CN211545236U

CN211545236U - A feed bin subassembly and material feeding unit that is used for material feeding unit of strip or flat material spare

Info

Publication number: CN211545236U
Application number: CN201922288547.7U
Authority: CN
Inventors: 严小斌; 张鑫; 薛振江
Original assignee: Suzhou Industrial Park Taige Electronic Technology Co ltd
Current assignee: Suzhou Industrial Park Taige Electronic Technology Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-09-22
Anticipated expiration: 2029-12-18

Abstract

The utility model provides a feed bin subassembly that is used for material feeding unit of strip or dull and stereotyped material piece for strip or dull and stereotyped class material piece processingequipment automatic feeding adopts the feed bin structure, gets the material from the feed bin bottom, can realize relying on material piece self gravity automatic in proper order to fall to bottommost waiting to get the material position, realize the automatic carry of material piece with simple structure. Simultaneously, in the course of the work, artifical or arm can be installed the material part additional in the feed bin at intervals, can not influence the work process, in the interval time, need not artifical on duty reinforced.

Description

A feed bin subassembly and material feeding unit that is used for material feeding unit of strip or flat material spare

Technical Field

The utility model relates to a processing field of slice, strip or dull and stereotyped class material spare, concretely relates to a feed bin subassembly and material feeding unit that is used for material feeding unit of strip or dull and stereotyped material spare.

Background

In the processing of plastic or metal parts related to strips, sheets or plates, particularly to some small-sized parts, the feeding is troublesome, the traditional method usually adopts manual feeding, the efficiency is not high, a large amount of labor is required, and improvement is needed urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a feed bin subassembly that is used for the material feeding unit of strip or dull and stereotyped class material piece processing, the utility model discloses a feed bin subassembly that is used for the material feeding unit of strip or dull and stereotyped material piece utilizes the feed bin of pre-installation material piece to carry out the feed, and has simple structure, and the complete machine is small, convenient extension.

For realizing the technical purpose, the technical proposal of the utility model is that:

a feed bin assembly for a feeding device for strip or flat material pieces, for automatically feeding a processing device for strip or flat material pieces, comprising:

the material rack is provided with a plurality of strip-shaped or flat-plate-shaped material pieces to be processed which can be overlapped together and are used for overlapping the material pieces.

Further, the method also comprises the following steps:

and the material distributing assembly comprises a material stirring device, the material stirring device is used for taking out the bottommost material part in the material rack, and when one material part is taken out, the whole material part in the material rack moves downwards to the bottom so as to prepare for taking the material part by the next material stirring device.

Further, the material distributing assembly comprises:

a material poking driving device; controlling the material poking slide block to reciprocate;

the material shifting sliding block is positioned at the bottommost part of the material rack, and through the reciprocating motion of the material shifting sliding block, the material pieces in the material rack are shifted out of the material rack to the discharging side one by one from the bottom of the material rack, and after the shifted-out material pieces are taken away, the material shifting sliding block returns to the bottom of the material rack again to prepare for shifting out the material pieces next time.

Furthermore, a groove matched with the material piece is formed in the upper surface of the material poking sliding block, the initial position of the groove is located under the material rack and is aligned with the position of the material piece, the lowest material piece is placed in the groove, the material poking driving device pushes the material poking sliding block outwards to the material fetching station when the material piece is fetched, at the moment, the material piece in the material rack keeps still in the original position, after the external mechanism takes the material piece in the groove away, the material poking driving device moves the material poking sliding block back to the initial position, at the moment, the material piece in the material rack integrally moves downwards, and the material piece at the lowest position falls into the groove.

Further, the kick-out driving device comprises:

the material shifting cylinder is a material shifting piston rod which is controlled by the material shifting cylinder to extend back and forth; the material shifting cylinder and the material shifting piston rod are horizontally arranged; the material poking device is characterized by further comprising a material poking dragging rod, wherein the material poking dragging rod is vertically arranged, the lower end of the material poking dragging rod is connected to the free end of the material poking piston rod, and the upper end of the material poking dragging rod is connected with the material poking sliding block.

