CN214568830U - Brick storage and arrangement equipment - Google Patents

Abstract

The utility model provides a store up brick row's brick equipment, it includes to store up brick row's brick equipment: the brick storage device, the brick discharge device and the brick distribution device are arranged in sequence; the brick storage device is used for bearing and conveying brick piles placed on the brick loading machine; the brick arranging device is used for receiving a plurality of brick piles conveyed by the brick storage device and conveying the brick piles to the brick distributing device in sequence; the brick separating device is used for sequentially receiving brick piles on the brick arranging device, dividing the brick piles into single-piece ceramic bricks during the brick separating mechanism and sequentially conveying the single-piece ceramic bricks to the polishing machine. The utility model discloses place the brick pillar on storing up the brick device, utilize row's brick device to carry the brick pillar in proper order, when carrying to dividing the brick device on, when dividing brick mechanism, fall into the monolithic pottery brick with the brick pillar, both improved conveying efficiency, avoid the equipment trouble and the easy damaged problem of product that transmission band speed arouses too fast again.

Description

Brick storage and arrangement equipment

Technical Field

The utility model relates to a pottery brick carries technical field, what especially relates to is a brick equipment is arranged to brick storage.

Background

In the production line of the glazed brick, the next procedure after the firing of the kiln is a polishing procedure. The processing capacity of the polishing process is far greater than the capacity of a kiln, the time of 1-2 days is needed for internal stress release after the ceramic tile is fired, and the ceramic tile can be polished after the stress release tile is stable in shape. The semi-finished bricks sintered by the kiln are stored by a specially manufactured brick storage rack, accumulated to a certain quantity or placed for a certain time, and are polished by a polishing machine after the bricks are stable.

During polishing, the product needs to be lifted to a conveyor belt by a brick feeding machine and sent to a polishing unit. Because the capacity of the polishing machine is larger than that of brick feeding equipment and is within 1 ten thousand square meters, bricks are arranged on a single brick feeding machine to a conveyor belt and are conveyed to a polishing unit, and the production task can be basically and smoothly finished. When the capacity is increased to more than 1.5 ten thousand, the number of brick machines to be loaded is increased to two, and a plurality of brick machines to be loaded are arranged on one polishing line, so that the investment cost of equipment is greatly increased. In addition, when the polishing speed of the polishing unit exceeds 40 pieces/min of products, the speed of the conveyor belt must be conveyed at a speed exceeding 40 meters/min (including brick distance intervals for preventing the products from being broken by brick collision), the equipment load is large, the online conveying speed of the products is too high, the belt is seriously abraded, the equipment is high in failure, and the products are easy to collide in the high-speed running process, so that the ceramic tiles are damaged and the like.

Therefore, the prior art has defects and needs to be improved and developed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a brick equipment is arranged to brick storage, if want to satisfy the ceramic brick supply to the burnishing machine in aiming at solving prior art, can lead to that equipment load is big, the online transfer rate of product is too fast, and then makes equipment fault height, product damaged problem appear.

The utility model provides a technical scheme that technical problem adopted as follows:

a brick storage and arrangement apparatus, comprising: the brick storage device, the brick discharge device and the brick distribution device are arranged in sequence; the brick storage device is used for bearing and conveying brick piles placed on the brick loading machine; the brick arranging device is used for receiving a plurality of brick piles conveyed by the brick storage device and conveying the brick piles to the brick distributing device in sequence; the brick separating device is used for sequentially receiving brick piles on the brick arranging device, dividing the brick piles into single-piece ceramic bricks during the brick separating mechanism and sequentially conveying the single-piece ceramic bricks to the polishing machine.

In a further implementation, the brick storage apparatus comprises: the brick storage line frame is arranged on the brick storage line frame; the brick storage conveying mechanism is provided with a brick storage conveying belt, and the brick storage conveying belt is used for bearing brick piles placed on a brick loading machine and driving the brick piles to be conveyed to the brick arranging device.

In a further implementation, the brick row arrangement comprises: the brick arrangement line frame is arranged on the brick arrangement line frame; arrange and be provided with row brick conveyor belt on the brick conveying mechanism, row brick conveyor belt is used for receiving store up the brick pillar that brick conveyor belt carried, and drive the brick pillar is carried to the branch brick device.

