CN217049184U - Roller type green brick finishing machine - Google Patents

Abstract

The utility model relates to the technical field of semi-automatic green brick packaging equipment, in particular to a roller type green brick finishing machine, which comprises a conveying power mechanism, a buffer roller mechanism, a tail roller mechanism, a material stirring mechanism, a limiting blocking mechanism, a tail blocking mechanism, a centering clamping mechanism and a frame, wherein the conveying power mechanism is provided with a motor speed reducer and a synchronous belt; the material stirring mechanism is provided with an upper clamping cylinder, a limiting plate and a fixed clamping plate; the buffer roller mechanism is provided with a side wall I and a power roller I; the tail end roller mechanism is provided with a side wall II and a power roller II; the limiting and blocking mechanism is arranged between the buffer roller mechanism and the tail end roller mechanism; the tail end blocking mechanism is arranged at the rear part of the tail end roller mechanism; the centering and clamping mechanism is provided with a clamping frame, a lower clamping cylinder and a clamping plate, and is used for enabling the clamping plate to transversely position green bricks and then enabling a robot to grab and stack the green bricks; the utility model has the advantages of reasonable design, adobe transport speed is adjustable, and adobe arrangement process is stable, can make the accurate adobe that snatchs of robot chuck.

Description

Roller type green brick finishing machine

Technical Field

The utility model relates to a semi-automatic baling equipment technical field of adobe, concretely relates to roller formula adobe collator.

Background

After the green bricks are conveyed out by the kiln car, the green bricks are firstly manually taken down from the kiln car and placed on a conveying device, then the green bricks are grabbed by the robot chuck and stacked layer by layer, and finally the stacked green bricks are packaged by a packaging machine. The green brick is required to be grouped clearly and definitely before stacking green bricks, the arrangement is neat, the robot chuck can conveniently grab the green bricks, the green bricks need to be conveyed to be grouped and arranged, the precise positioning is realized, and the robot chuck can grab the green bricks without errors so as to guarantee the stacking effect and the packaging quality of the green bricks. Therefore, a roller type green brick arranging machine is needed to be designed, green bricks in the transportation process can be grouped and arranged, and the green brick packing quality and the automation degree are further improved.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a roller formula adobe collator.

The utility model provides a technical scheme that its technical problem adopted is: a roller type green brick finishing machine comprises a conveying power mechanism, a buffer roller mechanism, a tail end roller mechanism, a material stirring mechanism, a limiting and blocking mechanism, a tail end blocking mechanism, a centering and clamping mechanism and a rack, wherein the conveying power mechanism is provided with a motor reducer and synchronous belts, the motor reducer is installed in the middle of the rear portion of the rack, and the synchronous belts are installed on two sides of the rack;

the material stirring mechanism is provided with an upper clamping cylinder, two limiting plates and two fixing clamping plates, the fixing clamping plates are mounted on the synchronous belt and used for moving the material stirring mechanism through the synchronous belt, and the limiting plates are mounted on cylinder rods of the upper clamping cylinder and used for clamping green bricks;

the buffer roller mechanism is provided with a first side wall and a first power roller, the first side wall is arranged on two sides of the front part of the rack, and a plurality of first power rollers are arranged between the first side walls and used for conveying adobes;

the tail end roller mechanism is provided with a second side wall and second power rollers, the second side wall is arranged on two sides of the rear part of the rack, and a plurality of second power rollers are arranged between the second side walls and used for conveying green bricks;

the limiting and blocking mechanism is arranged between the buffer roller mechanism and the tail end roller mechanism and is used for blocking green bricks on the limiting power roller I;

the tail end blocking mechanism is arranged at the rear part of the tail end roller mechanism and is used for positioning green bricks on the power roller II with hard tail end;

the centering clamping mechanism is provided with two clamping frames, a lower clamping cylinder and clamping plates, the clamping frames are installed on the machine frame below the power roller II, the lower clamping cylinders are symmetrically provided with two clamping plates, the cylinder rod of the lower clamping cylinder is connected with the clamping plates, and a plurality of clamping teeth on the clamping plates extend out of the two cracks of the power roller and are used for clamping the green bricks transversely positioned by the clamping plates and then allowing a robot to grab and stack the green bricks.