Further, the material poking driving device further comprises:

the material stirring jacking cylinder is vertically arranged, the free end of a jacking piston rod controlled to reciprocate is located above the material stirring jacking cylinder, a material stirring cylinder connecting seat is fixedly mounted on the free end, the material stirring cylinder is fixedly mounted on the material stirring cylinder connecting seat, when the material stirring cylinder connecting seat is located at the bottommost position, the material stirring dragging rod is separated from the material stirring sliding block, and when the material stirring cylinder connecting seat is located at the highest position, the material stirring dragging rod is connected with the material stirring sliding block.

Further, the material poking driving device further comprises: the material shifting lower sliding plate is fixedly connected with the material shifting sliding block and positioned below the material shifting sliding block, a sliding rail or a supporting bar is arranged between the material shifting sliding block and the material shifting lower sliding plate, the sliding rail or the supporting bar is fixedly connected with the stock bin base or integrally formed with the stock bin base, and the stock bin base is provided with a strip-shaped hole for a connecting part between the material shifting lower sliding plate and the material shifting sliding block to pass through and move back and forth; the material shifting lower sliding plate is provided with a through hole or a downward groove adjacent to the discharging side, the through hole or the groove is matched with the upper end of the material shifting drag rod, when the material shifting cylinder connecting seat is positioned at the bottommost position, the material shifting drag rod is separated from the material shifting lower sliding plate, and when the material shifting cylinder connecting seat is positioned at the highest position, the material shifting drag rod is connected with the material shifting lower sliding plate.

Furthermore, a universal wheel is also arranged below the stock bin base and used for supporting the stock bin assembly; the universal wheel below is the base, be provided with supporting component on the motion path of base upper surface universal wheel, the universal wheel receives supporting component to remove along supporting component.

Further, the work or material rest includes parallel arrangement's first work or material rest and second work or material rest, form between first work or material rest and the second work or material rest and hold the feed bin that the material part piles up to place, first work or material rest and second work or material rest all set up on the feed bin base.

The utility model also provides a material feeding unit for strip or flat material spare, including at least one the feed bin subassembly.

Adopt the feed bin structure, get the material from the feed bin bottom, can realize relying on material spare self gravity automatic in proper order to fall to the bottommost wait to get the material position to the automatic carry of material spare is realized to simple structure. Simultaneously, in the course of the work, artifical or arm can be installed the material part additional in the feed bin at intervals, can not influence the work process, in the interval time, need not artifical on duty reinforced.

The feed bin is as unit modular structure, and the very convenient realization of whole device is extended, sets up two or more feed bin units, before work, can all adorn full material spare with all feed bins additional, and after the start work, a feed bin gets into the work position, carries out automatic feed to follow-up device, and after this feed bin material spare was emptied, switches next feed bin to the work position, continues to carry out the feed, and the feed bin that is emptied switches to and prepares the position, can carry out artifical or mechanical material loading this moment. Or the feeding is not needed, and the empty bins of all preparation positions are filled up by reminding manual or mechanical feeding until the last bin is emptied soon. Like this, the time interval of twice feeding just can prolong greatly, further practices thrift artifically, and a workman can carry out the operation of feeding for a plurality of assembly lines, reaches the purpose of practicing thrift artifically, improvement work efficiency.

Drawings

Fig. 1 and fig. 9 are schematic structural views of a bin assembly for processing strip-shaped or flat-plate-shaped material parts according to the present invention;

FIG. 2 is a cross-sectional view of the bin assembly for processing strip or flat plate type material of the present invention;

fig. 3 is a schematic overall structure diagram of a bin assembly of the feeding device for processing strip-shaped or flat-plate-shaped material pieces according to the present invention;

fig. 4 is a front view of a bin assembly of the feeding device for processing strip-shaped or flat-plate-shaped material parts;

FIG. 5 is a right side view of the bin assembly of the feeding device for processing strip-shaped or flat plate-shaped material pieces according to the present invention;

fig. 6 is a top view of the bin assembly of the feeding device for processing strip-shaped or flat plate-shaped material pieces according to the present invention;

fig. 7 is a schematic structural view of the driving wheel and the driven wheel of the present invention;

fig. 8 is a schematic structural view of the stock bin assembly switching driving device of the present invention.

