CN214610003U

CN214610003U - Fragment of brick cooling transfer chain

Info

Publication number: CN214610003U
Application number: CN202120198476.6U
Authority: CN
Inventors: 陈开能; 杨春院; 高发昌
Original assignee: Qujing Yiertai Building Materials Co ltd
Current assignee: Qujing Yiertai Building Materials Co ltd
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-11-05
Anticipated expiration: 2031-01-25

Abstract

The utility model relates to a brick cooling conveyor line, belonging to the technical field of brick production equipment; the top parts of the chain type lifting tower and the chain type lowering tower are provided with a transverse pushing device for operating brick blocks on the chain type lifting tower to the chain type lowering tower, the left side and the right side of the parallel conveying mechanism are provided with a first shunting conveyor belt mechanism, the tail part of the parallel conveying mechanism is in butt joint with a second shunting conveyor belt mechanism, and the bottom part of the parallel conveying mechanism is provided with a reversing conveying mechanism for reversing and conveying bricks to the first shunting conveyor belt mechanism; the utility model discloses can increase the transport distance of brick in the space, extension cooling time can drive switching-over conveying mechanism and parallel conveying mechanism simultaneously and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, and first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to different stations and carry out processes such as fragment of brick stack and tie up, have promoted conveying efficiency greatly.

Description

Fragment of brick cooling transfer chain

Technical Field

The utility model relates to a fragment of brick cooling transfer chain belongs to fragment of brick production facility technical field.

Background

After the brick is fired the process, need operate after the cooling, in current factory, the factory building, because of the land used is limited, there is not longer transport distance, the cooling effect is relatively poor, if adopt and reduce conveying speed and prolong the cooling time, will reduce the brick speed of leaving the kiln, influence production efficiency, carry out processes such as fragment of brick stack and ligature, but present fragment of brick transfer chain generally only has one, need carry out the operation of single process one by one and just can input next a set of fragment of brick, also have the different fragment of brick of specification at the in-process of producing the fragment of brick simultaneously, need separately operate to different stations and operate, the efficiency of fragment of brick production has been influenced greatly.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that exists among the background art, the utility model discloses can increase the transport distance of brick in the space, extension cooling time can drive switching-over conveying mechanism and parallel conveying mechanism simultaneously and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, and first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to the station of difference and carry out processes such as fragment of brick stack and tie up, have promoted conveying efficiency greatly.

In order to overcome the problem that exists among the background art, for solving above-mentioned problem, the utility model discloses a following technical scheme realizes:

the brick cooling conveying line comprises a chain type lifting tower, a chain type lowering tower, a transverse pushing device, a conveying device, a main conveying belt mechanism, a first shunting conveying belt mechanism, a second shunting conveying belt mechanism, a parallel conveying mechanism and a reversing conveying mechanism, wherein the chain type lifting tower and the chain type lowering tower are mutually butted, the top parts of the chain type lifting tower and the chain type lowering tower are provided with the transverse pushing device for moving brick blocks on the chain type lifting tower to the chain type lowering tower, the feeding end of the chain type lifting tower and the discharging end of the chain type lowering tower are respectively provided with the conveying device, the conveying device close to the chain type lowering tower is butted with the main conveying belt mechanism, the parallel conveying mechanism is butted with the tail part of the main conveying belt mechanism, the left side and the right side of the parallel conveying mechanism are provided with the first shunting conveying belt mechanism, the tail part of the parallel conveying mechanism is butted with the second shunting conveying belt mechanism, and the top part of the parallel conveying mechanism is provided with a CCD camera connected to the PLC through a bracket, and a reversing conveying mechanism for reversing and conveying bricks to the first shunting conveying belt mechanism is arranged at the bottom of the parallel conveying mechanism.

Preferably, the tower is transferred to chain hoisting tower, chain all include pylon, chain drive assembly, motor, lapping plate, two chain drive assemblies pass through the bearing and install respectively in the relative both sides of pylon, the motor is connected with the drive of two chain drive assemblies, the even fixed mounting of lapping plate is on chain drive assembly.

