210 is used for closing the opening 120, the magazine support 400 is provided with an -th locking position 410, the magazine support 400 is slidably disposed in the storage box 100, the magazine support 400 can slide out of the storage box 100 through the opening 120, the ingredient dropping box 300 is locked in the -th locking position 410, an accommodating cavity 310 is disposed in the ingredient dropping box 300, a discharging port 321 capable of communicating with the accommodating cavity 310 is disposed at the bottom of the ingredient dropping box 300, the discharging port 321 can be disposed opposite to the feeding port 111, and optionally, the opening 120 can be opened on the top surface or the side surface of.

In this embodiment, the movable plate 210 is detachably engaged with the storage box 100, and the movable plate 210 can move to close the opening 120. Of course, in other embodiments, the movable plate 210 may be rotatably fixed on the storage box 100 and the movable plate 210 can be rotated to close the opening 120.

Specifically, as shown in fig. 1 and 2, the storage box 100 further includes th side plate 130, 140 th side plate and 150 th side plate, th side plate 130 is disposed adjacent to both the 140 th side plate and the 150 th side plate, the 140 th side plate is disposed opposite to the 150 th side plate, the opening 120 is opened on the th side plate 130, the th side plate 130 is disposed on the same side as the movable plate 210, further, as shown in fig. 3, sealing member 510 is disposed between the movable plate 210 and the storage box 100. the arrangement can enhance the sealing performance between the movable plate 210 and the opening wall of the opening 120, prevent external moisture from entering the receiving cavity 310 from the gap between the movable plate 210 and the storage box, and make the solid ingredients deteriorate due to moisture.

, the ingredient feeding device 10 further comprises a cover plate 220, the storage box 100 further comprises a top plate 160, the top plate 160 is provided with an access hole, the cover plate 220 is used for sealing the access hole, in the embodiment, the cover plate 220 is detachably matched with the wall of the access hole, the cover plate 220 can move to the sealed access hole, in another embodiment, the cover plate 220 is rotatably fixed on the top plate 160 and the cover plate 220 can rotate to the sealed access hole, the access hole can facilitate the maintenance or the part replacement of the feeding sealing assembly 900, the cover plate 220 can plug the access hole to prevent external moisture or dust from entering the storage box 100 through the access hole, the step is that the cooking machine further comprises a frame, and the top plate 160 is fixed on the frame.

Specifically, as shown in fig. 5, ingredient dispensing box 300 includes a box body 330, a dispensing rod 340, and a box plug 350. This batching puts in box 300 can realize the accurate control to the batching volume of putting in, guarantees that the dish of making is delicious.

Specifically, the box body 330 has a containing cavity 310, the containing cavity 310 includes a main containing cavity 311 and an auxiliary containing cavity 312 which are communicated with each other, the auxiliary containing cavity 312 is located below the main containing cavity 311, a communication port 322 is formed between the main containing cavity 311 and the auxiliary containing cavity 312, the discharge port 321 is communicated with the auxiliary containing cavity 312, the feeding rod 340 is inserted into the box body 330, the feeding rod 340 is arranged along the direction from the main containing cavity 311 to the auxiliary containing cavity 312 and can move along the direction close to or away from the discharge port 321, the box plug 350 is sleeved on the feeding rod 340, the box plug 350 includes a th sealing piece and a second sealing piece which are arranged at intervals along the extending direction of the feeding rod 340, the th sealing piece is used for sealing the discharge port 321, the second sealing piece is used for sealing the communication port 322, when the th sealing piece seals the discharge port 321, the main containing cavity 311 is communicated with the auxiliary containing cavity 312, and when the second sealing piece seals the communication port 322, the auxiliary containing cavity 312 is communicated with the outside through the discharge port 321.

