CN209887907U - Splitting brick cutting device and splitting brick cutting conveying line - Google Patents

Abstract

The utility model discloses a cutting device of split brick for cut bar form cavity adobe, comprising a frame body, cut brick device and double-layered brick device, double-layered brick device is including two clamping pieces that are used for centre gripping bar form cavity adobe and be used for driving the mobile device of two clamping pieces in opposite directions or back on the body moving mutually, two clamping pieces are installed on mobile device, and two clamping pieces set up relatively, two clamping pieces are along vertically arranging in proper order, mobile device installs on the support body, cut the brick device including the cutting rope of longitudinal arrangement and the elevating gear who drives the rope oscilaltion of cutting, elevating gear installs on the support body, the array orientation parallel arrangement of cutting rope and two clamping pieces. Like this, need not the manual work and fix the cavity adobe, can realize automatic cutting, improved work efficiency, and this cutting device simple structure. The utility model also provides a cutting transfer chain of splitting brick.

Description

Splitting brick cutting device and splitting brick cutting conveying line

Technical Field

The utility model relates to a production and processing field, more specifically say and relate to a cutting device of split brick and cutting transfer chain of split brick.

Background

A split brick for decorating internal and external walls or floor is prepared from clay or feldspar through pulverizing, mixing, wet pulverizing, extruding by vacuum screw extruder to obtain hollow blank with two flat and thin surfaces and connected ribs, cutting, drying, high-temp sintering and manually or mechanically splitting along the weak connection position of ribs to obtain two pieces.

However, the hollow green bricks need to be manually fixed in the cutting process of the split bricks, and the cutting device has a complex structure and low working efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cutting device of split brick, it can realize automatic cutting, need not the manual work and fixes strip cavity adobe, has improved work efficiency, and simple structure.

Another object of the utility model is to provide a split cutting transfer chain of brick, it can accomplish cutting and transport automatically, and labour saving and time saving has improved work efficiency.

In order to achieve the above purpose, the utility model discloses a solution is:

the utility model provides a split cutting device of brick for cutting bar cavity adobe, include the support body, cut the brick device and press from both sides the brick device, with the length direction of support body is horizontal, and width direction is vertical, press from both sides the brick device including being used for two clamping pieces of centre gripping bar cavity adobe and being used for driving two the clamping piece is in opposite directions or the mobile device that moves back on the other hand, two the clamping piece install in mobile device is last, and two the clamping piece sets up relatively, two the clamping piece is followed the vertical arranging in proper order of support body, mobile device install in on the support body, cut the brick device including the cutting rope of longitudinal arrangement with be used for driving the elevating gear of cutting rope oscilaltion, elevating gear install in on the support body, cutting rope and two the array orientation of clamping piece is parallel.

The brick cutting device also comprises a brick cutting frame, the brick cutting frame is provided with two vertical sections which are arranged oppositely and a connecting section which connects the two vertical sections together, the connecting section is arranged longitudinally, and two ends of the cutting rope are respectively and fixedly arranged on the corresponding vertical sections;

the lifting device comprises a lifting cylinder, the lifting cylinder comprises a lifting cylinder body and a lifting piston rod, the lifting piston rod is installed on the lifting cylinder body, the lifting cylinder body is installed on the frame body, the lifting piston rod is vertically arranged, and the lower end of the lifting piston rod is fixedly connected to the connecting section.

The moving device comprises a pneumatic claw cylinder, a pneumatic claw cylinder body of the pneumatic claw cylinder is installed on the frame body, two fingers of the pneumatic claw cylinder are sequentially arranged along the longitudinal direction and are oppositely arranged, and the two clamping pieces are fixedly arranged on the corresponding fingers respectively.

The brick clamping device is provided with a plurality of brick cutting devices, each brick cutting device is sequentially arranged along the transverse direction of the frame body, the brick cutting devices are mutually arranged side by side, two clamping pieces on the same brick clamping device are a group of clamping piece groups, each clamping piece group is arranged in a transverse and longitudinal staggered mode, and each clamping piece group in the same longitudinal row is located between the two adjacent brick cutting devices.