Preferably, the transverse pushing device comprises a fixing frame, a sliding rail, an I-shaped sliding frame, a clamping jaw and a chain type driving assembly, the fixing frame is fixedly installed at the top of the chain type lifting tower and the top of the chain type lowering tower, the sliding rail is fixedly installed at the bottom of the fixing frame, the I-shaped sliding frame is slidably installed in the sliding rail, the clamping jaw is installed at the bottom of the I-shaped sliding frame, the chain type driving assembly is installed on the fixing frame, and a chain of the chain type driving assembly is fixedly connected with the I-shaped sliding frame.

Preferably, the conveying device comprises a rack and a double-row conveying chain assembly, the double-row conveying chain assembly is installed on the rack, a cross beam is arranged on the rack, a sliding groove is formed in the cross beam, and a conveying chain of the double-row conveying chain assembly is slidably arranged in the sliding groove.

Preferably, the parallel conveying mechanism comprises a conveying roller, a main transmission gear, a first belt transmission mechanism, a first transmission motor and an auxiliary transmission gear, the conveying roller is installed in the frame-shaped support through a bearing, adjacent conveying rollers are parallel to each other, the main transmission gear is fixedly installed on a roller shaft of the conveying roller, the auxiliary transmission gear is meshed between the adjacent main transmission gears, and the conveying roller is connected with the first transmission motor through the first belt transmission mechanism.

Preferably, the reversing conveying mechanism comprises a chain transmission mechanism, a reversing support, an air cylinder, a second transmission belt mechanism and a second transmission motor, two groups of chain transmission mechanisms are mounted on the reversing support, the chain transmission mechanisms are located between conveying rollers of the parallel conveying mechanism, a rotating shaft connected with the second transmission motor is mounted on the reversing support, the second transmission belt mechanism connected with the chain transmission mechanisms is mounted on the rotating shaft, and the air cylinder is mounted at the bottom of the reversing support.

The utility model has the advantages that:

the utility model discloses can increase the transport distance of brick in the space, extension cooling time can drive switching-over conveying mechanism and parallel conveying mechanism simultaneously and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, and first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to different stations and carry out processes such as fragment of brick stack and tie up, have promoted conveying efficiency greatly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

figure 2 is a schematic view of the cooling tower of the present invention.

Fig. 3 is a perspective view of the horizontal pushing device of the present invention.

Fig. 4 is a schematic view of the horizontal pushing device of the present invention showing the vertical axis.

Fig. 5 is a partially enlarged schematic view of a portion a of fig. 3.

Fig. 6 is a schematic perspective view of the chain type lifting tower of the present invention.

Fig. 7 is a schematic perspective view of the upstream conveying device of the present invention.

Fig. 8 is a partially enlarged schematic view of fig. 6 at B.

FIG. 9 is a perspective view illustrating the operation state of the present invention;

fig. 10 is a top view of the present invention;

fig. 11 is a schematic view of the reversing conveying mechanism of the present invention;

fig. 12 is a side view of the reversing conveying mechanism of the present invention;

FIG. 13 is a front view of the parallel conveying mechanism of the present invention;

fig. 14 is a schematic structural view of the parallel conveying mechanism of the present invention.

The reference numbers in the figures are: 1-chain type lifting tower, 2-chain type lowering tower, 3-transverse pushing device, 4-upstream conveying device, 5-downstream conveying device, 6-brick block group, 7-tower frame, 8-second chain type driving component, 9-third conveying motor, 10-lapping plate, 11-resisting block, 12-worm gear reducer, 13-fixing frame, 14-sliding rail, 15-I-shaped sliding frame, 16-clamping jaw, 17-first chain type driving component, 18-strip chain, 19-chain wheel, 20-driving motor, 21-limiting block, 22-rack, 23-double-row conveying chain component, 24-beam, 25-sliding chute, 26-main conveying belt mechanism, 27-first shunt conveying belt mechanism, 28-second shunt conveying belt mechanism, 29-a parallel conveying mechanism, 30-a reversing conveying mechanism, 31-a chain transmission mechanism, 32-a reversing bracket, 33-an air cylinder, 34-an anti-skid belt, 35-a conveying roller, 36-a main transmission gear, 37-a first belt transmission mechanism, 38-a first transmission motor, 39-an auxiliary transmission gear, 40-a second transmission belt mechanism, 41-a second transmission motor, 42-a CCD camera and 43-a rotating shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will explain in detail a preferred embodiment of the present invention with reference to the accompanying drawings to facilitate understanding of the skilled person.