When the th sealing piece closes the discharge hole 321, as shown in fig. 5, the main containing cavity 311 and the auxiliary containing cavity 312 are communicated through the communication hole 322, that is, the ingredients in the main containing cavity 311 enter the auxiliary containing cavity 312, and the ingredients in the auxiliary containing cavity 312 do not leak from the discharge hole 321, when the feeding rod 340 is pressed, the second sealing piece closes the communication hole 322, as shown in fig. 6, the main containing cavity 311 is separated from the auxiliary containing cavity 312, and the ingredients originally located in the auxiliary containing cavity 312 fall into the pot through the discharge hole 321, thus, the amount of the ingredients falling from the discharge hole 321 is (equal to the volume of the auxiliary containing cavity 312) each time the feeding rod 340 is pressed, so that the accurate control of the feeding amount of the ingredients can be realized, and the delicious dishes made are guaranteed to be delicious.

Specifically, the th sealing member is the boss 351 that the cover was located on throwing material pole 340, the second sealing member is the second boss 352 that the cover was located on throwing material pole 340, the th boss 351 is located the below of second boss 352, the boss 351 is equipped with the th cooperation portion, the second boss 352 is equipped with the second cooperation portion, the th cooperation portion is used for sealing discharge gate 321, the second cooperation portion is used for sealing communication mouth 322, the distance between the th cooperation portion and the second cooperation portion is greater than the distance between discharge gate 321 and the communication mouth 322.

Specifically, the th boss 351 is a tapered boss, the radial dimension of the tapered boss gradually increases in a direction away from the second boss 352, the th matching portion is arranged in the middle of the th boss 351, the arrangement facilitates the matching of the th matching portion with the discharge port 321 to play a role in closing the discharge port 321, and the arrangement also prevents the feeding rod 340 and the box plug 350 from moving upwards excessively to deviate from the working position to cause feeding failure.

And feeding , the ingredient feeding box 300 further includes a box cover 370, an elastic member 381 and a rod cap 382, the box cover 370 covers the end of the box body 330 close to the main accommodating cavity 311, a through hole 371 is formed in the box cover 370, the feeding rod 340 passes through the through hole 371, the elastic member 381 is sleeved outside the feeding rod 340, the rod cap 382 is fixed to the end of the feeding rod 340 far from the discharge port 321, the end of the elastic member 381 abuts against the rod cap 382, and the other end of the elastic member 381 abuts against the box cover 370.

Specifically, the box cover 370 is provided with a receiving groove 372 for receiving the elastic member 381 and the rod cap 382, a through hole 371 is provided at the bottom of the receiving groove 372, the end of the elastic member 381 abuts against the rod cap 382, and the other end of the elastic member 381 abuts against the bottom of the receiving groove 372, which facilitates the installation of the elastic member 381 and the rod cap 382.

Optionally, the receiving groove 372 includes a th groove 372a and a second groove 372b which are communicated with each other, the th groove 372a and the second groove 372b are communicated with each other and are arranged along the extending direction of the material feeding rod 340, the th groove 372a is positioned above the second groove 372b, and the th groove 372a has an inner diameter larger than that of the second groove 372 b.

, as shown in FIG. 7, the ingredient-dispensing box 300 further includes a plug 373, the box cover 370 has a feed opening communicating with the main receiving cavity 311, and the plug 373 is removably mounted over the feed opening, which facilitates the supply of the ingredients in the box body 330 and prevents the ingredients in the box body 330 from spilling through the feed opening.

, the ingredient dispensing box 300 further includes a pressing drive mechanism 383 and a pressing member 384, as shown in fig. 1 and 6, the pressing drive mechanism 383 is used to drive the pressing member 384 to rotate or move so that the pressing member 384 presses the lever cap 382.

, the ingredient feeding device 10 further includes a mounting plate 600, the mounting plate 600 is disposed between the cover plate 220 and the cartridge holder 400. as shown in fig. 3, 7 and 8, the pressing member 384 is a cam, the mounting plate 600 is provided with a through groove 610 for the cam to pass through, the pressing driving mechanism 383 is fixed on the mounting plate 600, the pressing driving mechanism 383 includes a driving member 383a and a driving shaft 383b drivingly connected to the driving member 383a, the cam is sleeved on the driving shaft 383b and rotates along with the driving shaft 383b, and by rotating the cam, the intermittent pressing of the feeding lever 340 can be realized, so that the ingredients in the box body 330 continuously fall into the pot through the discharge port 321.