The frame body is fixedly connected with the tail end of a stacking robot.

The utility model provides a split cutting transfer chain of brick, includes pile up neatly robot, is used for placing the cutting bed of the strip cavity adobe of polylith, is used for carrying the first conveyor and the aforesaid cutting device of each cubic cavity adobe to first conveyor's direction of transfer is by preceding orientation to the back, pile up neatly robot's end with support body fixed mounting is in the same place, the cutting bed with first conveyor arranges side by side, and, the cutting bed with first conveyor's front end all is in pile up neatly robot's working range.

The first conveying device is a synchronous belt conveying device, the synchronous belt conveying device comprises two synchronous belts, the two synchronous belts are correspondingly arranged on two sides of the frame body respectively, the split brick cutting conveying line further comprises a plurality of movable supporting plates, two ends of each movable supporting plate are correspondingly arranged on the two synchronous belts respectively, and the movable supporting plates are sequentially arranged along the conveying direction of the synchronous belts and are arranged in parallel.

And a groove for the cutting rope to extend into is formed in the table top of the cutting table, and corresponds to the cutting rope.

In the cutting device, the brick clamping device is provided with a plurality of brick cutting devices, the brick cutting devices are arranged in sequence along the transverse direction of the frame body, the brick cutting devices are arranged side by side, two clamping pieces on the same brick clamping device are a group of clamping piece groups, the clamping piece groups are arranged in a staggered mode in the transverse direction and the longitudinal direction, and the clamping piece groups in the same longitudinal row are located between the two adjacent brick cutting devices.

The splitting brick cutting conveying line further comprises a second conveying device, and the cutting table is placed on the second conveying device.

The utility model relates to a split cutting device of brick has following beneficial effect: through mobile device's setting, drive two clamping pieces and remove in opposite directions, carry out the centre gripping to strip cavity adobe, through elevating gear's setting, drive cutting rope oscilaltion, cut strip cavity adobe into blocky cavity adobe, and, drive two clamping pieces through mobile device and remove mutually on the back, throw off cubic cavity adobe, like this, it fixes cavity adobe to need not the manual work, can realize automatic cutting, and the work efficiency is improved, and this cutting device simple structure.

The utility model relates to a split cutting transfer chain of brick has following beneficial effect: through each device setting, it can be automatic accomplish the cutting of bar cavity adobe and arrange each cubic cavity adobe in order on first conveyor, moreover, first conveyor's setting carries each cubic cavity adobe of arranging in order to do not hinder pile up neatly machine people subsequent operation, labour saving and time saving has improved work efficiency.

Drawings

Fig. 1 is a schematic structural view of a cutting device.

Fig. 2 is a schematic structural view of a cutting conveyor line for splitting bricks.

In the figure:

100-frame body 21-clamping piece

22-pneumatic claw cylinder 24-finger

31-cutting rope 32-cutting brick frame

321-connecting section 322-vertical section

33-lifting cylinder 34-lifting piston rod

341-fixed block 41-synchronous belt conveying device

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

A cutting device for a split brick is manufactured by a conventional manufacturing method and is used for cutting a strip-shaped hollow brick blank manufactured in the production process of the split brick. Wherein the strip-shaped hollow green bricks are used as strip-shaped hollow green bricks, and the cut hollow green bricks are block-shaped hollow green bricks.

As shown in fig. 1, the cutting apparatus includes a frame body 100, a brick clamping apparatus for clamping a hollow adobe, and a brick cutting apparatus.

For convenience of description, the length direction of the frame body 100 is taken as the transverse direction, and the width direction is taken as the longitudinal direction.