Detailed Description

The technical solution of the present invention will be clearly and completely described below.

As shown in fig. 1, 2 and 9, a bin assembly for a feeding device for strip or slab material, for automatically feeding a processing device for strip or slab material, comprises:

the material rack 21 is provided with a material rack 21 which can accommodate a plurality of strip-shaped or flat-plate-shaped material pieces 3 to be processed which are overlapped together, and is used for overlapping the material pieces 3.

In practical application, the method can further comprise the following steps:

the material distributing assembly comprises a material stirring device, wherein the material stirring device is used for taking out the bottommost material part 3 in the material rack 21, and when one material part 3 is taken out, the whole material part 3 in the material rack 21 moves downwards to the bottom to prepare for taking out the material part 3 by the next material stirring device.

For example, the feed assembly includes:

a material poking driving device; controlling the material shifting slide block 213 to reciprocate;

the material shifting slide block 213 is located at the bottommost part of the material rack 21, and through the reciprocating motion of the material shifting slide block, the material pieces 3 in the material rack 21 are sequentially shifted out of the material rack 21 to the discharging side from the bottom of the material rack 21, and after the shifted-out material pieces 3 are taken away, the material shifting slide block returns to the bottom of the material rack 21 again to prepare for shifting out the material pieces 3 next time.

In some embodiments, a groove adapted to the material piece 3 is formed in the upper surface of the material poking slider 213, an initial position of the groove is located right below the rack 21 and aligned with the position of the material piece 3, the lowest material piece 3 is placed in the groove, the material poking driving device pushes the material poking slider 213 outwards to the material fetching station when the material piece is fetched, at this time, the material piece 3 in the rack 21 keeps the original position still, after the external mechanism fetches the material piece 3 in the groove, the material poking driving device moves the material poking slider 213 back to the initial position, at this time, the material piece 3 in the rack 21 moves down integrally, and the lowest material piece 3 falls into the groove.

As shown in fig. 5, in some examples, the kick-off drive comprises:

the material shifting cylinder 41 is a material shifting piston rod 42 which is controlled by the material shifting cylinder 41 to extend back and forth; the material shifting cylinder 41 and the material shifting piston rod 42 are horizontally arranged; the material poking device further comprises a material poking drag rod 43, wherein the material poking drag rod 43 is vertically arranged, the lower end of the material poking drag rod 43 is connected to the free end of the material poking piston rod 42, and the upper end of the material poking drag rod 43 is connected with the material poking sliding block 213. The material shifting cylinder 41 controls the material shifting piston rod 42 to horizontally extend back and forth, drives the material shifting drag rod 43 to reciprocate, and finally drives the material shifting slide block 213 to switch between an initial position and a discharge side, so as to complete loading of the material 3 and removal of the material 3.

In order to simplify the mechanism and reduce the cost, a single material shifting driving component is not arranged for each stock bin component, but a common material shifting driving component is arranged and is arranged at a discharging working position, and after the stock bin component with a material piece is switched to the working position, the material shifting driving component is matched with a material shifting sliding block 213 in the stock bin component to perform material shifting work. In order to dial when a plurality of feed bin subassemblies switch, material drive arrangement and feed bin subassembly mutually noninterfere, dial material drive arrangement and still include:

the material stirring jacking cylinder 44 is vertically arranged, the free end of a jacking piston rod controlled to reciprocate is located above the material stirring jacking cylinder 44, a material stirring cylinder connecting seat is fixedly mounted on the free end, the material stirring cylinder 41 is fixedly mounted on the material stirring cylinder connecting seat, when the material stirring cylinder connecting seat is located at the bottommost position, the material stirring dragging rod 43 is separated from the material stirring sliding block 213, and when the material stirring cylinder connecting seat is located at the highest position, the material stirring dragging rod 43 is connected with the material stirring sliding block 213.

