CN211520939U - Food material storage device - Google Patents

Abstract

The utility model provides an edible material storage device, which comprises an outer frame, a placing platform and an adsorption piece, wherein the placing platform is provided with a material accommodating part for placing materials; the adsorption piece is movably arranged relative to the outer frame of the placing platform; the placing platform is slidably arranged on the bottom plate of the outer frame, namely when materials need to be supplemented on the placing platform, at least part of the placing platform can be positioned outside the outer frame by sliding the placing platform to form a material supplementing state of the placing platform, or the placing platform can be completely pulled out of the outer frame to further add the materials to the containing part of the placing platform, and after the materials are added, the placing platform is slid again to be positioned in the outer frame to form a material sucking state of the placing platform, so that the feeding operation is completed; this provides great facility for adding the material to place the platform, so improved the efficiency of material loading storage to the lower problem of material loading storage mode efficiency among the prior art has been solved.

Description

Food material storage device

Technical Field

The utility model relates to an automated production field particularly, relates to an eat material storage device.

Background

The storage device is a relatively compact mechanical structure, and how to quickly and conveniently feed and discharge materials in a narrow space is one of the concerns.

In the catering industry, after the materials in the storage device are transferred, the materials cannot be supplemented to the storage device in time, the storage device needs to be recharged, and then the whole automatic production line needs to be suspended for production to wait for the feeding.

Therefore, the feeding and storing mode in the prior art is low in efficiency, and the production efficiency of the whole automatic production is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an eat material storage device to solve the lower problem of material loading storage method efficiency among the prior art.

In order to achieve the above object, the utility model provides an eat material storage device, this eat material storage device includes: an outer frame; the placing platform is provided with a containing part for placing materials; the adsorption piece is movably arranged relative to the placing platform; the placing platform is slidably arranged on the bottom plate of the outer frame, so that the placing platform is positioned in the material sucking state inside the outer frame and in the material supplementing state at least partially outside the outer frame through sliding the placing platform.

Furthermore, a material supplementing slide rail is arranged on the bottom plate of the outer frame, and a material supplementing slide block matched with the material supplementing slide rail is arranged on the placing platform, so that the placing platform can move along the material supplementing slide rail.

Furthermore, the number of the material supplementing slide rails is two, and the two material supplementing slide rails are arranged in parallel to form an accommodating space for installing the placing platform between the two material supplementing slide rails; the two sides of the placing platform are provided with material supplementing sliding blocks corresponding to the two material supplementing sliding rails.

Furthermore, the material supplementing slide rail and/or the material supplementing slide block are/is provided with a limiting part, so that the sliding range of the material supplementing slide block is limited by the limiting part.

Further, be provided with limit structure on the place the platform, limit structure encircles the portion of holding and sets up on the portion of holding to carry out spacingly to the material of placing in the portion of holding through limit structure.

Further, the food material storage device further comprises a transmission assembly, the transmission assembly is mounted on the outer frame, at least part of the transmission assembly is movably arranged, and the adsorption piece is arranged on the transmission assembly, so that the transmission assembly drives the adsorption piece to move.

Furthermore, the transmission assembly also comprises a first transmission module, and the first transmission module is provided with a first transmission slide rail and a first transmission slide block arranged on the first transmission slide rail; the adsorption piece is installed on first transmission slider, and first transmission slide rail setting extends along horizontal direction or vertical direction in the frame.

Furthermore, the transmission assembly also comprises a second transmission module, and the second transmission module is provided with a second transmission slide rail and a second transmission slide block arranged on the second transmission slide rail; the first transmission module is arranged on the second transmission slide block, the second transmission slide rail is arranged in the outer frame, and the extending direction of the second transmission slide rail is perpendicular to the extending direction of the first transmission slide rail.

Furthermore, the transmission assembly also comprises a third transmission module, and the third transmission module is provided with a third transmission slide rail and a third transmission slide block arranged on the third transmission slide rail; the third transmission slide rail is arranged on the outer frame, the second transmission module is arranged on the third transmission slide block, and the extension direction of the third transmission slide rail is respectively perpendicular to the extension direction of the first transmission slide rail and the extension direction of the second transmission slide rail.

Further, a discharge port is arranged on the bottom plate and located on one side of the placing platform, so that the adsorbing piece can throw adsorbed materials to the discharge port.