The brick clamping device comprises a moving device and two clamping pieces 21, the moving device is installed on the frame body 100, the two clamping pieces 21 are sequentially arranged along the longitudinal direction of the frame body 100, the two clamping pieces 21 are oppositely arranged, the two clamping pieces 21 are both installed on the moving device, and the moving device is used for driving the two clamping pieces 21 to move in opposite directions or back to back. The brick cutting device comprises a lifting device and a cutting rope 31, the lifting device is installed on the frame body 100, the lifting device is used for driving the cutting rope 32 to lift up and down, the cutting rope 31 is installed on the lifting device, and the cutting rope 31 is arranged along the longitudinal direction of the frame body 100 and used for cutting hollow green bricks. Wherein the cutting string 31 is arranged in parallel with the arrangement direction of the two clamping pieces 21.

In this embodiment, the cutting rope 31 is a conventional steel wire rope, and may be other conventional ropes.

Specifically, the brick cutting device further comprises a brick cutting frame 32, the brick cutting frame 32 comprises a connecting section 321 and two oppositely arranged vertical sections 322, the two vertical sections 322 are vertically arranged, the connecting section 321 is longitudinally arranged along the frame body 100, two ends of the connecting section 321 are correspondingly connected to the upper ends of the two vertical sections 322, and the connecting section 321 and the two vertical sections 322 are shaped like Jiong. A first end of the cutting cord 31 is fixedly connected to the lower end of one of the upright sections 322 and a second end of the cutting cord 31 is fixedly connected to the lower end of the other upright section 322. The lifting device comprises a lifting cylinder, the lifting cylinder is a conventional lifting cylinder, for example, a lifting cylinder manufactured by the Shi' an company and having a model number of MGGMB25-100A, the lifting cylinder comprises a lifting cylinder body 33 and a lifting piston rod 34, the lifting piston rod 34 is slidably mounted on the lifting cylinder body 33 in a conventional manner, the lifting cylinder body 33 is fixedly mounted on the frame body 100, the lifting piston rod 34 is vertically arranged, the lower end of the lifting piston rod 34 is fixedly mounted on the connecting section 321, and the lower end of the lifting piston rod 34 is one end close to the connecting section 321. Preferably, the lower end of the elevating piston rod 34 is fixedly connected to the connecting section 321 by a fixing block 341, the fixing block 341 is fixed to the connecting section 321 by a conventional bolt, and the lower end of the elevating piston rod 34 is fastened to the fixing block 341.

Thus, the lifting cylinder moves to drive the lifting piston rod 34 to extend and retract, so as to drive the brick cutting frame 32 to move upwards or downwards, and further drive the cutting rope 31 to move upwards or downwards.

The utility model discloses in, this elevating gear still can be conventional spiral elevating gear.

The moving device of the brick clamping device comprises a pneumatic claw cylinder, the pneumatic claw cylinder is a conventional pneumatic claw cylinder body, such as a pneumatic claw cylinder body of MHZ2 series produced by SMC corporation, the pneumatic claw cylinder body 22 of the pneumatic claw cylinder is installed on the frame body 100, two fingers 24 of the pneumatic claw cylinder are sequentially arranged along the longitudinal direction of the frame body 100, the two fingers 24 are oppositely arranged, and the two clamping pieces 21 are respectively and fixedly arranged on the two corresponding fingers 24. Thus, the pneumatic claw cylinder acts to make the two fingers 24 slide in opposite directions along the longitudinal direction of the frame body 100, so as to drive the two clamping pieces 21 to move in opposite directions, so as to clamp the strip-shaped hollow green bricks; and, after the pneumatic claw cylinder is reset, the two fingers 24 slide back to back along the longitudinal direction of the frame body 100, so as to drive the two clamping pieces 21 to move back to back along the longitudinal direction of the frame body 100.

