CN112850110A - Buffer memory conveying device - Google Patents

Abstract

The invention provides a buffer conveying device, which comprises: a frame; the conveying mechanism is arranged on the rack, and a conveying part of the conveying mechanism conveys along the horizontal direction; the buffer storage frame is movably arranged on the rack along the height direction of the rack, at least part of the buffer storage frame is positioned at the side part of the conveying part, one side of the buffer storage frame, which is close to the conveying part, is provided with a plurality of supporting structures, and the plurality of supporting structures are arranged at intervals along the height direction of the buffer storage frame; each support structure all has the buffer memory position with the relative setting of conveying part to make conveying part transport the material to each support structure on. The technical problem that a conveying device in the prior art is inconvenient to separate stacked cache materials is solved.

Description

Buffer memory conveying device

Technical Field

The invention relates to the technical field of cache conveying equipment, in particular to a cache conveying device.

Background

At present, the conveyor among the prior art is generally used for carrying the material to be convenient for with material automatic transportation to assigned position department. In the working process of the conveying device, when the work station before the conveying line does not finish the operation, the materials are required to be kept at the waiting work station for a certain time, and at the moment, the conveying device can only stop conveying. Thus, the conveying device stops working, and the conveying efficiency of the conveying device is affected.

In addition, even if the conveying device in the prior art can buffer, the conveying device can only buffer and store a pile of materials, and cannot separately buffer and store the materials, so that the subsequent stations are inconvenient to take and place.

Disclosure of Invention

The invention mainly aims to provide a buffer conveying device to solve the technical problem that a conveying device in the prior art is inconvenient to separate stacked buffer materials.

In order to achieve the above object, the present invention provides a buffer conveyance device, including: a frame; the conveying mechanism is arranged on the rack, and a conveying part of the conveying mechanism conveys along the horizontal direction; the buffer storage frame is movably arranged on the rack along the height direction of the rack, at least part of the buffer storage frame is positioned at the side part of the conveying part, one side of the buffer storage frame, which is close to the conveying part, is provided with a plurality of supporting structures, and the plurality of supporting structures are arranged at intervals along the height direction of the buffer storage frame; each support structure all has the buffer memory position with the relative setting of conveying part to make conveying part transport the material to each support structure on.

Further, buffer memory frame includes first support body and second support body, and first support body and second support body interval set up, and conveying part sets up between first support body and second support body, and bearing structure includes: first backup pad and second backup pad, first backup pad setting is on first support body, and the second backup pad setting is on the second support body, and first backup pad and second backup pad set up relatively.

Furthermore, the first supporting plates are arranged at intervals along the conveying direction of the conveying part; the second backup pad is a plurality of, and a plurality of second backup pads set up along the direction of delivery of conveying portion interval, and a plurality of second backup pads set up with a plurality of first backup pads one-to-one, and each second backup pad sets up with corresponding first backup pad relatively.

Furthermore, the first frame body comprises a plurality of first supporting ribs which are arranged at intervals along the conveying direction of the conveying part, and a plurality of first supporting plates are arranged on each first supporting rib; and/or the second support body comprises a plurality of second supporting ribs which are arranged at intervals along the conveying direction of the conveying part, and a plurality of second supporting plates are arranged on each second supporting rib.

Further, the conveying section includes: first drive assembly and second drive assembly, first drive assembly and second drive assembly interval set up, and the transmission portion of first drive assembly and second drive assembly transmission portion all are located between first support body and the second support body.

Further, the transmission part of the first transmission assembly includes: the conveying device comprises a first input conveying belt assembly, a first conveying roller and a first output conveying belt assembly, wherein the first input conveying belt assembly, the first conveying roller and the first output conveying belt assembly are arranged at intervals along the conveying direction of a conveying part.

Further, the first transmission assembly further comprises: and the driving wheel of the first input transmission belt assembly, the first driving roller and the driving wheel of the first output transmission belt assembly are synchronously connected through the synchronous belt pulley assembly.

Further, conveying mechanism still includes first loading board, and first input drive belt subassembly, first drive roller and first output drive belt subassembly all set up the opposite side at first loading board, and the synchronous pulley subassembly sets up the opposite side at first loading board.

Furthermore, the first frame body comprises a plurality of first supporting ribs arranged at intervals, and at least part of the supporting structure is arranged on the first supporting ribs; a first supporting rib is arranged between the first input transmission belt assembly and the first transmission roller; and/or a first supporting rib is arranged between the first transmission roller and the first output transmission belt component.