As shown in fig. 1-14, the brick cooling conveying line includes a chain type lifting tower 1, a chain type lowering tower 2, a transverse pushing device 3, a conveying device, a main conveying belt mechanism 26, a first branch conveying belt mechanism 27, a second branch conveying belt mechanism 28, a parallel conveying mechanism 29, and a reversing conveying mechanism 30, the chain type lifting tower 1 and the chain type lowering tower 2 are butted with each other, the transverse pushing device 3 for operating the brick block group 6 on the chain type lifting tower 1 to the chain type lowering tower 2 is installed on the top of the chain type lifting tower 1 and the chain type lowering tower 2, the conveying device is installed on the feeding end of the chain type lifting tower 1 and the discharging end of the chain type lowering tower 2 respectively, the main conveying belt mechanism 26 is butted on the conveying device close to the chain type lowering tower 2, the parallel conveying mechanism 29 is butted on the tail portion of the main conveying belt mechanism 26, the first branch conveying belt mechanisms 27 are installed on the left side and the right side of the parallel conveying mechanism 29, the tail part of the parallel conveying mechanism 29 is butted with a second shunting conveying belt mechanism 28, the top part of the parallel conveying mechanism 29 is provided with a CCD camera 42 connected to a PLC through a bracket, and the bottom part of the parallel conveying mechanism 29 is provided with a reversing conveying mechanism 30 used for reversing and conveying bricks to the first shunting conveying belt mechanism 27. In this embodiment, conveyor includes upstream conveyor 4 that installs at the pan feeding end of chain hoist tower 1 to and install downstream conveyor 5 that descends the discharge end of tower 2 at the chain, and chain hoist tower 1 and chain descend tower 2 structure unanimous, only drive opposite direction.

The bottom end of the chain type lifting tower 1 is in butt joint with the tail end of the upstream conveying device 4, the chain type lowering tower 2 is fixedly arranged on one side of the chain type lifting tower 1, the transverse pushing device 3 is fixedly arranged at the tops of the chain type lifting tower 1 and the chain type lowering tower 2, and the downstream conveying device 5 is in butt joint with the bottom end of the chain type lowering tower 2; the utility model can increase the conveying distance of the brick in space, prolong the cooling time, simultaneously not affect the kiln discharging efficiency of the brick, ensure the production efficiency and ensure the quality of the brick; the transverse pushing device 3 comprises a fixed frame 13, a sliding rail 14, an I-shaped sliding frame 15, a clamping jaw 16 and a first chain type driving assembly 17, wherein the fixed frame 13 is fixedly arranged at the tops of a chain type lifting tower 1 and a chain type lowering tower 2, the sliding rail 14 is fixedly arranged at the bottom of the fixed frame 13, the I-shaped sliding frame 15 is slidably arranged in the sliding rail 14, the clamping jaw 16 is arranged at the bottom of the I-shaped sliding frame 15, the first chain type driving assembly 17 is arranged on the fixed frame 13, and a chain of the first chain type driving assembly 17 is fixedly connected with the I-shaped sliding frame 15; when chain hoisting tower 1 promoted the delivery board and fragment of brick group 6 to 1 top of chain hoisting tower, chain hoisting tower 1 stopped driving, and violently push device 3 transferred delivery board and fragment of brick group 6 to the chain and transferred tower 2 on, transferred tower 2 by the chain and carried downwards again.