The utility model relates to a split cutting device of brick, setting through mobile device, drive two clamping pieces 21 removal in opposite directions, carry out the centre gripping to strip cavity adobe, setting through elevating gear, drive the oscilaltion of cutting rope, cut strip cavity adobe into cubic cavity adobe, and, drive two clamping pieces 21 back of the body removal mutually through mobile device, throw off cubic cavity adobe, like this, it fixes to cavity adobe to need not the manual work, and the work efficiency is improved, and automatic cutting has been realized, this cutting device simple structure simultaneously.

Preferably, the brick clamping devices are provided with a plurality of brick cutting devices, each brick cutting device is sequentially arranged along the transverse direction of the frame body 100, the brick cutting devices are sequentially arranged side by side, two clamping pieces 21 on the same brick clamping device are taken as a group of clamping piece groups, each clamping piece group is arranged in a transverse and longitudinal staggered manner, and each clamping piece group in the same longitudinal column is positioned between the same two adjacent brick cutting devices, so that the strip-shaped hollow green bricks can be cut into a plurality of block-shaped hollow green bricks. For unfolding, taking two strip-shaped hollow green bricks as an example, in this embodiment, the brick cutting device has four, six brick clamping devices have six groups of clamping pieces, four brick cutting devices have four cutting ropes, two groups of clamping pieces are arranged in two rows and three columns, two strip-shaped hollow green bricks are sequentially arranged along the longitudinal direction of the frame body 100, the two strip-shaped hollow green bricks are oppositely arranged, and the two strip-shaped hollow green bricks are horizontally arranged, after the two strip-shaped hollow green bricks are cut by the cutting ropes on the four brick cutting devices, the two strip-shaped hollow green bricks can be cut into six block-shaped hollow green bricks, and the two ends of the two strip-shaped hollow green bricks have waste materials, namely four waste materials.

Further, this cutting device still includes the cutting bed, and the strip cavity adobe is placed in the cutting bed, and the mesa of this cutting bed is seted up flutedly corresponding to each cutting rope department, and each recess all stretches into in along the longitudinal extension of support body 100, and each recess all is used for supplying the cutting rope that corresponds. In addition, this cutting table can also set up the rack corresponding to each clamping piece group department on the mesa, and this rack includes place the platform and a plurality of support columns, and the equal fixed connection in the bottom surface of place the platform in the upper end of each support column, the equal fixed connection of lower extreme is on the mesa of cutting table.

In addition, the number of the brick clamping devices and the number of the brick cutting devices are set according to the number of the strip-shaped hollow green bricks on the cutting table in practical situations. The length of the blocky hollow green brick is the distance between two adjacent cutting ropes, and the length of the cut blocky hollow green brick can be set by manually adjusting the distance between the two cutting ropes in actual operation.

The utility model discloses during the use, support body 100 installs on pile up neatly machine people, and this pile up neatly machine people has the pile up neatly machine people who sells for the market, so no longer expand the narration. The end of the robot palletizer is fixedly connected to the central position of the upper portion of the frame 100 to drive the cutting device to move up, down and/or move horizontally.

The working process of the cutting device for splitting the brick comprises the following steps: taking two strip-shaped hollow green bricks, two horizontal rows and three vertical columns of brick clamping devices and four brick cutting devices as an example, firstly, placing the two strip-shaped hollow green bricks on a cutting table manually or mechanically, arranging the two strip-shaped hollow green bricks along the longitudinal direction of the frame body 100, driving the frame body 100 to move to the cutting table by a stacking robot, wherein one strip-shaped hollow green brick is positioned in the clamping range of each clamping piece group in one column, the other strip-shaped hollow green brick is positioned in the clamping range of each clamping piece group in the other column, and then, under the action of a corresponding moving device, two clamping pieces 21 in each clamping piece group move oppositely to clamp the two strip-shaped hollow green bricks, and then, each lifting device acts, each cutting rope moves up and down to cut the two strip-shaped hollow green bricks, and the hollow green bricks are cut into block-shaped hollow green bricks with standard sizes.