In a further implementation, the brick arranging apparatus further comprises: the sensor bracket is arranged on the brick arrangement wire rack, and the infrared sensor is arranged on the sensor bracket; the infrared inductor set up in arrange brick conveyor belt's top, arrange the brick device still be used for according to infrared inductor arranges every brick pillar interval preset distance.

In a further implementation, the brick dividing apparatus includes: the brick distributing and conveying mechanism is arranged on the brick distributing wire frame; the brick separating and conveying mechanism is provided with a brick separating and conveying belt, and the brick separating and conveying belt is used for receiving brick piles conveyed by the brick arranging and conveying belt.

In a further implementation, the brick dividing mechanism comprises: the brick distributing bracket is arranged on the brick distributing wire frame, and the brick blocking bracket is arranged on the brick distributing bracket; the brick blocking support is positioned above the brick dividing conveying belt, a gap is formed between the lower end face of the brick blocking support and the upper end face of the brick dividing conveying belt, and the height of the gap is larger than the thickness of a single ceramic brick and smaller than the thickness of two ceramic bricks.

In a further implementation manner, a buffer part is arranged on one side of the brick blocking bracket facing the brick discharge device, and the buffer part is used for buffering the blocked ceramic bricks.

In a further implementation manner, the brick dividing support comprises a first brick dividing support arranged on one side of the brick dividing conveying belt and a second brick dividing support arranged on the other side of the brick dividing conveying belt; the brick blocking bracket is erected between the first brick dividing bracket and the second brick dividing bracket;

the brick dividing support is a steel plate brick dividing support, the brick blocking support is a steel plate brick blocking support, and the buffering part is a rubber layer.

In a further implementation, the brick arranging apparatus further comprises: the guide mechanism is arranged on the brick arranging wire rack; the guide mechanism is arranged on two sides of the brick arraying and conveying belt and used for guiding brick piles on the brick arraying and conveying belt.

The utility model provides a store up brick row's brick equipment, it includes to store up brick row's brick equipment: the brick storage device, the brick discharge device and the brick distribution device are arranged in sequence; the brick storage device is used for bearing and conveying brick piles placed on the brick loading machine; the brick arranging device is used for receiving a plurality of brick piles conveyed by the brick storage device and conveying the brick piles to the brick distributing device in sequence; the brick separating device is used for sequentially receiving brick piles on the brick arranging device, dividing the brick piles into single-piece ceramic bricks during the brick separating mechanism and sequentially conveying the single-piece ceramic bricks to the polishing machine. The utility model discloses place the brick pillar on storing up the brick device, utilize row's brick device to carry the brick pillar in proper order, when carrying to dividing the brick device on, when dividing brick mechanism, fall into the monolithic pottery brick with the brick pillar, both improved conveying efficiency, avoid the equipment trouble and the easy damaged problem of product that transmission band speed arouses too fast again.

Drawings

Fig. 1 is a perspective view of the preferred embodiment of the brick arranging equipment for storing bricks in the utility model.

Fig. 2 is a perspective view of a line stand in a preferred embodiment of the brick arranging equipment for storing bricks.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 2.

Fig. 5 is a perspective view of a brick dividing mechanism in a preferred embodiment of the brick storage and arrangement device of the present invention.

Fig. 6 is an exploded view of the brick dividing mechanism in the preferred embodiment of the brick storage and arrangement equipment of the present invention.

Fig. 7 is a schematic view of the working principle of the preferred embodiment of the brick arranging equipment for storing bricks in the utility model.

Fig. 8 is an enlarged view at C in fig. 7.

Description of reference numerals:

100. a brick storage device; 110. a brick storage wire rack; 120. a brick storage conveying belt; 200. a brick arranging device; 210. a brick arrangement wire rack; 220. brick-row conveying belts; 230. an inductor support; 240. an infrared sensor; 250. a guide mechanism; 300. a brick separating device; 310. a brick separating mechanism; 311. a brick dividing support; 3111. a first brick dividing support; 3112. a second brick dividing bracket; 312. a brick blocking bracket; 313. a buffer section; 320. a brick distributing wire frame; 330. a brick separating conveying belt; 400. feeding the brick machine; 500. and (6) piling bricks.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

For the original brick storage and arrangement technology, the sucker type brick feeding machine can feed 3 bricks at the same time in each action, and 3 ceramic bricks are sequentially arranged without being piled into a brick pile. And when 3 bricks are placed once, the brick feeding machine section brick feeding line frame corresponding to the brick feeding machine conveys the ceramic bricks to the subsection brick storage brick feeding line frame, and the next row of ceramic bricks can be placed only when the brick feeding machine section brick feeding line frame is empty during each action of the brick feeding machine. That is, in the original brick storage and arrangement technology, when ceramic bricks are conveyed, each ceramic brick is sequentially arranged on a wire rack for transportation; thus, the efficiency of the brick feeding machine is affected, the working efficiency is 30 pieces/min, and 10 actions are needed (including brick walking time).