In some embodiments, the kick-off drive further comprises: the material shifting lower sliding plate 215 is fixedly connected with the material shifting sliding block 213 and is positioned below the material shifting sliding block 213, a sliding rail or a supporting bar is arranged between the material shifting sliding block 213 and the material shifting lower sliding plate 215, the sliding rail or the supporting bar is fixedly connected with the stock bin base 23 or is integrally formed with the stock bin base 23, and the stock bin base 23 is provided with a strip-shaped hole for the connecting part between the material shifting lower sliding plate 215 and the material shifting sliding block 213 to pass through and move back and forth; the material shifting lower sliding plate 215 is provided with a through hole or a groove facing downwards and close to the discharging side, the through hole or the groove is matched with the upper end of the material shifting drag rod 43, when the material shifting cylinder connecting seat is positioned at the bottommost position, the material shifting drag rod 43 is separated from the material shifting lower sliding plate 215, and when the material shifting cylinder connecting seat is positioned at the highest position, the material shifting drag rod 43 is connected with the material shifting lower sliding plate 215.

Referring to fig. 1-9, in some embodiments, universal wheels 24 are further provided below the bin base 23 for supporting the bin assembly; the universal wheel below is base 1, be provided with supporting component 11 on the motion path of base 1 upper surface universal wheel 23, universal wheel 24 is supported by supporting component 11 to move along supporting component 11.

Further, the stacks include a first stack 211 and a second stack 212 which are arranged in parallel, a bin for accommodating the stacked material pieces 3 is formed between the first stack 211 and the second stack 212, and both the first stack 211 and the second stack 212 are arranged on the bin base 23.

In some embodiments, the material-shifting driving device further includes an elastic member 25, one end of the elastic member 25 is connected to the base of the storage bin, and the other end is connected to the material-shifting slider 213, after the material-shifting pulling rod 43 is disengaged from the material-shifting lower sliding plate 215 or the material-shifting slider 213, the elastic member 25 moves the material-shifting slider 213 back to the initial position by its elasticity and keeps stable, ensuring that it does not shift at the initial position.

As shown in fig. 3-8, the utility model discloses still disclose a material feeding unit that is used for strip or dull and stereotyped class material part processing device automatic feeding, include:

a base 1 for carrying devices;

the stock bin assembly (also referred to as a stock bin for short herein) as described above, the stock bin assembly of the feeding device for processing strip-shaped or flat-plate-shaped material pieces includes at least one stock bin assembly, the stock bin assembly includes a stock bin base 23 and a material rack 21 fixedly installed on the stock bin base 23, and the strip-shaped or flat-plate-shaped material pieces 3 to be processed are overlapped and placed in the material rack 21;

and the material distributing assembly 4 comprises a material shifting device, the material shifting device is used for taking out the bottommost material part 3 in the material rack 21, and when one material part 3 is taken out, the material part 3 in the material rack 21 integrally moves downwards to the bottom so as to prepare for taking out the material part by the next material shifting device.

Adopt the feed bin structure, get the material from the feed bin bottom, can realize relying on the automatic material position of waiting of getting that falls to bottommost in proper order of self gravity of material piece 3 to simple structure realizes the automatic carry of material piece. Meanwhile, in the working process, the feeding part 3 can be added into a manual or mechanical arm interval feeding bin (material rack 21), the working process cannot be influenced, and manual on-duty feeding is not needed in the interval time.