The utility model provides a pair of splitting brick's cutting device through pressing from both sides the brick device and cutting the setting of brick device, can self-holding strip cavity adobe to cutting strip cavity adobe, cutting into the cubic cavity adobe of a plurality of pieces, through pile up neatly machine people afterwards, shift each cubic cavity adobe, this process has realized automatic cutting and has shifted, need not manual operation promptly, has improved production efficiency.

The utility model also provides a cutting transfer chain of splitting brick, as shown in fig. 1-2, including cutting bed, first conveyor, control system and aforementioned cutting device and pile up neatly machine people.

The first conveying device is a conventional belt conveying device, a conventional chain conveying device or a conventional synchronous belt conveying device, the stacking robot is used for driving the cutting device to move and stacking each blocky hollow green brick, and the first conveying device is used for conveying a plurality of blocky hollow green bricks.

In this embodiment, the first conveying device is exemplified by a timing belt conveying device 41, and each of the hollow green bricks is placed on the timing belt conveying device 41.

For convenience of description, the conveying direction of the timing belt conveying device 41 is a front-to-rear direction.

The end of the palletizing robot is fixedly connected with the frame body 100 of the cutting device in the mode, the frame and the cutting table of the synchronous belt conveying device 41 are arranged side by side, the frame of the synchronous belt conveying device 41 is arranged along the transverse direction, the conveying direction of the synchronous belt conveying device is the direction from front to back, and the front end of the frame of the belt conveying device and the cutting table are both located in the working range of the palletizing robot.

The cutting conveying line further comprises a control system, the control system is a conventional control system, and an input end of the palletizing robot is electrically connected with an output end of the control system, a driving end of a pneumatic claw cylinder on the brick clamping device, a driving end of a lifting cylinder on the brick cutting device and a driving motor on the belt conveying device 41 respectively and electrically connected with an output end of the control system. Like this, give the pile up neatly machine people through control system and trigger the instruction to the action of pile up neatly machine people, and, through control system control gas claw cylinder, realize the centre gripping of each splint group or throw off, through opening of controlling the lift cylinder and opening and stop, control cutting rope cuts, control belt conveyors's opening, realize the transport to each standard cavity brick.

The air claw cylinder and the lifting cylinder jointly use the same peripheral air pump, and the driving end of the air claw cylinder and the driving end of the lifting cylinder are respectively the driving ends of driving motors of the peripheral air pumps. The utility model discloses in this control system be conventional PLC control system, fx2n that mitsubishi company for example sold.

Furthermore, the synchronous belt conveying device comprises two synchronous belts, and the two synchronous belts are respectively correspondingly arranged on two sides of a frame of the synchronous belt conveying device. The arrangement direction between the two timing belts is the width direction of the frame of the timing belt conveying device 41, and the front-back direction of the timing belt conveying device 41 is the length direction of the frame. This splitting brick cutting transfer chain still includes a plurality of and removes layer board 50, and the both ends that each removed layer board 50 correspond respectively and place in hold-in range conveyor 41's two hold-in range departments, promptly, each removes layer board 50 and all arranges along the width direction of hold-in range according to self length direction, and each removes the equal parallel arrangement of layer board 50. And, when each of the block-shaped hollow adobes is placed on the moving pallet 50, each of the block-shaped hollow adobes is arranged in a manner of having its own length along the width of the moving pallet 50. The width of the movable supporting plate 50 is determined according to the length of each block-shaped hollow green brick in the same horizontal row in actual conditions, and the length of the movable supporting plate 50 is determined according to the arrangement number of the block-shaped hollow green bricks in the same vertical column in actual conditions.