Further, be provided with the guide way on the first loading board, the guide way is a plurality of, and a plurality of guide ways all extend along the direction of height of first loading board, and first support rib is a plurality of, and a plurality of first support rib set up with a plurality of guide ways one-to-one, and the movably setting of each first support rib is in corresponding guide way.

By applying the technical scheme of the invention, when the tooling plate is only required to be conveyed, the tooling plate only needs to be conveyed through the conveying part. When needs buffer memory to the frock board, carry the frock board to bearing structure on through transport portion to support the frock board through bearing structure, afterwards, remove the buffer memory frame so that another bearing structure moves to buffer memory position department, thereby be convenient for carry another frock board to another bearing structure on, it can to buffer memory in proper order. By adopting the structure, the buffer memory can be conveniently carried out on the plurality of tooling plates, and each tooling plate can be conveniently and separately stored, so that the tooling plates can be conveniently taken and placed in the subsequent process, the operation is convenient, and the working efficiency is improved. Therefore, through the conveyor that this embodiment provided, can solve the conveyor among the prior art and be not convenient for the technical problem who separately the buffer memory material of piling.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, 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 is a schematic structural diagram of a buffer conveyance device provided in an embodiment of the present invention;

fig. 2 is a partial schematic structural diagram of a buffer conveyance device provided according to an embodiment of the present invention;

fig. 3 shows a front view of a buffer conveyance device provided according to an embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. a frame; 21. a conveying section; 211. a first transmission assembly; 2111. a first input drive belt assembly; 2112. a first drive roller; 2113. a first output belt assembly; 2114. a synchronous pulley assembly; 212. a second transmission assembly; 22. a first bearing plate; 30. a cache shelf; 31. a first frame body; 311. a first support rib; 32. a second frame body; 321. a second support rib; 33. a first support plate; 34. a second support plate.

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 embodiments with reference to the attached drawings.

As shown in fig. 1 to 3, the present invention provides a buffer conveyance device including a frame 10, a conveyance mechanism, and a buffer frame 30. The conveying mechanism is provided on the frame 10, and a conveying portion 21 of the conveying mechanism conveys in a horizontal direction. The buffer storage rack 30 is movably arranged on the machine frame 10 along the height direction of the machine frame 10, at least part of the buffer storage rack 30 is arranged at the side part of the conveying part 21, one side of the buffer storage rack 30 close to the conveying part 21 is provided with a plurality of supporting structures, and the supporting structures are arranged at intervals along the height direction of the buffer storage rack 30. Each support structure has a buffer position arranged opposite to the conveyor 21 so that the conveyor 21 transports the material onto each support structure. Specifically, the buffer conveying device in this embodiment is used for conveying and buffering plate-like objects, and specifically, the buffer conveying device in this embodiment may be used for conveying and buffering tooling plates.

With the conveying device provided in this embodiment, when only the tool plate needs to be conveyed, only the tool plate needs to be conveyed by the conveying portion 21. When the frock board needs to be cached, carry the frock board to bearing structure on through transport portion 21 to support the frock board through bearing structure, afterwards, remove and cache frame 30 so that another bearing structure moves to cache position department, thereby be convenient for carry another frock board to another bearing structure on, it can to cache in proper order. By adopting the structure, the buffer memory can be conveniently carried out on the plurality of tooling plates, and each tooling plate can be conveniently and separately stored, so that the tooling plates can be conveniently taken and placed in the subsequent process, the operation is convenient, and the working efficiency is improved. Therefore, through the conveyor that this embodiment provided, can solve the conveyor among the prior art and be not convenient for the technical problem who separately the buffer memory material of piling.

In addition, after buffering, when the frock board on the buffer memory frame 30 needs to be carried again, can be once more through buffer memory frame 30 and conveying mechanism's cooperation to make each bearing structure move to the buffer memory position department that corresponds with conveying part 21, so that conveying part 21 transports the frock board on each bearing structure in proper order, thereby can collect buffer memory and transport as an organic whole, be convenient for transport. And conveying mechanism and buffer memory frame in this embodiment are the structure of cross arrangement, compare in the separate independent structure among the prior art, the structure in this embodiment can effectively reduce occupation space, the miniaturized design of being convenient for.