In practical application, in order to further promote the capacity of feed bin, increase the time interval for feed bin material loading, reduce artifical consumption, can adopt the setting of two and more than two many feed bins, for automatic switch feed bin subassembly, add feed bin subassembly switching drive arrangement for when the material piece 3 in the work position's work or material rest 21 is whole to be shifted and carry follow-up processing device, remove it to reinforced station, the feed bin subassembly that will fill in addition the material piece simultaneously removes to the work position, the feed bin subassembly is at least two and more. In the example shown in figure 1, 8 silo assemblies are used.

In some embodiments, the stock bin assembly is used as a unit module structure, the whole device is very convenient to realize expansion, two or more stock bin units are arranged, all stock bins can be filled with full stock pieces before work, after work is started, one stock bin enters a work position, automatic feeding is carried out on a follow-up device, after the stock bin is emptied, the next stock bin is switched to the work position, feeding is continued, the emptied stock bin is switched to a preparation position, and manual or mechanical feeding can be carried out at the moment. Or the feeding is not needed, and the empty bins of all preparation positions are filled up by reminding manual or mechanical feeding until the last bin is emptied soon. Like this, the time interval of twice feeding just can prolong greatly, further practices thrift artifically, and a workman can carry out the operation of feeding for a plurality of assembly lines, reaches the purpose of practicing thrift artifically, improvement work efficiency.

In some embodiments, the stacks consist of a front stack 211 and a back stack 212,

in practical applications, the magazine assembly switching driving device may be implemented in various manners, and may also adopt the following structure, as shown in fig. 2, 3, and 4, and the magazine assembly switching driving device includes:

the motor 12 is used for providing power for the bin assembly switching driving device;

the speed reducer is in transmission connection with the motor 12 and is used for enabling the switching speed of the stock bin assembly to be at a set value;

the driving wheel 51 is in transmission connection with the speed reducer;

the driven wheel 52 is positioned on the same horizontal plane with the main driving wheel 51 and is in transmission connection with the main driving wheel through a flexible transmission connecting piece 53, and the flexible connecting piece 53 comprises one or two or more than two of a chain, a rope, a synchronous belt, a triangular belt and a flat belt; the chain, the driving wheel and the driven wheel selected in the figure are matched chain wheels.

The bin assembly is fixedly or detachably connected with the flexible connecting piece.

The switching of two and above feed bins is a difficult point, has both guaranteed the stability of feed bin, will guarantee the steady of switching again to and with succinct structure as far as possible, the utility model discloses a pair of action wheel that sets up at same level and the foundation structure as feed bin auto-change over device from the driving wheel, the action wheel with from being connected by flexible connectors between the driving wheel, flexible connectors encircle the action wheel and from the working face of driving wheel to by the rotation of action wheel at horizontal plane circulating motion. All the bins are uniformly connected on the flexible connecting piece in a surrounding and distributing mode, and therefore all the bins are driven to synchronously move or stop along with the flexible connecting piece in a circulating mode. The motor drives the speed reducer, and then drives the action wheel to rotate, when a certain bin runs to a working position, the operation is stopped, the accurate positioning can be further realized by using the positioning device, and the locking is realized by using the locking device. Both positioning and locking can find many embodiments in the prior art, and are not described in detail. The setting of two wheels (action wheel and follow driving wheel) is than the system of single action wheel, under the condition of same feed bin quantity, especially when the feed bin quantity is more (for example 8), can reduce the horizontal size of equipment, can prolong on vertical size, and equipment arranges like this on more rationally. The longitudinal direction is a connecting line of the geometric center of the feeding device and the geometric center of a subsequent processing line, and can also be a longitudinal axis of the whole production line, namely a transverse direction, namely a horizontal direction perpendicular to the longitudinal direction. Or the size in the transverse direction is increased, the longitudinal size is reduced, and when the longitudinal field is insufficient, the scheme can be adopted, so that the method can flexibly deal with the situation according to the actual situation.

In practical application, when two or more than two bin assemblies are adopted, all the bin assemblies are uniformly arranged along the circumference of the flexible connecting piece.