, the ingredient box 300 further includes a support base 385 fixed to the mounting plate 600, a cam located between the support base 385 and the driving member 383a, and an end of the driving shaft 383b remote from the driving member 383a is rotatably inserted into the support base 385. in this embodiment, an end of the driving shaft 383b remote from the driving member 383a is rotatably inserted into the support base 385 through a bearing (not shown in the drawings). the support base 385 can support the driving shaft 383b , so that the driving shaft 383b can rotate more smoothly.

In this embodiment, as shown in fig. 1, the mounting plate 600 divides the inner space of the storage box 100 into the -th cavity 171 and the second cavity 172, the -th cavity 171 is located above the second cavity 172, the pressing driving mechanism 383 and the supporting seat 385 are located in the -th cavity 171, and the ingredient putting box 300 and the cartridge holder 400 are located in the second cavity 172.

Optionally, as shown in fig. 2, the th side plate 130 is located above the mounting plate 600, and the th side plate 130 is connected to the second side plate 140, the third side plate 150, the mounting plate 600 and the top plate 160. as shown in fig. 3, the storage box 100 further includes a fourth side plate 180, and the bottom plate 110, the th side plate 130, the second side plate 140, the third side plate 150, the fourth side plate 180, the top plate 160, the movable plate 210 and the cover plate 220 enclose a closed space.

In this embodiment, the movable plate 210 is detachably engaged with the mounting plate 600, the second side plate 140, the third side plate 150 and the bottom plate 110, the mounting plate 600, the second side plate 140, the third side plate 150 and the bottom plate 110 are provided with a -th sealing member 510 at the side close to the movable plate 210, as shown in fig. 3, in another embodiment, the movable plate 210 is also detachably engaged with the top plate 160, the second side plate 140, the third side plate 150 and the bottom plate 110, when the movable plate 210 closes the opening 120, the movable plate 210 covers the -th side plate 130, and the top plate 160, the second side plate 140, the third side plate 150 and the bottom plate 110 are provided with a -th sealing member 510.

, as shown in FIGS. 6 and 7, the ingredient delivery box 300 further includes a revolution sensor 386, the revolution sensor 386 is used to detect the number of revolutions of the cam, this arrangement is convenient for timely learning the amount of material to be delivered, in this embodiment, the revolution sensor 386 may be a laser sensor, an ultrasonic sensor or other type of sensor.

Specifically, as shown in fig. 2 and 5, the outer wall of the ingredient dispensing box 300 is provided with an overlapping protrusion 331, and when the ingredient dispensing box 300 is inserted into the th locking position 410, the overlapping protrusion 331 is overlapped at the edge of the th locking position 410. optionally, the ingredient dispensing device 10 has at least two ingredient dispensing boxes 300, so that at least two ingredients can be dispensed, and the mounting plate 600 is provided with at least two th locking positions 410 and corresponds to the ingredient dispensing box 300 .

In particular, as shown in fig. 2 and 4, the cartridge holder 400 is fixed inside the movable plate 210. The magazine holder 400 and the ingredient putting box 300 can be pushed into or pulled out of the storage box 100 by pushing or pulling the sliding plate, thereby facilitating the charging and replacement of the ingredient putting box 300.

Optionally, as shown in fig. 3, the ingredient dropping device 10 further includes a th guide strip 710, a 720 th guide strip 720, a 730 th guide strip 730 and a 740 th guide strip 740, the th guide strip 710 and the 720 are fixed to the inner side of the second side plate 140, the th guide strip 710 and the 720 are spaced apart to form a th guide groove 750, the 730 th guide strip 730 and the 740 th guide strip are fixed to the inner side of the third side plate 150, the 730 th guide strip 740 is spaced apart to form a 760 th guide groove, the two opposite sides of the cartridge holder 400 are respectively inserted into the th guide groove 750 and the 760 and can slide along the th guide groove 750 and the 760 th guide groove, the arrangement can achieve the movable connection between the cartridge holder 400 and the 140 and the 150 th side plate, and the cartridge holder 150, and the structure is simple and easy to achieve.