The utility model aims to reduce the waiting time of brick discharging of the brick discharging belt of the brick feeding machine and improve the effective operation efficiency; and the amount of flowing bricks on the production line is increased, the speed of the conveyor belt is reduced, and the load of the motor is reduced, so that the brick is fully filled in the polishing machine, the collision is reduced, and the product defects are reduced.

Referring to fig. 1 and 2, the utility model provides a brick arrangement equipment for storing bricks, including: the brick storage device 100, the brick discharge device 200 and the brick distribution device 300; the brick storage device 100, the brick discharge device 200 and the brick distribution device 300 are sequentially arranged. The brick storage device 100 is used for bearing and conveying a brick pile 500 placed on the brick loading machine 400; the brick arranging device 200 is used for receiving a plurality of brick piles 500 conveyed by the brick storage device 100 and conveying the brick piles 500 to the brick separating device 300 in sequence; one end of the brick separating device 300, which is far away from the brick arranging device 200, is provided with a brick separating mechanism 310, the brick separating device 300 is used for sequentially receiving brick piles 500 on the brick arranging device 200, and dividing the brick piles 500 into single-piece ceramic bricks when passing through the brick separating mechanism 310, and sequentially conveying the single-piece ceramic bricks to a polishing machine.

Thus, after receiving the plurality of brick stacks 500 placed by the brick loading machine 400, the brick storage device 100 conveys the plurality of brick stacks 500 to the brick arranging device 200; the brick arranging device 200 receives a plurality of brick piles 500, arranges the brick piles 500 at a preset distance, and sequentially conveys the brick piles 500 to the brick separating device 300; the brick separating device 300 sequentially receives the brick pile 500 on the brick arranging device 200, separates the brick pile 500 into single ceramic bricks by using the brick separating mechanism 310, and sequentially conveys the single ceramic bricks to the polishing machine.

For example, the brick loading machine 400 is a suction cup type brick loading machine, and the brick loading machine 400 is erected above the brick storage device 100. Go up brick machine 400 and be provided with the sucking disc main part, be provided with many pairs of sucking disc gaskets on the sucking disc main part, for example, be provided with 3 pairs of sucking disc gaskets, 3 pairs of sucking disc gaskets set up side by side. Thus, each pair of suction cup pads can suck one ceramic tile and place 3 tiles side by side on the tile storage device 100. The utility model discloses make brick machine 400 go on a lot of at every turn and go up the brick action, stack the ceramic brick into brick pillar 500, for example, stack the ceramic brick 4-5, that is to say, 3 brick pillars 500 have been placed last time to brick storage device 100, and every brick pillar 500 is 4-5 that stack. The brick storage facility 100 delivers 3 brick stacks 500 to the brick discharge facility 200.

Therefore, the original brick storage and arrangement technology can only convey 3 ceramic bricks each time, and the ceramic bricks are conveyed to a polishing machine one by one on a conveying line all the time; the utility model discloses an then can carry 12-15 ceramic tiles, remain the mode transportation with brick pillar 500 all the time on the transfer line, before reacing the burnishing machine, utilize and divide brick pillar 500 that brick mechanism 310 will divide on the brick device 300 to fall into the monolithic ceramic tile, both guaranteed to transport to the burnishing machine be monolithic ceramic tile, reduced the time interval who transports ceramic tile again to conveying efficiency and production efficiency have been promoted.

In one implementation, referring to fig. 2, the brick storage device 100 includes: the brick storage device comprises a brick storage wire frame 110 and a brick storage conveying mechanism arranged on the brick storage wire frame 110; the brick storage and conveying mechanism is provided with a brick storage and conveying belt 120, and the brick storage and conveying belt 120 is used for bearing brick piles 500 placed on the brick loading machine 400 and driving the brick piles 500 to be conveyed to the brick arranging device 200.