In this embodiment, the buffer frame 30 includes a first frame 31 and a second frame 32, the first frame 31 and the second frame 32 are disposed at an interval, and the conveying portion 21 is disposed between the first frame 31 and the second frame 32. The supporting structure includes a first supporting plate 33 and a second supporting plate 34, the first supporting plate 33 is disposed on the first frame body 31, the second supporting plate 34 is disposed on the second frame body 32, and the first supporting plate 33 and the second supporting plate 34 are oppositely disposed. By adopting the structure, the supporting stability of the supporting structure can be improved conveniently, and meanwhile, the influence of the buffer storage frame 30 on the conveying part 21 can be avoided by arranging the first frame body 31 and the second frame body 32 at intervals, so that the conveying part 21 can convey smoothly.

Specifically, the first support plate 33 in the present embodiment is plural, and the plural first support plates 33 are provided at intervals in the conveying direction of the conveying section 21. The number of the second support plates 34 is plural, the plural second support plates 34 are arranged at intervals along the conveying direction of the conveying part 21, the plural second support plates 34 are arranged in one-to-one correspondence with the plural first support plates 33, and each second support plate 34 is arranged opposite to the corresponding first support plate 33. By adopting the structure, the supporting stability of the tooling plate can be improved conveniently, and the conveying stability can be improved conveniently.

Specifically, the first frame body 31 includes a plurality of first support ribs 311, the plurality of first support ribs 311 are arranged at intervals along the conveying direction of the conveying part 21, and a plurality of first support plates 33 are arranged on each first support rib 311. Or, the second frame body 32 includes a plurality of second supporting ribs 321, the plurality of second supporting ribs 321 are arranged at intervals along the conveying direction of the conveying portion 21, and each second supporting rib 321 is provided with a plurality of second supporting plates 34. Or, the first frame body 31 includes a plurality of first supporting ribs 311, the plurality of first supporting ribs 311 are arranged at intervals along the conveying direction of the conveying part 21, and each first supporting rib 311 is provided with a plurality of first supporting plates 33; the second frame body 32 includes a plurality of second supporting ribs 321, the plurality of second supporting ribs 321 are arranged at intervals along the conveying direction of the conveying part 21, and each second supporting rib 321 is provided with a plurality of second supporting plates 34.

In this embodiment, the first frame body 31 includes a plurality of first supporting ribs 311, the plurality of first supporting ribs 311 are arranged at intervals along the conveying direction of the conveying portion 21, and each first supporting rib 311 is provided with a plurality of first supporting plates 33; the second frame body 32 includes a plurality of second supporting ribs 321, the plurality of second supporting ribs 321 are arranged at intervals along the conveying direction of the conveying part 21, and each second supporting rib 321 is provided with a plurality of second supporting plates 34. Adopt such structure setting, can be convenient for further improve bearing structure's support stability, simultaneously through the first support rib 311 that sets up a plurality of intervals and the second support rib 321 that a plurality of intervals set up, can dodge conveying part 21 better like this to improve the stability of carrying.

Specifically, the conveying portion 21 in this embodiment includes a first transmission assembly 211 and a second transmission assembly 212, the first transmission assembly 211 and the second transmission assembly 212 are disposed at an interval, and the transmission portion of the first transmission assembly 211 and the transmission portion of the second transmission assembly 212 are both located between the first frame body 31 and the second frame body 32. With such a structure, the stability of conveying can be improved conveniently, so that the tooling plate can be conveyed to the corresponding supporting structure smoothly through the conveying part 21.

In this embodiment, the transmission portion of the first transmission assembly 211 includes a first input belt assembly 2111, a first transmission roller 2112 and a first output belt assembly 2113, and the first input belt assembly 2111, the first transmission roller 2112 and the first output belt assembly 2113 are disposed at intervals in the conveying direction of the conveying portion 21. By adopting the structure, avoidance can be facilitated by arranging the structure at intervals, so that the movement space of the supporting structure is increased, and the supporting structures can sequentially support the tooling plates. The structure is compact, the structural layout is optimized, and the miniaturization design is facilitated.

Specifically, in the present embodiment, the number of the first transmission rollers 2112 is plural, the plural first transmission rollers 2112 are provided at intervals along the conveying direction of the conveying portion 21, and the plural first transmission rollers 2112 are each provided between the first input belt assembly 2111 and the first output belt assembly 2113. By adopting the structure, the conveying stability of the tooling plate can be further improved, so that the supporting structure can stably support the tooling plate.