Specifically, the -th guide strip 710 is located above the second guide strip 720, the -th guide strip 710 comprises an -th pressing portion and a second pressing portion which are connected with each other, the -th pressing portion is located on the side of the second pressing portion, which is close to the second side plate 140, the bottom surface of the -th pressing portion is located above the fourth guide strip 740 relative to the bottom surface of the second pressing portion, the bottom surface of the -th pressing portion can abut against the cartridge holder 400, the bottom surface of the second pressing portion can abut against the overlap boss 331, the third guide strip 730 is located above the fourth guide strip 740, the third guide strip 730 comprises a third pressing portion and a fourth pressing portion which are connected with each other, the third pressing portion is located on the side of the fourth side plate 150, the bottom surface of the third pressing portion is located closer to the fourth guide strip 740 relative to the bottom surface of the fourth pressing portion, the bottom surface of the third pressing portion can abut against the cartridge holder 400, the bottom surface of the fourth pressing portion can abut against the overlap boss 331, the ingredient , the mounting plate 770 can face the mounting plate 770, and the mounting plate 770 can face the mounting plate 770.

, as shown in fig. 1, the ingredient feeding device 10 further includes a drying box 800 disposed in the storage box 100, the drying box 800 is provided with a plurality of ventilation holes 810, and a drying agent is stored in the drying box 800. as shown in fig. 2 and 4, the cartridge holder 400 is provided with a second clamping portion 420, the drying box 800 is inserted in the second clamping portion 420. the drying box 800 is disposed in the relatively closed environment in the storage box 100, and can absorb moisture remaining in the storage box 100, keep the interior of the storage box 100 dry, and prevent ingredients, particularly solid ingredients such as sugar, salt, and monosodium glutamate, from being affected with moisture and deteriorating, and the drying box 800 is inserted in the cartridge holder 400, so as to be conveniently replaced, optionally, the drying agent stored in the drying box 800 is a food drying agent such as silica gel or a calcium carbonate-calcium chloride mixture, in this embodiment, the ingredient feeding boxes 300 are four and are disposed in an array, and the drying boxes 800 are and are located in the middle of the four ingredient boxes 300.

, as shown in fig. 1 and 9, the dispensing device 10 further includes a material feeding sealing assembly 900. the material feeding sealing assembly 900 includes a rotary plate 910 and a rotary driving mechanism 920. the rotary plate 910 is disposed between the material outlet 321 and the material inlet 111, the rotary plate 910 is in sealing fit with the bottom plate 110, the rotary plate 910 is provided with a communication hole 911, the rotary plate 910 can rotate until the material outlet 321, the communication hole 911 and the material inlet 111 are opposite and communicated, and the rotary driving mechanism 920 is used for driving the rotary plate 910 to rotate.

When solid ingredients are needed, the rotary driving mechanism 920 drives the rotary plate 910 to rotate until the communication hole 911 on the rotary plate 910 is opposite to and communicated with the discharge hole 321 and the feeding port 111, and the solid ingredients in the accommodating cavity 310 fall into the pot through the discharge hole 321, the communication hole 911 and the feeding port 111. When the solid ingredients are completely put in, the rotary driving mechanism 920 drives the rotary plate 910 to rotate again until the communication hole 911 is completely staggered with the discharge hole 321 and the feeding hole 111. Because the turntable 910 is hermetically matched with the bottom plate 110, the interior of the storage box 100 is in a sealed state, and water vapor can be well prevented from entering the accommodating cavity 310 through the feeding port 111 and the discharging port 321, so that the solid ingredients are kept dry, the shelf life is prolonged, and the taste and the eating safety of dishes are ensured.