In some embodiments, the flexible connecting members are two or more than two flexible connecting members arranged in parallel, the driving wheel and the driven wheel are provided with adapting portions (for example, two

gears

511 and 512 adapted to the two chains, as shown in fig. 5) at intervals in the direction of the rotating shaft, and the bin assembly is fixedly or detachably connected with the at least two flexible connecting members. The stability of feed bin can further be improved, the slope is prevented.

In some embodiments, as shown in fig. 2, a universal wheel 24 is further installed below the bin base 23 for supporting the bin assembly; the support assembly 11 (shown in fig. 1 and 4) is arranged on the motion path of the universal wheel on the upper surface of the base, and the universal wheel 24 is supported by the support assembly 11 and moves along the support assembly 11, and the moving track of the universal wheel is limited by the running track of the flexible connecting piece 53.

By adopting the supporting and moving auxiliary scheme of the supporting component 11 and the universal wheel 24, compared with the traditional schemes such as a guide rail and the like, the structure is greatly simplified, the cost is effectively controlled, and the assembly and the maintenance are greatly simplified. The supporting component 11 may be a flat plate laid below the movement track of the bin component, or a groove with a closed track may be provided on the flat plate corresponding to the movement track of the universal wheel 24, so that the universal wheel runs in the groove. One, two, three or more universal wheels are arranged on each silo component to ensure stable operation.

In practical application, the material pieces in the material rack are taken out one by one for the next procedure processing, and multiple schemes can be provided, for example, a lifting device is arranged in the material rack, the material rack is filled with the material pieces in an initial state, the lifting device is positioned at the bottommost end of the material rack, after the manipulator takes away the topmost material piece from the top end of the material rack, the lifting device upwards walks for a distance of one material piece thickness, the whole material piece is upwards pushed for a distance of one material piece thickness, so that the topmost material piece is always positioned at a position to be taken, and the process is repeated until the material pieces in the whole material rack are taken out, the sensor can be adopted to carry out tracking and counting by a counter, the number of the material pieces is tracked in real time, and after the material pieces are taken out, instructions such as alarming and instructions for switching the stock bin.

It is also possible to adopt the following scheme, as shown in fig. 1 and 3, the material poking device 4 is arranged below the material rack 21 (here, the lower part is not specifically referred to as the lower part, but is referred to as the horizontal height lower than the material rack 21), the material poking device comprises a driving component (such as the air cylinder 41, the telescopic rod 42 and the connecting rod 43 in fig. 3) and a sliding block (located right below the material rack, connected with the connecting rod 43 and driven by the connecting rod to reciprocate), the sliding block is driven by the driving device to reciprocate, the upper surface of the sliding block is provided with a groove adapted to the material piece 3, the initial position of the groove is located right below the material rack 21 and aligned with the position of the material piece 3, the lowest material piece 3 is placed in the groove, the driving component pushes the sliding block outwards to the material fetching station when the material piece is fetched, at this time, the material piece in the material rack keeps the original position still, after the material piece in the groove, the drive assembly moves the sliding block back to the initial position, the material part 3 in the material rack moves downwards integrally at the moment, and the material part 3 at the lowest position falls into the groove.

The mode of sliding block horizontal pushing discharging is adopted, the structure is simple, the operation is reliable, the groove is adopted, the positioning is accurate, and the deviation of the position of the material part in the discharging process is prevented.

As shown in fig. 3, in some embodiments, the device further includes a bin assembly jacking positioning device located under the working position of the bin assembly, the device includes a positioning driving device 61 (which may be an air cylinder or a motor) and a jacking positioning rod 62 (which is a screw rod adapted to the motor) driven by the driving device to move up and down, and the bin base 23 is provided with a positioning portion adapted to the position and the top shape of the jacking positioning rod 62. The jacking positioning rod and the positioning part are matched for accurate positioning, the structure is simple, and the positioning is reliable. For example, the positioning part can be an inverted funnel shape, the requirement on the initial accuracy of the bin reaching the working position can be reduced, and the final position can be accurately corrected by utilizing the jacking positioning rod.