Specifically, the first transmission assembly 211 in this embodiment further includes a driving portion, and the driving portion is connected to the transmission portion to drive the transmission portion to perform transmission through the driving portion. Preferably, in the present embodiment, the driving portion and the transmission portion may be separately disposed, so as to avoid the influence of the driving portion on the transmission of the transmission portion, and optimize the structural layout.

Preferably, the driving portion in this embodiment is a synchronous pulley assembly 2114, and the driving wheel of the first input belt assembly 2111, the first driving roller 2112 and the driving wheel of the first output belt assembly 2113 are synchronously connected by the synchronous pulley assembly 2114. By adopting the structure, the first input transmission belt assembly 2111, the first transmission roller 2112 (one or more) and the first output transmission belt assembly 2113 can move synchronously, and the structures can be driven to move synchronously by one driving piece, so that the number of the driving pieces is reduced, and the production cost is reduced.

The synchronous pulley assembly 2114 in this embodiment includes a synchronous belt, a plurality of synchronous pulleys, and a plurality of tension pulleys. In this embodiment, the plurality of timing pulleys are connected to the pulleys of the first input belt assembly 2111, the first driving roller 2112 and the first output belt assembly 2113, and the timing pulleys are wound around the plurality of timing pulleys and the plurality of tension pulleys, and are tensioned by the plurality of tension pulleys, thereby improving the stability of synchronous motion.

In this embodiment, the conveying mechanism further includes a first loading plate 22, the first input belt assembly 2111, the first transmission roller 2112 and the first output belt assembly 2113 are all disposed on one side of the first loading plate 22, and the synchronous belt assembly 2114 is disposed on the other side of the first loading plate 22. By adopting the structure, the compactness of the structural layout can be conveniently improved, and the structural layout is optimized. In addition, the above configuration can avoid the influence of the timing pulley assembly 2114 on the conveyance of the conveying section 21, the support of the support structure, and the influence of the vertical movement, and is also advantageous for the miniaturization design.

Specifically, the first frame 31 in this embodiment includes a plurality of first supporting ribs 311 disposed at intervals, and at least a portion of the supporting structure is disposed on the first supporting ribs 311. A first support rib 311 may be disposed between the first input belt assembly 2111 and the first drive roller 2112. Alternatively, a first support rib 311 may be provided between the first drive roller 2112 and the first output belt assembly 2113. Alternatively, a first support rib 311 is disposed between the first input belt assembly 2111 and the first drive roller 2112; a first support rib 311 is disposed between the first drive roller 2112 and the first output belt assembly 2113.

Preferably, in this embodiment, a first support rib 311 is provided between the first input belt assembly 2111 and the first drive roller 2112, and a first support rib 311 is provided between the first drive roller 2112 and the first output belt assembly 2113. With such a structural arrangement, at least part of the support structure can be arranged on each first support rib 311, so that the support stability of the support structure can be improved conveniently.

In this embodiment, be provided with the guide way on the first loading board 22, the guide way is a plurality of, and a plurality of guide ways all extend along the direction of height of first loading board 22, and first support rib 311 is a plurality of, and a plurality of first support rib 311 sets up with a plurality of guide ways one-to-one, and the movably setting of each first support rib 311 is in corresponding guide way. By adopting the structure, on the one hand, the compactness of the structure can be improved, the structural layout is optimized, and on the other hand, the movement direction of each first supporting rib 311 is also convenient to guide, so that the first supporting ribs 311 can move smoothly.

Specifically, the structure of the second transmission assembly 212 may be the same as the structure of the first transmission assembly 211, or the structure of the second transmission assembly 212 may be different from the structure of the first transmission assembly 211. For convenience of manufacturing, the structure of the second transmission assembly 212 is preferably the same as that of the first transmission assembly 211 in this embodiment.

Specifically, the first transmission assembly 211 and the second transmission assembly 212 in this embodiment have the same structure, so the second transmission assembly 212 in this embodiment also includes a synchronous pulley assembly 2114, and the reference numeral of the synchronous pulley assembly 2114 in fig. 1 is labeled on the internal structure of the second transmission assembly 212. The conveying mechanism in this embodiment further includes a second bearing plate, the structure and function of the second bearing plate are similar to those of the first bearing plate 22, the second bearing plate and the first bearing plate 22 are disposed at an interval, and the transmission portion of the second transmission assembly 212 is supported on the second bearing plate. Adopt such structure setting, set up first loading board 22 and second loading board through the interval, first drive assembly 211 and the second drive assembly 212 that the interval set up, can be convenient for reduce conveying mechanism's occupation volume like this, make conveying mechanism miniaturized, also be convenient for in addition realize the dislocation better between conveying mechanism and the buffer storage frame 30, so that conveying mechanism carries along the horizontal direction, buffer storage frame 30 goes up and down along direction of height or vertical direction, avoid the interference of different motions, the compactness of two structures at spatial layout has also been improved simultaneously, spatial structure overall arrangement has been optimized.