In this embodiment, the rotation driving mechanism 920 is a motor. In other embodiments, the rotational drive mechanism 920 may also be a cylinder, an air cylinder, or other type of drive mechanism. Optionally, at least two communication holes 911 are provided on the turntable 910 and are disposed corresponding to the discharge hole 321 of the ingredient feeding box 300. In this embodiment, the turntable 910 is provided with four communication holes 911 and is disposed corresponding to the discharge holes 321 of the four ingredient feeding boxes 300.

, as shown in FIG. 3, the ingredient delivery device 10 further includes a second seal 520, the second seal 520 is disposed between the turntable 910 and the base plate 110, and the surface of the turntable 910 facing the base plate 110 abuts the second seal 520. this arrangement can enhance the seal between the turntable 910 and the base plate 110. optionally, the seal 510 and the second seal 520 can be silicone, rubber, or other type of seals.

Specifically, as shown in fig. 9, the feeding sealing assembly 900 further includes a rotating support 930, a th gear 940, and a second gear 950, the rotating support 930 is fixed on the bottom plate 110, the turntable 910 is sleeved on the rotating support 930 and can rotate relative to the rotating support 930, in this embodiment, the turntable 910 is rotatably sleeved on the rotating support 930 through a second bearing (not shown in the drawings), the th gear 940 is sleeved on the rotating support 930 and fixed on the turntable 910, and the second gear 950 is sleeved on the driving shaft 383b of the rotating driving mechanism 920 and is engaged with the th gear 940.

, the material feeding sealing assembly 900 further comprises a material feeding level sensor 960, wherein the material feeding level sensor 960 is used for detecting the position of the communication hole 911, the arrangement is convenient for detecting the position of the communication hole 911 and controlling the feeding, and the material feeding level sensor 960 can be a laser sensor, an ultrasonic sensor or other type of sensor.

, the feeding sealing assembly 900 further comprises a driving bracket 970, the driving bracket 970 is fixed on the rotary support 930, the driving bracket 970 is arranged above the rotary plate 910, the rotary driving mechanism 920 and the feeding level sensor 960 are both fixed on the driving bracket 970, a detection groove is arranged on the driving bracket 970, the feeding level sensor 960 is arranged opposite to the detection groove, a positioning mark 912 for marking the communication hole 911 is arranged on the rotary plate 910, the positioning mark 912 can rotate to be opposite to the detection groove, the feeding level sensor 960 is used for detecting the positioning mark 912, the driving bracket 970 can facilitate the installation of the rotary driving mechanism 920 and the feeding level sensor 960, and the feeding level sensor 960 can detect the positioning mark 912 on the rotary plate 910 through the detection groove to obtain the position of the communication hole 911.

The frying machine and the ingredient feeding device 10 at least have the following technical effects:

the ingredients are stored in the ingredients putting box 300, the ingredients putting box 300 is placed in the storage box 100, the material outlet 321 at the bottom of the ingredients putting box 300 is arranged opposite to the material inlet 111 of the storage box 100, when the material outlet 321 is communicated with the accommodating cavity 310, the ingredients in the accommodating cavity 310 fall into a pot through the material outlet 321 and the material inlet 111, so that the ingredients putting process is completed, the ingredients putting box 300 is inserted into the clamping position 410 of the ingredient box support 400, when the ingredients putting box 300 needs to be charged or replaced, the movable plate 210 is moved or rotated, so that the inside of the storage box 100 is communicated with the outside through the opening 120, the ingredient box support 400 can carry the ingredients putting box 300 to slide out of the storage box 100 through the opening 120 for charging or replacement, the operation is convenient and fast, the time and the energy of an operator are saved, and after the replacement is completed, the movable plate 210 is moved or rotated again, so that the movable.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. Device is put in to 1, kinds of batching, its characterized in that includes:

   the storage box comprises a bottom plate, a feeding port is formed in the bottom plate, and an opening is formed in the storage box;

   a movable plate movable or rotatable relative to the storage compartment, the movable plate being capable of closing the opening;

   a magazine holder with a th detent, which is slidably arranged in the storage box and can slide out of the storage box through the opening, and