The first chain type driving assembly 17 comprises a strip-shaped chain 18, chain wheels 19 and a driving motor 20, the two chain wheels 19 are arranged on the fixed frame 13 through two rotating shafts, the strip-shaped chain 18 is meshed with the two chain wheels 19, two ends of the strip-shaped chain 18 are respectively connected with two ends of the I-shaped sliding frame 15, and the driving motor 20 is in driving connection with the rotating shafts; the first chain type driving assembly 17 drives the I-shaped sliding frame 15 to reciprocate, and the carrying plate and the brick group 6 are pushed to the top of the chain type lowering tower 2 from the bottom of the chain type lifting tower 1. The clamping jaw 16 is hinged to the bottom of the I-shaped sliding frame 15, and a limiting block 21 for limiting the clamping jaw 16 is arranged on the I-shaped sliding frame 15 outside the clamping jaw 16; the clamping jaw 16 is hinged to the bottom of the I-shaped sliding frame 15, so that the I-shaped sliding frame 15 does not need to be intermittently separated from the chain type lifting tower 1 and the chain type lowering tower 2 in a return process (a process of not pushing and conveying the plate and the brick group 6), the clamping jaw can work simultaneously, the hinged part can ensure that the clamping jaw 16 swings, and hard interference cannot be formed; when tower 2 motion targets in place under chain promotion tower 1 and the chain, tower 2 stop motion is transferred to chain promotion tower 1 and chain, and violently push away device 3 promotes delivery board and fragment of brick group 6, and stopper 21 prevents 16 reverse oscillations of jack catch, guarantees to transfer board and fragment of brick group 6 propelling movement to the chain and transfer tower 2 top.

The chain type lifting tower 1 and the chain type lowering tower 2 are respectively provided with a tower frame 7, second chain type driving assemblies 8, a third conveying motor 9 and lapping plates 10, the two second chain type driving assemblies 8 are respectively arranged on two opposite sides of the tower frame 7 through bearings, the third conveying motor 9 is in driving connection with the two second chain type driving assemblies 8, and the lapping plates 10 are uniformly and fixedly arranged on the second chain type driving assemblies 8; the upstream conveying device 4 conveys the carrying plate and the brick group 6 to the bottom of the chain type lifting tower 1, and in the moving process of the chain type lifting tower 1, the lapping plate 10 is supported at the bottom of the carrying plate to lift the carrying plate and the brick group 6 upwards. Two ends of the bridging plate 10 are provided with abutting blocks 11 capable of abutting against the tower 7, so that the second chain type driving assembly 8 is prevented from being subjected to larger lateral force when the transverse pushing device 3 pushes the supporting plate and the brick group 6. The third conveying motor 9 simultaneously drives the two second chain type driving assemblies 8 through the worm gear reducer 12, synchronous driving of the two second chain type driving assemblies 8 is guaranteed, meanwhile, the worm gear reducer 12 has an automatic locking function during reverse driving, and working safety is guaranteed. After the transverse pushing device 3 pushes the supporting plate and the brick group 6 to the chain type lowering tower 2, the chain type lowering tower 2 continuously conveys the supporting plate and the brick group 6 downwards and places the supporting plate and the brick group on the downstream conveying device 5.

Conveyor includes frame 22, double conveying chain subassembly 23 install in frame 22, frame 22 on be equipped with crossbeam 24, be equipped with spout 25 on the crossbeam 24, the conveying chain slidable of double conveying chain subassembly 23 sets up in spout 25, supports delivery board and fragment of brick group 6 and transport through double conveying chain subassembly 23.

The parallel conveying mechanism 29 comprises a conveying roller 35, a main transmission gear 36, a first belt transmission mechanism 37, a first transmission motor 38 and a secondary transmission gear 39, the conveying roller 35 is mounted in the frame-shaped bracket through a bearing, the adjacent conveying rollers 35 are parallel to each other, the main transmission gear 36 is fixedly mounted on a roller shaft of the conveying roller 35, the secondary transmission gear 39 is meshed between the adjacent main transmission gears 36, the conveying roller 35 is connected with the first transmission motor 38 through the first belt transmission mechanism 37, the parallel conveying mechanism 29 is mainly used for conveying the brick groups 6 to the second shunting conveying belt mechanism 28, direction movement is not carried out in the process, meanwhile, the reversing conveying mechanism 30 is not involved in conveying the brick groups 6 by the parallel conveying mechanism 29, the conveying roller 35 is fixedly mounted on the roller shaft, after the conveying roller 35 is driven by the first transmission mechanism 37, the conveying roller 35 rotates along with the roller shaft, during the period, the rollers distribute power to the conveying rollers 35 one by one through the matching of the main transmission gear 36 and the secondary transmission gear 39, so that the plurality of conveying rollers 35 run synchronously, when the brick group 6 is conveyed to the tail part of the main conveyor belt mechanism 26, the plurality of conveying rollers 35 run synchronously to convey the brick group 6 to the second diversion conveyor belt mechanism 28, and the brick group 6 is conveyed to the next process through the second diversion conveyor belt mechanism 28.