By applying the technical scheme of the utility model, the food material storage device comprises an outer frame, a placing platform and an adsorption piece, wherein the placing platform is provided with a material accommodating part for placing materials; the adsorption piece is movably arranged relative to the placing platform; the placing platform is slidably arranged on a bottom plate of the outer frame, so that the placing platform has a material sucking state positioned inside the outer frame and a material supplementing state that at least part of the placing platform is positioned outside the outer frame through sliding the placing platform, namely when the material needs to be supplemented on the placing platform, at least part of the placing platform can be positioned outside the outer frame through sliding the placing platform to form the material supplementing state of the placing platform, or the placing platform can be completely pulled out of the outer frame to add the material into a containing part of the placing platform, and after the material is added, the placing platform is slid again to be positioned inside the outer frame to form the material sucking state of the placing platform, so that the feeding operation is completed; this provides great facility for adding the material to place the platform, so improved the efficiency of material loading storage to the lower problem of material loading storage mode efficiency among the prior art has been solved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic structural view of an edible material storage device according to an embodiment of the present invention;

fig. 2 shows a schematic structural view from another perspective of the food material storage apparatus of fig. 1;

fig. 3 shows an enlarged schematic view at B of the food material storage apparatus in fig. 2;

fig. 4 shows a schematic view of a matching structure between a placing platform and a feeding slide rail 402 of the food material storage device in fig. 1;

fig. 5 shows an enlarged schematic view at a of the matching structure between the placement platform and the feeding slide rail 402 of the food material storage device in fig. 4.

Wherein the figures include the following reference numerals:

400. a food material storage device;

401. an outer frame; 4011. a base plate; 4012. a feeding gate; 404. material preparation; 410. a discharge port;

402. a material supplementing slide rail; 4023. a slide rail groove;

403. placing a platform; 4031. an accommodating portion; 4032. a platform body; 4033. a material supplementing slide block; 4034. a carriage; 4035. a ball bearing; 4036. a limiting rod;

405. an adsorbing member; 4051. a connecting plate; 406. a detection section;

407. a first transmission module; 408. a second transmission module; 409. a third transmission module.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The utility model provides an edible material storage device 400, please refer to fig. 1 to 5, the edible material storage device 400 includes an outer frame 401, a placing platform 403 and an adsorption piece 405, the placing platform 403 has a material containing part 4031 for placing a material 404; the suction member 405 is movably disposed with respect to the placing platform 403; wherein, the placing platform 403 is slidably disposed on the bottom plate 4011 of the outer frame 401, so that the placing platform 403 has a material sucking state positioned inside the outer frame 401 and a material supplementing state of at least a portion of the placing platform 403 located outside the outer frame 401 by sliding the placing platform 403.

In the utility model discloses an among the food material storage device 400, place the platform 403 can slide relative to the bottom plate 4011 of frame 401, when needing to supply material 404 to place the platform 403, the accessible is slided place the platform 403 and is made its at least part be located the frame 401 outside to form the feed supplement state of place the platform 403, or also can take away place the platform 403 completely outside frame 401, and then add material 404 to the portion 4031 of holding the platform 403, after the material 404 adds and accomplishes, place the platform 403 that slides again makes it fix a position inside the frame 401, so as to form the material suction state of place the platform 403, and then accomplish the material loading operation; this provides great convenience for adding the material 404 to the placing platform 403, so that the efficiency of loading and storage is improved, and the problem of low efficiency of the loading and storage mode in the prior art is solved; in addition, in the blanking process, since the suction member 405 can move relative to the outer frame 401, that is, the suction member 405 can move relative to the placing platform 403, the suction member 405 can be moved to a corresponding position of the placing platform 403 to suck the material 404 placed in the accommodating portion 4031, and after the material 404 is sucked, the suction member 405 is moved to a desired position again, so that the blanking operation is realized. It can be seen that, compared with the way of clamping the material by using clamping members such as a manipulator in the prior art, the food material storage device 400 carries the material 404 by using the way of adsorbing the material 404, which can effectively prevent the manipulator from damaging or deforming the material in the carrying process for the material made of flexible material, such as bread.