In a further implementation, the brick work arrangement 200 comprises: the brick arranging line frame 210 and the brick arranging conveying mechanism arranged on the brick arranging line frame 210; arrange and be provided with row brick conveyor belt 220 on the brick conveying mechanism, row brick conveyor belt 220 is used for receiving store up brick pillar 500 that brick conveyor belt 120 carried, and drive brick pillar 500 carries to branch brick device 300. Specifically, the ceramic tiles are conveyed from the tile storage device 100 to the polishing machine set, the distance is generally 20-30 meters, and in order to ensure the stability of the equipment, the tile arrangement line frame 210 of the tile arrangement device 200 is generally divided into short shelves of 1-1.5 meters according to the size of the ceramic tiles, that is, the tile arrangement device 200 comprises a plurality of sequentially arranged tile arrangement short shelf mechanisms, and the plurality of tile arrangement short shelf mechanisms are sequentially connected end to end.

In one implementation, referring to fig. 3, the brick arranging apparatus 200 further includes: an inductor bracket 230 arranged on the brick arranging wire rack 210, and an infrared inductor 240 arranged on the inductor bracket 230; infrared inductor 240 set up in arrange brick conveyor belt 220's top, arrange brick device 200 still be used for according to infrared inductor 240 arranges every brick pillar 500 interval preset distance.

That is, to further ensure that brick row 200 can bear the weight of brick stack 500, brick row mechanism arranges brick stack 500 a predetermined distance apart for each brick stack 500, and senses the position of brick stack 500 using infrared sensor 240. Specifically, during conveying, each brick-arraying short-gear mechanism can be assigned with one brick pile 500, and the infrared sensor 240 fixed above the brick-arraying conveying belt 220 and the background control system are used for splitting the 3 piles of products conveyed by the brick-storing conveying belt 120 into the independent brick piles 500, that is, the 3 brick piles 500 are assigned to the 3 brick-arraying short-gear mechanisms, and each brick-arraying short-gear mechanism stores one pile of ceramic bricks. According to the total distance of the brick arranging device 200, 20-30 piles of ceramic bricks are placed in total, 80-100 ceramic bricks are placed, each brick pile 500 is 4-6 ceramic bricks, and the blank line speed can be reduced by more than 50% compared with the original running speed for conveying single ceramic bricks.

In one implementation, the brick separating device 300 includes: the brick distributing and conveying mechanism is arranged on the brick distributing wire frame 320; divide and be provided with branch brick conveyor belt 330 on the brick conveying mechanism, branch brick conveyor belt 330 is used for receiving brick pillar 500 that row brick conveyor belt 220 carried.

In one implementation, referring to fig. 4, the tile distributing mechanism 310 includes: the brick distributing bracket 311 is arranged on the brick distributing wire rack 320, and the brick blocking bracket 312 is arranged on the brick distributing bracket 311; the brick blocking bracket 312 is positioned above the brick dividing conveying belt 330, a gap is formed between the lower end surface of the brick blocking bracket 312 and the upper end surface of the brick dividing conveying belt 330, and the height of the gap is larger than the thickness of a single ceramic brick and smaller than the thickness of two ceramic bricks.

Specifically, referring to fig. 7 and 8, when the brick pile 500 is transported on the brick separating conveying belt 330 of the brick separating device 300, the brick blocking bracket 312 on the brick separating mechanism 310 is located below the brick separating mechanism 310, so that the rest of the brick piles 500 except the bottommost one of the bricks are blocked, the one of the bricks contacting the brick separating conveying belt 330 at the bottommost is driven by the brick separating conveying belt 330 under the action of friction force, and passes through the gap between the lower end surface of the brick blocking bracket 312 and the upper end surface of the brick separating conveying belt 330, and since the height of the gap is greater than the thickness of a single brick and less than the thickness of two bricks, only the bottommost brick D of the brick pile 500 can pass through. Therefore, after passing through the brick separating mechanism 310, the single ceramic bricks are arranged on the brick separating conveying belt 330 and can be normally conveyed to the polishing machine. For example, the height of the gap may be slightly greater than the thickness of a monolithic ceramic tile. That is, between the single ceramic tile at the bottom of the brick stack 500 and the brick separating conveying belt 330, the single ceramic tile is dragged out of the brick stack 500 due to the friction force of the belt, and other ceramic tiles on the brick stack 500 are blocked by the brick blocking bracket 312 and cannot pass through, so that the brick separating effect is formed.