The buffer conveying device in this embodiment further includes a lifting driving mechanism, and the lifting driving mechanism is in driving connection with the buffer frame 30, so as to drive the buffer frame 30 to move in the vertical direction through the lifting driving mechanism, so that the height position of the buffer frame 30 is changed. The lifting drive mechanism in this embodiment is disposed on the rack, and the lifting drive mechanism is located below the buffer frame 30.

The buffer conveying device in this embodiment further includes a width adjusting mechanism, the width adjusting mechanism is connected to both the first transmission assembly 211 and the second transmission assembly 212, and the width adjusting mechanism is used for adjusting the distance between the first transmission assembly 211 and the second transmission assembly 212, so as to convey and buffer tooling plates with different widths. Specifically, the width adjusting mechanism is movably disposed on the frame 10, and the width adjusting mechanism includes a nut screw rod adjusting mechanism, and with such a structure, the positions of the first transmission assembly 211 and the second transmission assembly 212 can be conveniently adjusted, so that the first transmission assembly 211 and the second transmission assembly 212 are close to or far away from each other. The width adjusting mechanism in this embodiment is located above the lifting drive mechanism, and the width adjusting mechanism is located at the side of the conveying part 21, so as to adjust the distance between the first transmission assembly 211 and the second transmission assembly 212, optimize the structural layout, and improve the compactness of the structural layout.

Specifically, the cache conveying device in this embodiment further includes an operation panel and a control member, the driving member, the lifting drive mechanism and the width adjustment mechanism are all connected with the control member, the operation panel is provided with a plurality of buttons and a display screen, and an operator operates the buttons to control the movement of each component, so that the conveying and caching functions are realized.

The invention solves the following technical problems that 1, a process board is required to be positioned and conveyed in the automatic assembly test process of the air conditioner remote controller, and an automatic caching and conveying device of the process board is designed in order to save manual operation time and improve the beat of assembly test equipment; 2. the process plates with various specifications and sizes can be compatible; 3. the balance line body is blocked or lacks the function of a tooling plate due to inconsistent occupation time of each device.

The invention is characterized in that: 1. the buffer conveying mechanism is compatible with the size of a process plate from 10mm by 10mm to 30mm by 30 mm; 2. space is saved by pushing the cache shelf 30 upwards. 3. High-precision control is achieved by using the servo drive buffer frame 30.

During operation, the buffer mechanism is arranged at the head or the tail of the assembly test wire body, the height of the buffer mechanism is adjusted through the foot cup according to the height of the wire body, the horizontal guide rod is adjusted according to the size of the process plate, and the width of the material rack is adjusted in place. And the distance of servo lifting every other is set according to the height of the material racks every other and the screw pitch of the lifting screw rod. And adjusting the frequency of the horizontal driving belt variable frequency motor and the rotation direction of the belt. The above hardware is ready to be ready for device operation.

When the process plate enters the buffer memory mechanism, the process plate firstly detects whether the advancing direction is blocked, if so, the material rack rises by one grid to buffer the current process plate, and the process plate is accumulated until the whole material rack buffer memory is used up. If the number of caches is large, a plurality of cache equipment parts can be placed at the same time to influence use, and when all the caches are used up, the alarm is given to improve the cache use-up prompt. When no material is jammed in front of the equipment, the cached material is conveyed forwards by descending one grid through the servo. If the material part is blocked, the buffer mechanism can be used as a common belt line.

The conveying and caching device in the embodiment is simple in design, and places where the line body needs to be buffered can be saved. The time is saved for other assembly and test equipment feeding and discharging. The storage mode of work or material rest not only practices thrift the place, more can not make the technology board always the line body friction pile up. Can effectively control the fluidity of the wire body.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: an operator can put a remote controller to be tested into the tooling plate for caching in advance, and the test equipment finishes testing the automatic feeding of the caching machine, so that the operation time of the operator is saved; the buffer conveying device can play a buffer role when the equipment is jammed or fails.

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.