   the box is put in the batching, the box card is put in the batching is located the screens, it holds the chamber to be equipped with in the box is put in the batching, the bottom that the box was put in the batching be equipped with can with hold the discharge gate that the chamber is linked together, the discharge gate can with the dog-house sets up relatively.
2. 2. The ingredient dispensing apparatus of claim 1, wherein the storage bin further comprises a th side panel, a second side panel, and a third side panel, wherein the th side panel is disposed adjacent to the second side panel and the third side panel, the second side panel is disposed opposite to the third side panel, and the opening is disposed on the th side panel.
3. 3. The ingredient delivery apparatus according to claim 2, further comprising th, second, third and fourth guide bars, wherein the th and second guide bars are fixed to the inner side of the second side plate, the th and second guide bars are spaced apart from each other to form a th guide groove, the third and fourth guide bars are fixed to the inner side of the third side plate, the third and fourth guide bars are spaced apart from each other to form a second guide groove, and opposite sides of the cartridge holder are respectively inserted into the th and second guide grooves and can slide along the th and second guide grooves.
4. 4. The ingredient dispensing device according to claim 1, further comprising a drying box disposed in the storage box, wherein the drying box is provided with a plurality of ventilation holes, the drying box is used for storing a drying agent therein, the cartridge support is provided with a second clamping position, and the drying box is inserted into the second clamping position.
5. 5. The ingredient dispensing device according to claim 1, further comprising a cover plate, wherein the storage box further comprises a top plate, the top plate is provided with an access opening, and the cover plate is used for sealing the access opening; and/or

   The magazine support is fixed on the inner side of the movable plate.
6. 6. The ingredient dispensing device according to , further comprising a sealing assembly, wherein the sealing assembly comprises a rotary disc and a rotary driving mechanism, the rotary disc is disposed between the material outlet and the material inlet, the rotary disc is in sealing engagement with the bottom plate, the rotary disc is provided with a communication hole, the rotary disc can rotate until the material outlet, the communication hole and the material inlet are opposite and communicated, and the rotary driving mechanism is used for driving the rotary disc to rotate.
7. 7. The ingredient charging device according to , wherein the ingredient charging box comprises a box body, a charging rod and a box plug, the box body has the accommodating cavity, the accommodating cavity comprises a main accommodating cavity and an auxiliary accommodating cavity which are communicated with each other, the auxiliary accommodating cavity is located below the main accommodating cavity, a communication port is formed between the main accommodating cavity and the auxiliary accommodating cavity, the discharge port is communicated with the auxiliary accommodating cavity, the charging rod is inserted into the box body, the charging rod is arranged along the direction from the main accommodating cavity to the auxiliary accommodating cavity and can move along the direction close to or away from the discharge port, the box plug is sleeved on the charging rod, the box plug comprises a closing piece and a second closing piece which are arranged at intervals along the extending direction of the charging rod, the closing piece is used for closing the discharge port, the second closing piece is used for closing the communication port, when the closes the discharge port, the main accommodating cavity is communicated with the auxiliary accommodating cavity, and when the second closing piece closes the communication port, the auxiliary accommodating cavity is communicated with the discharge port through the sealing piece.
8. 8. The ingredient dispensing device according to claim 7, further comprising a lid, an elastic member and a rod cap, wherein the lid is covered at the end of the box body close to the main accommodating cavity, the lid is provided with a through hole through which the feeding rod passes, the elastic member is sleeved outside the feeding rod, the rod cap is fixed at the end of the feeding rod far away from the discharge hole, the end of the elastic member abuts against the rod cap, and the end of the elastic member abuts against the lid.
9. 9. The ingredient dispensing apparatus according to claim 8, further comprising a pressing drive mechanism and a pressing member, wherein the pressing drive mechanism is configured to drive the pressing member to rotate or move so that the pressing member presses the lever cap.
10. A cooker of the type 10, , comprising the ingredient dispensing apparatus of any of claims of claims 1 to 9.

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