In some examples, the cartridge assembly includes a mounting plate 22, the mounting plate 22 is vertically fixed to the cartridge base 23, and the mounting plate 22 is fixedly or removably coupled to the flexible connector 53.

As shown in fig. 2 and fig. 6, in some embodiments, the magazine assembly switching driving device further includes dividers 13, the dividers 13 are equally divided according to the number of the magazine assemblies, an input end of each divider 13 is in transmission connection with the speed reducer, and an output end of each divider 13 is in transmission connection with the driving wheel. By adopting the divider, the operation stroke of each time of bin switching can be more conveniently controlled, the positioning accuracy is further improved, accumulated errors are prevented, and a control system is simplified. In the example of fig. 6, the motor 12 is in transmission connection with the speed reducer 14, the speed reducer 14 is in transmission connection with the divider 13 through a chain wheel 17/18 and a chain (not shown in the figure), the divider 13 is in transmission connection with the driving wheel 51 through a

flange

16, and 15 is a divider sensing piece.

For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The utility model provides a feed bin subassembly that is used for material feeding unit of strip or dull and stereotyped material piece for strip or dull and stereotyped class material piece processingequipment automatic feeding, its characterized in that includes:

2. A magazine assembly for feeding devices for strip or slab elements according to claim 1, characterized in that it further comprises:

3. The magazine assembly of a feeding device for strips or slabs according to claim 2, characterized in that said distribution assembly comprises:

4. The storage bin assembly of claim 3, wherein the material pushing slider has a groove on an upper surface thereof, the groove being adapted to the material, the groove being initially located directly below the material rack and aligned with the material, the lowest material being disposed in the groove, the material pushing slider being pushed outward by the material pushing driving device to the material taking station while the material is being taken, the material in the material rack being kept stationary, the material pushing slider being moved back to the initial position by the material pushing driving device after the material in the groove is taken by the external mechanism, the material in the material rack moving downward as a whole, and the lowest material falling into the groove.

5. A magazine assembly for feeding devices for strip or slab elements, according to claim 4, characterized in that said kick-off drive comprises:

6. A magazine assembly for feeding devices for strip or slab elements, according to claim 5, characterized in that said kick-off drive means further comprise:

7. A magazine assembly for feeding devices for strip or slab elements, according to claim 6, characterized in that said kick-off drive means further comprise: the material shifting lower sliding plate is fixedly connected with the material shifting sliding block and positioned below the material shifting sliding block, a sliding rail or a supporting bar is arranged between the material shifting sliding block and the material shifting lower sliding plate, the sliding rail or the supporting bar is fixedly connected with the stock bin base or integrally formed with the stock bin base, and the stock bin base is provided with a strip-shaped hole for a connecting part between the material shifting lower sliding plate and the material shifting sliding block to pass through and move back and forth; the material shifting lower sliding plate is provided with a through hole or a downward groove adjacent to the discharging side, the through hole or the groove is matched with the upper end of the material shifting drag rod, when the material shifting cylinder connecting seat is positioned at the bottommost position, the material shifting drag rod is separated from the material shifting lower sliding plate, and when the material shifting cylinder connecting seat is positioned at the highest position, the material shifting drag rod is connected with the material shifting lower sliding plate.

8. The bin assembly of a feeding device for strip or slab material according to any of claims 1 to 7, wherein universal wheels are further mounted below the bin base for supporting the bin assembly; the universal wheel below is the base, be provided with supporting component on the motion path of base upper surface universal wheel, the universal wheel receives supporting component to remove along supporting component.

9. The bin assembly according to claim 8, wherein the stacks comprise a first stack and a second stack arranged in parallel, between which a bin is formed for receiving stacks of articles, the first and second stacks being arranged on a base of the bin.

10. A feeding device for strip-or plate-shaped pieces, characterized in that it comprises at least one silo assembly according to claims 1-9.