In order to realize the sliding arrangement between the placing platform 403 and the bottom plate 4011 of the outer frame 401, the bottom plate 4011 of the outer frame 401 is provided with a material supplementing slide rail 402, and the placing platform 403 is provided with a material supplementing slide block 4033 matched with the material supplementing slide rail 402, so that the placing platform 403 moves along the material supplementing slide rail 402; that is, under the cooperation of the feeding slide rail 402 and the feeding slide 4033, the feeding slide 4033 drives the placing platform 403 to move along the feeding slide rail 402.

Specifically, in the embodiment not shown in the figure, the bottom of the placing platform is provided with a plurality of balls, and the plurality of balls are all in contact with the bottom plate of the outer frame, so that the placing platform can slide relative to the outer frame through the plurality of balls.

One implementation of the feed shoe 402 and feed slide 4033 is as follows: two feeding slide rails 402 are arranged in parallel, so that an accommodating space for installing a placing platform 403 is formed between the two feeding slide rails 402; the two feeding sliders 4033 corresponding to the two feeding slide rails 402 are disposed on two sides of the placing platform 403, so that the placing platform 403 can slide relatively stably relative to the feeding slide rails 402. Alternatively, two feed sliders 4033 are provided on each side of the platform body 4032 in the longitudinal direction thereof.

Specifically, the placing platform 403 includes a platform body 4032, and the feeding slider 4033 is disposed on the platform body 4032; optionally, the platform body 4032 is a rectangular plate, and the feeding slider 4033 is arranged on a side edge of the rectangular plate; the platform body 4032 has a plurality of receiving portions 4031 at intervals on the upper portion thereof, and in this embodiment, the receiving portions 4031 are receiving grooves for placing the material 404 therein; optionally, the receiving groove is a circular groove.

In order to realize the matching between the feeding slide 4033 and the feeding slide 402, as shown in fig. 4 and 5, a slide groove 4023 is arranged on the feeding slide 402, and the feeding slide 4033 is slidably mounted in the slide groove 4023; the feed supplementing slide 4033 is provided with a sliding frame 4034, the sliding frame 4034 is provided with a ball 4035, and the feed supplementing slide 4033 is in contact with the inner wall of the sliding rail groove 4023 through the ball 4035. Optionally, the upper and lower portions of the carriage 4034 are provided with balls 4035, so that the upper and lower portions of the carriage 4034 slide against the top and bottom inner walls of the feed shoe groove 4023 by the respective balls 4035 to ensure a sliding effect between the feed shoe 4033 and the feed shoe 402. In order to make the representation of the sliding frame and the rolling ball 4035 more clear, the two structures are shown at the end of the feed slide 4033 in fig. 4 and 5, and in fact, the sliding frame and the rolling ball are hidden in the slide groove 4023.

Preferably, each of upper and lower portions of the carriage 4034 is provided with a plurality of rolling balls 4035, the plurality of rolling balls 4035 of the upper portion of the carriage 4034 are arranged in order in the extending direction of the carriage 4034, and the plurality of rolling balls 4035 of the lower portion of the carriage 4034 are arranged in order in the extending direction of the carriage 4034.

Specifically, the feeding slide rail 402 and the feeding slide block 4033 are both bar-shaped structures, a plurality of sliding frames 4034 are arranged on the feeding slide block 4033 at intervals along the extending direction of the feeding slide block 4033, so as to ensure the sliding effect between the feeding slide block 4033 and the feeding slide rail 402.

Alternatively, in an embodiment not shown in the drawings, another implementation manner of the feeding slide rail and the feeding slider is as follows: the material supplementing slide block is arranged above the material supplementing slide rail, and a ball is arranged between the material supplementing slide block and the material supplementing slide rail so that the material supplementing slide block can slide along the material supplementing slide rail through the ball; the placing platform is arranged above the material supplementing slide block so that the material supplementing slide block drives the placing platform to slide relative to the material supplementing slide rail.

In this embodiment, the feeding slide rail 402 and/or the feeding slide 4033 are provided with a limiting portion, so that the sliding range of the feeding slide 4033 is limited by the limiting portion. Optionally, both ends of the feeding slide rail 402 are provided with a limiting portion, so that when the feeding slide 4033 abuts against the limiting portion, the limiting portion performs a retaining action on the feeding slide 4033, so that the feeding slide 4033 slides within the length range of the feeding slide rail 402, that is, the moving range of the placing platform 403 is limited. Specifically, the limiting part is of a plate-shaped structure.