When the lowermost tile is completely moved out of the blocking bracket 312, the blocked tile E in the tile stack 500 automatically falls onto the tile-dividing conveyor belt 330, and the second operation is started. After the brick pile 500 is completely removed, the brick arranging device 200 supplements the brick pile 500. Therefore, the speed of the single ceramic tiles entering the polishing wire rack is slightly higher than that of polishing machine equipment to form the extruded tiles, and the ceramic tiles without gaps are ensured to enter the polishing machine set for polishing operation in sequence.

Further, in order to increase the stability of the blocking brick support 312, the blocking brick support 312 includes a blocking brick portion and a reinforcing portion, which are vertically disposed.

In one implementation, the side of the brick retaining bracket 312 facing the brick arranging device 200 is provided with a buffer portion 313, and the buffer portion 313 is used for buffering the retained ceramic bricks. That is, the brick stopper is further provided with a buffer portion 313 at a position contacting the brick pile 500 to prevent the damage of the ceramic bricks on the brick pile 500 due to the impact.

In one implementation, referring to fig. 5 and 6, the tile dividing support 311 includes a first tile dividing support 3111 disposed on one side of the tile dividing conveyor belt 330, and a second tile dividing support 3112 disposed on the other side of the tile dividing conveyor belt 330; the blocking brick support 312 is erected between the first brick dividing support 3111 and the second brick dividing support 3112. The arrangement of the first tile distribution bracket 3111 and the second tile distribution bracket 3112 ensures that the stability of the tile distribution mechanism 310 is guaranteed when the brick stack 500 hits the blocking bracket 312. The brick dividing support 311 is a steel plate brick dividing support 311, the brick blocking support 312 is a steel plate brick blocking support 312, and the buffer part 313 is a rubber layer. Further increasing the stability of the tile dispensing mechanism 310 and ensuring that the ceramic tiles are not damaged.

In one implementation, the brick work arrangement 200 further comprises: a guide mechanism 250 arranged on the brick arranging wire rack 210; guiding mechanism 250 sets up arrange brick conveyor 220's both sides, be used for right arrange brick pillar 500 on brick conveyor 220 leads. The guiding mechanism 250 is provided with a guiding wheel for guiding the edges of the two sides of the brick pile 500, so that the brick pile 500 is always aligned with the middle line of the brick separating conveying belt 330 for conveying and does not deviate from the conveying line. The guide mechanism 250 is provided in plurality.

Thus, the utility model discloses need not drop into brick machine down in addition, because the promotion of last brick efficiency can satisfy burnishing machine machining efficiency to store up the base with the 500 forms of brick pillar on whole walking the base line, guarantee to be full brick state in the burnishing machine all the time. The investment of a brick discharging machine is saved by 18 ten thousand yuan per table, and the power consumption of the brick discharging machine is saved by 120 kwh/day; the conveying speed of the polishing production line is reduced by 50%, the load of a motor is reduced by 20%, and the equipment abrasion and faults are relatively reduced due to the reduction of the speed; maintenance is not needed, and the brick discharging effect is good.

The working principle of the utility model is as follows: the brick storage device conveys a plurality of brick piles to the brick arranging device after receiving the plurality of brick piles placed on the brick feeding machine; the brick arranging device receives a plurality of brick piles, arranges the brick piles at intervals of a preset distance, and sequentially conveys the brick piles to the brick distributing device; the brick separating device sequentially receives brick piles on the brick arranging device, divides the brick piles into single ceramic bricks when passing through the brick separating mechanism, and sequentially conveys the single ceramic bricks to the polishing machine.

That is, the brick feeding machine lifts the product (ceramic brick) to the production line from 1 piece to a plurality of pieces/stacks (such as 4-6 pieces/stacks); the piled bricks realize flowing brick storage in the production line; the brick dividing mechanism realizes automatic dividing into single ceramic bricks; and the single ceramic tiles enter a polishing unit one by one to carry out a polishing process.

For example, the sucker type brick feeding machine sucks and places the ceramic bricks on the brick pile on a brick storage conveying belt of a brick storage device, and 4 layers are placed in total; the infrared sensor fixed above the brick arranging device is used for controlling the advance of the brick pile, and the bricks are stored in a flowing manner on a brick arranging conveying belt of the brick arranging device; when the ceramic tiles advance to the tile distributing device, the tile distributing mechanism fixed above the tile distributing wire frame separates 4 ceramic tiles in a brick pile, and the ceramic tiles are sequentially conveyed to the polishing wire frame, and the space between the ceramic tiles on the polishing wire frame is about 5 mm.