In this embodiment, taking every three movable support plates as a group of support plates as an example, each group of support plates is respectively arranged on two synchronous belts of the synchronous belt conveying device according to the above manner, and each group of support plates are respectively arranged at intervals, and the distance between two adjacent movable support plates on each group of support plates is the distance between two adjacent hollow green bricks on the same horizontal row. In addition, the number of the movable supporting plates in each group of supporting plates in the utility model is determined by the number of the strip-shaped hollow green bricks which are cut into the blocky hollow green bricks,

preferably, the split brick cutting conveying line further comprises a second conveying device (not shown in the figure), the second conveying device is an existing conventional roller conveying device, the roller conveying device and the synchronous belt conveying device are arranged side by side, and the conveying directions of the roller conveying device and the synchronous belt conveying device are the same. The cutting table is arranged on the roller conveying device, a cutting station is arranged at the rear end of the roller conveying device, and the cutting station is located in the working range of the palletizing robot. In this way, each strip-shaped hollow green brick can be conveyed to the cutting station by the second conveying device.

The utility model relates to a split cutting transfer chain of brick, its working process is: taking two strip-shaped hollow green bricks, two horizontally-arranged and three-longitudinally-arranged brick clamping devices and four brick cutting devices as an example, the two strip-shaped hollow green bricks are placed on a cutting table, a control system outputs a trigger instruction to a stacking robot to enable the stacking robot to act, the stacking robot moves a cutting device to the cutting table, then the control system outputs a control instruction to a control moving device to enable the moving device to act, so that each clamping piece clamps the two strip-shaped hollow green bricks, then the control system outputs a control instruction to a lifting device to act, the lifting device acts to drive each cutting rope to move up and down to cut the two hollow green bricks, then the control system outputs a stop instruction to each lifting device to stop the action of each lifting device, each lifting device resets, then the control system outputs an instruction to the stacking robot, and the stacking robot moves the cutting device and the six block-shaped hollow green bricks clamped by each clamping piece group to a group of supporting plates at the front end of a synchronous belt conveying device together When the stacking robot moves the six blocky hollow green bricks, the waste materials cut by the cutting ropes are still positioned at the cutting table, then the control system hole controls the gas claw cylinder to stop working, and then the clamping pieces separate the blocky hollow green bricks respectively so as to finish placing the blocky hollow green bricks on a group of supporting plates positioned at the foremost end and finish placing the strip-shaped hollow green bricks in order from cutting.

The stacking robot arranges the blocky hollow green bricks according to the following mode: the palletizing robot places each blocky hollow green brick from the front to the back, each group of supporting plates are divided into a first group of supporting plates, a second group of supporting plates and an nth group of supporting plates from the front to the back, three groups of supporting plates are taken as an example in the implementation, when the palletizing robot places each row of blocky hollow green bricks on each moving supporting plate corresponding to the first group of supporting plates respectively, after the first group of supporting plates are fully placed, the palletizing robot moves each subsequent row of blocky hollow green bricks on the moving supporting plates corresponding to the second group of supporting plates respectively until the second group of supporting plates are fully placed, the palletizing robot moves each subsequent row of blocky hollow green bricks after cutting to the third group of supporting plates, after the first group of moving supporting plates, the second group of moving supporting plates and the third group of moving supporting plates are fully placed, the control system controls the synchronous belt conveying device to act, each arranged blocky hollow green brick is conveyed to the tail end of the synchronous belt, the palletizing robot then proceeds to place it in order as described above. In addition, the number of the movable supporting plates is set according to the width of the movable supporting plates and the movable range of the palletizing robot.

In addition, the size between the two timing belts in the timing belt conveying device can be set according to the distance combining the intervals between each row of the block-shaped hollow adobes and the size of each block-shaped hollow adobe in actual operation.