In this embodiment, the placing platform 403 is provided with a limiting structure, which is arranged around and/or on the receiving portion 4031 to limit the material placed in the receiving portion 4031 by the limiting structure. The limit structure of the accommodating part 4031 not only can play a role in indicating and guiding the stacking of the materials 404, but also can provide an indicating and guiding role in fixed-point taking and placing of the adsorbing part 405, thereby being beneficial to program control; in addition, when a plurality of materials 404 are stacked on the accommodating portion 4031, the limit structure of the accommodating portion 4031 can also prevent the stacked materials 404 from toppling over.

In a specific implementation process, the number of the limiting structures is multiple, and the multiple limiting structures and the multiple accommodating portions 4031 are arranged in a one-to-one correspondence manner, so that the limiting structures form a limiting stop function on the material 404 placed in the corresponding accommodating portions 4031. Specifically, each of the retaining structures includes a plurality of retaining beams 4036, and the plurality of retaining beams 4036 are spaced around the periphery of the corresponding receptacle 4031.

In order to realize the relative movement between the absorbing member 405 and the outer frame 401, the food material storage device 400 further includes a transmission assembly, the transmission assembly is mounted on the outer frame 401, at least a portion of the transmission assembly is movably disposed, and the absorbing member 405 is disposed on the transmission assembly, so that the transmission assembly drives the absorbing member 405 to move.

Specifically, the transmission assembly includes a first transmission module 407, and the first transmission module 407 has a first transmission slide rail and a first transmission slide block disposed on the first transmission slide rail; the adsorption member 405 is mounted on a first transmission slide block, and a first transmission slide rail is arranged in the outer frame 401 and extends in the horizontal direction or the vertical direction; so that the adsorption member 405 moves along the extending direction of the first transmission slide rail when the first transmission slide block slides along the first transmission slide rail. In the present embodiment, the first transmission module 407 is a cylinder.

Specifically, the transmission assembly further includes a second transmission module 408, and the second transmission module 408 has a second transmission slide rail and a second transmission slide block disposed on the second transmission slide rail; the first transmission module 407 is disposed on the second transmission slide block, the second transmission slide rail is disposed in the outer frame 401, and the extending direction of the second transmission slide rail is perpendicular to the extending direction of the first transmission slide rail; when the second transmission slide block slides along the second transmission slide rail, the first transmission module 407 disposed on the second transmission slide block drives the absorption member 405 to move along the extending direction of the second transmission slide rail. Optionally, the first drive slide extends in a horizontal direction and the second drive slide extends in a vertical direction.

Specifically, the transmission assembly further includes a third transmission module 409, and the third transmission module 409 has a third transmission slide rail and a third transmission slide block disposed on the third transmission slide rail; the third transmission slide rail is arranged on the outer frame 401, the second transmission module 408 is arranged on the third transmission slide block, and the extending direction of the third transmission slide rail is perpendicular to the extending direction of the first transmission slide rail and the extending direction of the second transmission slide rail; when the third transmission slide block slides along the third transmission slide rail, the second transmission module 408 disposed on the third transmission slide block drives the first transmission module 407 and the adsorption member 405 to move along the extending direction of the third transmission slide rail.

The extending direction of the first transmission slide rail is the X direction, the extending direction of the second transmission slide rail is the Y direction, and the extending direction of the third transmission slide rail is the Z direction, so that the movement of the adsorption piece 405 in the X direction, the Y direction and the Z direction can be realized through the first transmission module 407, the second transmission module 408 and the third transmission module 409, and further the adsorption piece 405 can reach different positions of the placing platform 403 to absorb the materials 404 at different positions on the placing platform 403; optionally, the adsorbing member 405 is moved above the material 404 to be adsorbed by the first transmission module 407, the second transmission module 408 and the third transmission module 409; after the material 404 is sucked, the material 404 is transported by the suction member 405 through the first transmission module 407, the second transmission module 408 and the third transmission module 409. Optionally, the suction member 405 is a suction cup.

In order to detect whether there is a material 404 on the placing platform 403, as shown in fig. 3, the food material storage device 400 further includes a detecting component 406, and a detecting head of the detecting component 406 is disposed toward the placing platform 403; optionally, the detecting component 406 is a photoelectric sensor, so as to detect whether there is the material 404 on the placing platform 403 by a photoelectric signal sent by the photoelectric sensor.