The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present application, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present application; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

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 should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of protection of the present application is not to be construed as being limited.

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. A buffer delivery apparatus, comprising:

a frame (10);

the conveying mechanism is arranged on the rack (10), and a conveying part (21) of the conveying mechanism conveys along the horizontal direction;

the buffer storage frame (30) is movably arranged on the rack (10) along the height direction of the rack (10), at least part of the buffer storage frame (30) is positioned at the side part of the conveying part (21), one side of the buffer storage frame (30) close to the conveying part (21) is provided with a plurality of supporting structures, and the supporting structures are arranged at intervals along the height direction of the buffer storage frame (30); each support structure has a buffer position arranged opposite to the conveying part (21) so that the conveying part (21) conveys the material to each support structure.

2. The buffer conveying device according to claim 1, wherein the buffer frame (30) comprises a first frame body (31) and a second frame body (32), the first frame body (31) and the second frame body (32) are arranged at intervals, the conveying part (21) is arranged between the first frame body (31) and the second frame body (32), and the supporting structure comprises:

first backup pad (33) and second backup pad (34), first backup pad (33) set up on first support body (31), second backup pad (34) set up on second support body (32), first backup pad (33) with second backup pad (34) set up relatively.

3. The buffer conveying device according to claim 2, wherein the first supporting plate (33) is a plurality of supporting plates, and the plurality of first supporting plates (33) are arranged at intervals along the conveying direction of the conveying part (21); the second supporting plates (34) are arranged in a plurality of ways, the second supporting plates (34) are arranged at intervals along the conveying direction of the conveying part (21), the second supporting plates (34) are arranged in a one-to-one correspondence mode with the first supporting plates (33), and the second supporting plates (34) are arranged opposite to the first supporting plates (33).

4. The buffer delivery apparatus according to claim 2,

the first frame body (31) comprises a plurality of first supporting ribs (311), the plurality of first supporting ribs (311) are arranged at intervals along the conveying direction of the conveying part (21), and a plurality of first supporting plates (33) are arranged on each first supporting rib (311); and/or the presence of a gas in the gas,

the second support body (32) includes a plurality of second support rib (321), and is a plurality of second support rib (321) are followed the direction of delivery interval of conveying portion (21) sets up, each all be provided with a plurality ofly on second support rib (321) second backup pad (34).

5. The buffer conveyance device according to claim 2, wherein the conveyance section (21) comprises:

first transmission assembly (211) and second transmission assembly (212), first transmission assembly (211) with second transmission assembly (212) interval sets up, the transmission portion of first transmission assembly (211) with second transmission assembly (212) transmission portion all is located first support body (31) with between second support body (32).

6. The buffer delivery device according to claim 5, wherein the transmission part of the first transmission assembly (211) comprises:

a first input belt assembly (2111), a first drive roller (2112) and a first output belt assembly (2113), the first input belt assembly (2111), the first drive roller (2112) and the first output belt assembly (2113) being spaced apart in the conveying direction of the conveying section (21).

7. The buffer delivery device according to claim 6, wherein the first transmission assembly (211) further comprises:

and the transmission wheel of the first input transmission belt component (2111), the first transmission roller (2112) and the transmission wheel of the first output transmission belt component (2113) are synchronously connected through the synchronous pulley component (2114).

8. The buffer storage conveying device according to claim 7, wherein the conveying mechanism further comprises a first bearing plate (22), the first input belt assembly (2111), the first transmission roller (2112) and the first output belt assembly (2113) are all arranged on one side of the first bearing plate (22), and the synchronous pulley assembly (2114) is arranged on the other side of the first bearing plate (22).

9. The buffer conveying device according to claim 8, wherein the first frame body (31) comprises a plurality of first supporting ribs (311) arranged at intervals, and at least part of the supporting structure is arranged on the first supporting ribs (311);

the first support rib (311) is arranged between the first input belt assembly (2111) and the first drive roller (2112); and/or the presence of a gas in the gas,

the first support rib (311) is arranged between the first transmission roller (2112) and the first output transmission belt assembly (2113).

10. The buffer conveying device according to claim 9, wherein a plurality of guide grooves are formed in the first loading plate (22), each of the plurality of guide grooves extends along a height direction of the first loading plate (22), a plurality of first support ribs (311) are formed, the plurality of first support ribs (311) are disposed in one-to-one correspondence with the plurality of guide grooves, and each of the first support ribs (311) is movably disposed in the corresponding guide groove.

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