The utility model relates to a split cutting transfer chain of brick, automatic completion to the cutting of bar cavity adobe and to each cubic cavity adobe arrange in an orderly manner on first conveyor, improved work efficiency, moreover, first conveyor's setting carries each cubic cavity adobe of arranging in an orderly manner to do not hinder the subsequent operation of pile up neatly machine people, labour saving and time saving.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should belong to the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a split cutting device of brick for cut bar cavity adobe, its characterized in that: including support body, cut brick device and double-layered brick device, with the length direction of support body is horizontal, and width direction is vertical, press from both sides the brick device including two clamping pieces that are used for centre gripping strip cavity adobe and be used for driving two the clamping piece is in opposite directions or the mobile device of carrying on the back mutually removal, two the clamping piece install in on the mobile device, and two the clamping piece sets up relatively, two the clamping piece is followed vertically of support body arranges in proper order, the mobile device install in on the support body, cut the brick device including the cutting rope of vertical arrangement with be used for driving the elevating gear of cutting rope oscilaltion, elevating gear install in on the support body, the cutting rope is parallel with two the array orientation of clamping piece.

2. A device for cutting a split tile according to claim 1, wherein: the brick cutting device also comprises a brick cutting frame, the brick cutting frame is provided with two vertical sections which are arranged oppositely and a connecting section which connects the two vertical sections together, the connecting section is arranged longitudinally, and two ends of the cutting rope are respectively and fixedly arranged on the corresponding vertical sections;

the lifting device comprises a lifting cylinder, the lifting cylinder comprises a lifting cylinder body and a lifting piston rod, the lifting piston rod is installed on the lifting cylinder body, the lifting cylinder body is installed on the frame body, the lifting piston rod is vertically arranged, and the lower end of the lifting piston rod is fixedly connected to the connecting section.

3. A device for cutting a split tile according to claim 1, wherein: the moving device comprises a pneumatic claw cylinder, a pneumatic claw cylinder body of the pneumatic claw cylinder is installed on the frame body, two fingers of the pneumatic claw cylinder are sequentially arranged along the longitudinal direction and are oppositely arranged, and the two clamping pieces are fixedly arranged on the corresponding fingers respectively.

4. A device for cutting a split brick according to any one of claims 1 to 3, wherein: the brick clamping device is provided with a plurality of brick cutting devices, each brick cutting device is sequentially arranged along the transverse direction of the frame body, the brick cutting devices are mutually arranged side by side, two clamping pieces on the same brick clamping device are a group of clamping piece groups, each clamping piece group is arranged in a transverse and longitudinal staggered mode, and each clamping piece group in the same longitudinal row is located between the two adjacent brick cutting devices.

5. A device for cutting a split tile according to claim 4, wherein: the frame body is fixedly connected with the tail end of a stacking robot.

6. The utility model provides a split cutting transfer chain of brick which characterized in that: the cutting table and the first conveying device are arranged side by side, and the front ends of the cutting table and the first conveying device are both in the working range of the stacking robot.

7. The cutting conveyor line for split bricks according to claim 6, characterized in that: the first conveying device is a synchronous belt conveying device, the synchronous belt conveying device comprises two synchronous belts, the two synchronous belts are correspondingly arranged on two sides of the rack body respectively, the cutting conveying line for splitting bricks further comprises a plurality of movable supporting plates, two ends of each movable supporting plate are correspondingly arranged on the two synchronous belts respectively, and the movable supporting plates are sequentially arranged along the conveying direction of the synchronous belts and are arranged in parallel.

8. The cutting conveyor line for split bricks according to claim 6, characterized in that: and a groove for the cutting rope to extend into is formed in the table top of the cutting table, and corresponds to the cutting rope.

9. The cutting conveyor line for split bricks according to claim 6 or 8, characterized in that: in the cutting device, the brick clamping device is provided with a plurality of brick cutting devices, the brick cutting devices are arranged in sequence along the transverse direction of the frame body, the brick cutting devices are arranged side by side, two clamping pieces on the same brick clamping device are a group of clamping piece groups, the clamping piece groups are arranged in a staggered mode in the transverse direction and the longitudinal direction, and the clamping piece groups in the same longitudinal row are located between the two adjacent brick cutting devices.

10. The cutting conveyor line for split bricks according to claim 6 or 8, characterized in that: the cutting conveying line for the split bricks further comprises a second conveying device, and the cutting table is placed on the second conveying device.

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