In this embodiment, the food material storage device 400 further includes a connection plate 4051, the connection plate 4051 is fixed on the first transmission slider, and the absorption member 405 is installed on the connection plate 4051, so that the absorption member 405 and the first transmission slider are assembled through the connection plate 4051; the detecting unit 406 is disposed on the connecting plate 4051, and when the adsorbing member 405 moves above the placing platform 403, the detecting unit 406 detects whether there is the material 404 on the placing platform 403.

In order to improve the space utilization of the food material storage apparatus 400, a plurality of placing platforms 403 are provided, and the plurality of placing platforms 403 are arranged along the extending direction of the bottom plate 4011; two sides of each placing platform 403 are provided with feeding slide rails 402; wherein, the extending direction of each feeding slide rail 402 is perpendicular to the extending direction of the bottom plate 4011.

In order to further improve the blanking efficiency, a plurality of adsorbing members 405 are provided, and the plurality of adsorbing members 405 and the plurality of placing platforms 403 are arranged in a one-to-one correspondence manner; correspondingly, a plurality of transmission assemblies are provided, and the plurality of transmission assemblies and the plurality of adsorption members 405 are arranged in one-to-one correspondence; the number of the detecting components 406 is plural, and the detecting components 406 and the placing platforms 403 are arranged in a one-to-one correspondence manner, that is, each detecting component 406 is respectively arranged on the first transmission slide block of the first transmission module 407 of the corresponding transmission assembly to detect whether there is a material 404 on the corresponding placing platform 403.

Specifically, a discharge port 410 is provided on the bottom plate 4011, and the discharge port 410 is located at one side of the placing platform 403, so that the adsorbing member 405 feeds the adsorbed material 404 to the discharge port 410. In this embodiment, there are a plurality of discharge ports 410, the plurality of discharge ports 410 are disposed in one-to-one correspondence with the plurality of placing platforms 403, and each discharge port 410 is disposed at one side of the corresponding placing platform 403; wherein, one side of the placing platform 403 may be the left side or the right side of the placing platform 403. It is to be noted that "left side" and "right side" mentioned herein refer to both sides in the sliding direction of the placing platform 403.

Specifically, a guide plate is arranged at the discharge port 410, the guide plate is arranged in an inclined manner, so that when the adsorbing member 405 moves the material 404 to the position above the discharge port 410, the adsorbing member 405 releases the material 404, and the material 404 slides to a required position along the inclined direction of the guide plate under the action of the gravity of the material 404, so that the blanking is completed. In this embodiment, the number of the guide plates is plural, and the plurality of guide plates and the plurality of discharging holes 410 are arranged in a one-to-one correspondence.

In this embodiment, the food material storing apparatus 400 further comprises a loading door 4012, the loading door 4012 is movably installed on the outer frame 401 to open or close the loading door 4012; optionally, the loading door 4012 is located on a side of the outer frame 401 facing away from the discharge hole 410.

Specifically, the loading doors 4012 are two, and both the loading doors 4012 are slidably disposed on the outer frame 401 so as to be in an open or closed state by pushing the loading doors 4012; alternatively, both the loading doors 4012 are hinged to the outer frame 401 to be opened or closed by rotating the loading doors 4012.

From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects:

in the food material storage device 400 of the present invention, the food material storage device 400 includes an outer frame 401, a placing platform 403 and an adsorbing member 405, the placing platform 403 has a material accommodating portion 4031 for placing a material 404; the suction member 405 is movably disposed with respect to the placing platform 403; the placing platform 403 is slidably disposed on the bottom plate 4011 of the outer frame 401, so that the placing platform 403 has a material sucking state located inside the outer frame 401 and a material supplementing state where at least a part of the placing platform 403 is located outside the outer frame 401 by sliding the placing platform 403, that is, when the material 404 needs to be supplemented on the placing platform 403, the placing platform 403 can be at least partially located outside the outer frame 401 by sliding the placing platform 403 to form the material supplementing state of the placing platform 403, or the placing platform 403 can be completely withdrawn outside the outer frame 401, and then the material 404 is added to the accommodating portion 4031 of the placing platform 403, and after the material 404 is added, the placing platform 403 is slid to be located inside the outer frame 401, so that the material sucking state of the placing platform 403 is formed, and then the material loading operation is completed; this provides great convenience for adding the material 404 to the placing platform 403, so that the efficiency of loading and storage is improved, and the problem of low efficiency of the loading and storage mode in the prior art is solved; in addition, in the blanking process, since the suction member 405 can move relative to the outer frame 401, that is, the suction member 405 can move relative to the placing platform 403, the suction member 405 can be moved to a corresponding position of the placing platform 403 to suck the material 404 placed in the accommodating portion 4031, and after the material 404 is sucked, the suction member 405 is moved to a desired position again, so that the blanking operation is realized. It can be seen that, compared with the way of clamping the material by using clamping members such as a manipulator in the prior art, the food material storage device 400 carries the material 404 by using the way of adsorbing the material 404, which can effectively prevent the manipulator from damaging or deforming the material in the carrying process for the material made of flexible material, such as bread. Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (10)