The reversing conveying mechanism 30 comprises a chain transmission mechanism 31, a reversing support 32, an air cylinder 33, a second transmission belt mechanism 40 and a second transmission motor 41, wherein two groups of chain transmission mechanisms 31 are installed on the reversing support 32, the chain transmission mechanisms 31 are located between the conveying rollers 35 of the parallel conveying mechanism 29, a rotating shaft 43 connected with the second transmission motor 41 is installed on the reversing support 32, the second transmission belt mechanism 40 connected with the chain transmission mechanisms 31 is installed on the rotating shaft 43, and the air cylinder 33 is installed at the bottom of the reversing support 32. In this embodiment, the reversing bracket 32 is provided with a rotating shaft 43 through a bearing seat, the rotating shaft 43 is connected with a second transmission motor 41, the rotating shaft 43 is provided with a belt wheel, the shaft provided with the chain transmission mechanism 31 is also provided with a belt wheel, the belt wheels corresponding to each other up and down are connected through a synchronous belt, the second transmission motor 41 drives the rotating shaft 43 to rotate, then the second transmission belt mechanism 40 is driven to drive the chain transmission mechanism 31 to work, the outer side of the chain transmission mechanism 31 is provided with an anti-slip belt 34 made of rubber, when in work, after the image is taken by the CCD camera 42, the conveying mechanism is required to be driven to reverse the brick group 6 to be conveyed to the second shunting conveyor belt mechanism 28, the air cylinder 33 works to jack up the reversing bracket 32, so that the position of the chain transmission mechanism 31 is higher than the conveying roller 35, the brick group 6 is jacked up, the second transmission motor 41 drives the chain transmission mechanism 31 to work, and the chain transmission mechanism 31 works, can transport brick group 6 to first reposition of redundant personnel conveyer belt mechanism 27 on, according to the actual production needs during, control second driving motor 41 just reverse can carry brick group 6 to different first reposition of redundant personnel conveyer belt mechanism 27, in this embodiment, first reposition of redundant personnel conveyer belt mechanism 27 is provided with two sets ofly, can carry brick group 6 to different processes for a main conveyer belt mechanism 26 can disperse to three production lines, promotes work efficiency greatly.

In this embodiment, the third conveying motor 9, the driving motor 20, the air cylinder 33, the first driving motor 38, the second driving motor 41, and the CCD camera 42 are all connected to the PLC, and after the picture is taken by the CCD camera 42, the PLC controls the air cylinder 33, the first driving motor 38, and the second driving motor 41 to operate, so as to control the operation direction of the brick block group 6.