To sum up, the utility model discloses a store up brick row brick equipment, it includes to store up brick row brick equipment: the brick storage device, the brick discharge device and the brick distribution device are arranged in sequence; the brick storage device is used for bearing and conveying brick piles placed on the brick loading machine; the brick arranging device is used for receiving a plurality of brick piles conveyed by the brick storage device and conveying the brick piles to the brick distributing device in sequence; the brick separating device is used for sequentially receiving brick piles on the brick arranging device, dividing the brick piles into single-piece ceramic bricks during the brick separating mechanism and sequentially conveying the single-piece ceramic bricks to the polishing machine. The utility model discloses place the brick pillar on storing up the brick device, utilize row's brick device to carry the brick pillar in proper order, when carrying to dividing the brick device on, when dividing brick mechanism, fall into the monolithic pottery brick with the brick pillar, both improved conveying efficiency, avoid the equipment trouble and the easy damaged problem of product that transmission band speed arouses too fast again.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (9)

1. A brick storage and arrangement device is characterized by comprising: the brick storage device, the brick discharge device and the brick distribution device are arranged in sequence; the brick storage device is used for bearing and conveying brick piles placed on the brick loading machine; the brick arranging device is used for receiving a plurality of brick piles conveyed by the brick storage device and conveying the brick piles to the brick distributing device in sequence; the brick separating device is used for sequentially receiving brick piles on the brick arranging device, dividing the brick piles into single-piece ceramic bricks during the brick separating mechanism and sequentially conveying the single-piece ceramic bricks to the polishing machine.

2. The brick storage and discharge apparatus of claim 1, wherein the brick storage device comprises: the brick storage line frame is arranged on the brick storage line frame; the brick storage conveying mechanism is provided with a brick storage conveying belt, and the brick storage conveying belt is used for bearing brick piles placed on a brick loading machine and driving the brick piles to be conveyed to the brick arranging device.

3. The brick storage and arrangement apparatus according to claim 2, wherein the brick arrangement device comprises: the brick arrangement line frame is arranged on the brick arrangement line frame; arrange and be provided with row brick conveyor belt on the brick conveying mechanism, row brick conveyor belt is used for receiving store up the brick pillar that brick conveyor belt carried, and drive the brick pillar is carried to the branch brick device.

4. The brick storage and arrangement apparatus according to claim 3, wherein the brick arrangement device further comprises: the sensor bracket is arranged on the brick arrangement wire rack, and the infrared sensor is arranged on the sensor bracket; the infrared inductor set up in arrange brick conveyor belt's top, arrange the brick device still be used for according to infrared inductor arranges every brick pillar interval preset distance.

5. The brick storage and arrangement apparatus according to claim 3, wherein the brick dividing device comprises: the brick distributing and conveying mechanism is arranged on the brick distributing wire frame; the brick separating and conveying mechanism is provided with a brick separating and conveying belt, and the brick separating and conveying belt is used for receiving brick piles conveyed by the brick arranging and conveying belt.

6. The brick storage and arrangement apparatus according to claim 5, wherein the brick dividing mechanism comprises: the brick distributing bracket is arranged on the brick distributing wire frame, and the brick blocking bracket is arranged on the brick distributing bracket; the brick blocking support is positioned above the brick dividing conveying belt, a gap is formed between the lower end face of the brick blocking support and the upper end face of the brick dividing conveying belt, and the height of the gap is larger than the thickness of a single ceramic brick and smaller than the thickness of two ceramic bricks.

7. The brick storage and arrangement device according to claim 6, wherein a buffer part is provided on the brick retaining bracket on a side facing the brick arrangement device, and the buffer part is used for buffering the retained ceramic bricks.

8. The brick storage and arrangement device according to claim 7, wherein the brick dividing support comprises a first brick dividing support arranged on one side of the brick dividing conveying belt and a second brick dividing support arranged on the other side of the brick dividing conveying belt; the brick blocking bracket is erected between the first brick dividing bracket and the second brick dividing bracket;

the brick dividing support is a steel plate brick dividing support, the brick blocking support is a steel plate brick blocking support, and the buffering part is a rubber layer.

9. The brick storage and arrangement apparatus according to claim 3, wherein the brick arrangement device further comprises: the guide mechanism is arranged on the brick arranging wire rack; the guide mechanism is arranged on two sides of the brick arraying and conveying belt and used for guiding brick piles on the brick arraying and conveying belt.

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