1. An edible material storage device, comprising:

an outer frame (401);

a placement platform (403), the placement platform (403) having a receptacle (4031) for placing a material;

a suction member (405), the suction member (405) being movably arranged with respect to the placement platform (403);

wherein the placing platform (403) is slidably arranged on a bottom plate (4011) of the outer frame (401) so that the placing platform (403) has a material sucking state positioned inside the outer frame (401) and a material supplementing state of at least part of the placing platform (403) positioned outside the outer frame (401) by sliding the placing platform (403).

2. Food material storage device as claimed in claim 1, wherein a feeding slide rail (402) is arranged on the bottom plate (4011) of the outer frame (401), and a feeding slide block (4033) matched with the feeding slide rail (402) is arranged on the placing platform (403) so that the placing platform (403) moves along the feeding slide rail (402).

3. The food material storage device as claimed in claim 2, wherein the number of the feeding slide rails (402) is two, and the two feeding slide rails (402) are arranged in parallel to form a containing space for installing the placing platform (403) between the two feeding slide rails (402); the two sides of the placing platform (403) are provided with the feeding sliding blocks (4033) corresponding to the two feeding sliding rails (402).

4. Food material storage device as claimed in claim 2, wherein a limiting part is arranged on the feeding slide rail (402) and/or the feeding slide block (4033) to limit the sliding range of the feeding slide block (4033) by the limiting part.

5. Food material storage device as claimed in claim 1, wherein a limiting structure is arranged on the placing platform (403), wherein the limiting structure is arranged around and/or on the receptacle (4031) to limit the material placed in the receptacle (4031) by the limiting structure.

6. The food material storage device of claim 1, 2, 3, 4 or 5, further comprising:

the transmission assembly is arranged on the outer frame (401), at least part of the transmission assembly is movably arranged, and the adsorption piece (405) is arranged on the transmission assembly, so that the transmission assembly drives the adsorption piece (405) to move.

7. The food material storage device of claim 6, wherein the transmission assembly comprises:

the first transmission module (407) is provided with a first transmission slide rail and a first transmission slide block arranged on the first transmission slide rail; the adsorption piece (405) is installed on the first transmission slide block, and the first transmission slide rail is arranged in the outer frame (401) and extends along the horizontal direction or the vertical direction.

8. The food material storage device of claim 7, wherein the transmission assembly further comprises:

the second transmission module (408) is provided with a second transmission slide rail and a second transmission slide block arranged on the second transmission slide rail; the first transmission module (407) is arranged on the second transmission slide block, the second transmission slide rail is arranged in the outer frame (401), and the extending direction of the second transmission slide rail is perpendicular to the extending direction of the first transmission slide rail.

9. The food material storage device of claim 8, wherein the transmission assembly further comprises:

a third transmission module (409), wherein the third transmission module (409) is provided with a third transmission slide rail and a third transmission slide block arranged on the third transmission slide rail; the third transmission slide rail is arranged on the outer frame (401), the second transmission module (408) is arranged on the third transmission slide block, and the extension direction of the third transmission slide rail is respectively perpendicular to the extension direction of the first transmission slide rail and the extension direction of the second transmission slide rail.

10. The food material storage device as claimed in claim 1, wherein a discharge port (410) is provided on the bottom plate (4011), and the discharge port (410) is located at one side of the placing platform (403), so that the adsorbing member (405) can feed the adsorbed material to the discharge port (410).

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