The utility model discloses a working process: the upstream conveying device 4 conveys the carrying plate and the brick group 6 to the bottom of the chain type lifting tower 1, in the moving process of the chain type lifting tower 1, the lapping plate 10 is supported at the bottom of the carrying plate to lift the carrying plate and the brick group 6 upwards, when the carrying plate and the brick group 6 are lifted to the top of the chain type lifting tower 1 by the chain type lifting tower 1, the chain type lifting tower 1 stops driving, the transverse pushing device 3 pushes the carrying plate and the brick group 6 to the chain type lowering tower 2, and then the chain type lowering tower 2 conveys downwards (when the transverse pushing device 3 pushes the carrying plate and the brick group 6, the abutting blocks 11 at the two ends of the lapping plate 10 abut against the tower frame 7 to prevent the second chain type driving component 8 from receiving large lateral force), the carrying plate and the brick group 6 are continuously conveyed downwards by the chain type lowering tower 2, placed on the downstream conveying device 5 and continuously conveyed to the main conveyor belt mechanism 26 by the downstream conveying device 5, after the brick group 6 reaches the tail part and is shot by the CCD camera 42, when the brick group 6 needs to be conveyed to the first shunting conveyor belt mechanism 27 in a reversing way by driving the conveying mechanism, the reversing bracket 32 is jacked up by the operation of the air cylinder 33, so that the position of the chain transmission mechanism 31 is higher than that of the conveying roller 35, the brick group 6 is jacked up, the chain transmission mechanism 31 is driven to operate after the second transmission motor 41 is driven, the brick group 6 can be conveyed to the first shunting conveyor belt mechanism 27 by the operation of the chain transmission mechanism 31, and the brick group 6 can be conveyed to different first shunting conveyor belt mechanisms 27 by controlling the forward and reverse rotation of the second transmission motor 41 according to the actual production requirement in the process; when the brick group 6 needs to be transported to the second diversion conveyor 28, the driving cylinder 33 is driven to descend, so that the chain transmission mechanism 31 is lower than the conveying roller 35, and the brick group 6 can be conveyed to the second diversion conveyor 28 by the driving of the conveying roller 35.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, although the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a fragment of brick cooling transfer chain which characterized in that: the brick cooling conveying line comprises a chain type lifting tower, a chain type lowering tower, a transverse pushing device, a conveying device, a main conveying belt mechanism, a first shunting conveying belt mechanism, a second shunting conveying belt mechanism, a parallel conveying mechanism and a reversing conveying mechanism, wherein the chain type lifting tower and the chain type lowering tower are mutually butted, the top parts of the chain type lifting tower and the chain type lowering tower are provided with the transverse pushing device for moving brick blocks on the chain type lifting tower to the chain type lowering tower, the feeding end of the chain type lifting tower and the discharging end of the chain type lowering tower are respectively provided with the conveying device, the conveying device close to the chain type lowering tower is butted with the main conveying belt mechanism, the parallel conveying mechanism is butted with the tail part of the main conveying belt mechanism, the left side and the right side of the parallel conveying mechanism are provided with the first shunting conveying belt mechanism, the tail part of the parallel conveying mechanism is butted with the second shunting conveying belt mechanism, and the top part of the parallel conveying mechanism is provided with a CCD camera connected to the PLC through a bracket, and a reversing conveying mechanism for reversing and conveying bricks to the first shunting conveying belt mechanism is arranged at the bottom of the parallel conveying mechanism.

2. Brick cooling conveyor line according to claim 1, characterized in that: chain promote tower, chain transfer the tower and all include pylon, chain drive assembly, motor, lapping plate, two chain drive assemblies pass through the bearing and install respectively in the relative both sides of pylon, the motor is connected with two chain drive assembly drives, the even fixed mounting of lapping plate is on chain drive assembly.

3. Brick cooling conveyor line according to claim 1 or 2, characterized in that: the transverse pushing device comprises a fixing frame, a sliding rail, an I-shaped sliding frame, a clamping jaw and a chain type driving assembly, wherein the fixing frame is fixedly installed at the top of a chain type lifting tower and a chain type lowering tower, the sliding rail is fixedly installed at the bottom of the fixing frame, the I-shaped sliding frame is slidably installed in the sliding rail, the clamping jaw is installed at the bottom of the I-shaped sliding frame, the chain type driving assembly is installed on the fixing frame, and a chain of the chain type driving assembly is fixedly connected with the I-shaped sliding frame.

4. The brick cooling conveyor line according to claim 3, wherein: the conveying device comprises a rack and double-row conveying chain assemblies, wherein the double-row conveying chain assemblies are installed on the rack, a cross beam is arranged on the rack, a sliding groove is formed in the cross beam, and the conveying chain of the double-row conveying chain assemblies is slidably arranged in the sliding groove.

5. Brick cooling conveyor line according to claim 1 or 4, characterized in that: the parallel conveying mechanism comprises conveying rollers, a main transmission gear, a first belt transmission mechanism, a first transmission motor and an auxiliary transmission gear, the conveying rollers are installed in the frame-shaped support through bearings, adjacent conveying rollers are parallel to each other, the main transmission gear is fixedly installed on a roller shaft of each conveying roller, the auxiliary transmission gear is meshed between the adjacent main transmission gears, and the conveying rollers are connected with the first transmission motor through the first belt transmission mechanism.

6. Brick cooling conveyor line according to claim 5, characterized in that: the reversing conveying mechanism comprises a chain transmission mechanism, a reversing support, an air cylinder, a second transmission belt mechanism and a second transmission motor, wherein the reversing support is provided with two groups of chain transmission mechanisms, the chain transmission mechanisms are positioned between conveying rollers of the parallel conveying mechanism, a rotating shaft connected with the second transmission motor and the second transmission belt mechanism connected with the chain transmission mechanisms are arranged on the reversing support, and the air cylinder is arranged at the bottom of the reversing support.