Preferably, carry power unit still to be equipped with transmission shaft, synchronous pulley, bearing, driven wheelset and fork truck guide rail, the transmission shaft symmetry is equipped with two and installs the rear portion in the frame through the bearing, the transmission shaft one end of both sides is connected to the motor reducer, the transmission shaft other end just installs synchronous pulley in the both sides of frame, driven wheelset rotates the front portion of installing in the frame, be connected with the hold-in range between synchronous pulley and the driven wheelset for the hold-in range of motor reducer simultaneous drive frame both sides, the both sides in the frame are installed to the fork truck guide rail.

Preferably, the material shifting mechanism is further provided with a portal frame, a movable plate and a forklift bearing, the bottoms of two sides of the portal frame are provided with fixed clamping plates, the fixed clamping plates are fixed on the synchronous belt, the forklift bearings are mounted inside two sides of the portal frame, and the forklift bearings are connected to the forklift guide rail in a rolling mode and used for the portal frame to move back and forth along the forklift guide rail under the driving of the synchronous belt.

Preferably, the portal frame is symmetrically provided with upper clamping cylinders, cylinder rods of the upper clamping cylinders are connected with the moving plate, the bottom of the moving plate is connected with the limiting plate, and the limiting plate is located above the first power roller and/or the second power roller and used for clamping adobes.

Preferably, the cache roller mechanism is further provided with a motor assembly I, a chain I and a shield I, the motor assembly I is installed on the rack below the power roller I, the motor assembly I is connected with one end of the power roller I through the chain I and used for driving the power roller I to rotate to convey green bricks, and the shield I is further arranged on the upper portion of the side wall I.

Preferably, the tail end roller mechanism is further provided with a motor assembly II, a chain II and a shield II, the motor assembly II is installed on the rack below the power roller II, the motor assembly II is connected with one end of the power roller II through the chain II and used for driving the power roller II to rotate to convey green bricks, and the shield II is further arranged on the upper portion of the side wall II.

Preferably, the limiting and blocking mechanism is provided with a lifting cylinder, a limiting and blocking roller, a rotating shaft and a rotating frame, the bottom of the lifting cylinder is installed on the frame through a rotating base, a cylinder rod of the lifting cylinder is rotatably connected to the bottom of the limiting and blocking roller through a pin shaft seat and used for driving the limiting and blocking roller to lift through the lifting cylinder, two ends of the limiting and blocking roller are connected with the rotating frame in a rolling mode, the rotating frame is installed on the rotating shaft, and two ends of the rotating shaft are installed on the frame through a rotating shaft bearing.

Preferably, the tail end blocking mechanism is provided with a tail end blocking roller and supports, the supports are installed on two sides of the rear portion of the rack, the tail end blocking roller is connected between the supports in a rotating mode and is higher than the second power roller, and the tail end blocking roller is used for fixing green bricks on the second power roller in a rigid mode.

Preferably, the centering and clamping mechanism is further provided with a clamping beam, a linear guide rail and a sliding block, the linear guide rail is installed on the clamping frame, the sliding block is connected onto the linear guide rail, the clamping beam is connected between the two sliding blocks on the same side, a plurality of clamping plates are fixed onto the clamping beam, the middle of the clamping beam is connected with a cylinder rod of the lower clamping cylinder, and the lower clamping cylinder drives the clamping plates to move to center and clamp green bricks on the power roller II.

Preferably, the frame is provided with rectangular tubes constituting a frame structure and height-adjustable feet.

The utility model discloses following beneficial effect has:

the roller type green brick collator designed by the utility model has reasonable structural design, adjustable green brick conveying speed and stable green brick collating process, can ensure that the robot chuck can accurately grab the green bricks, and the used parts are easy to process and manufacture, convenient to maintain and easy to operate and are suitable for wide popularization and use; the four corners are provided with adjusting ground feet which can adjust the height and levelness of the equipment; the buffer roller mechanism and the tail end roller mechanism are carriers for realizing grouping and sorting actions, and the two rings of roller mechanisms are provided with independent power systems for controlling the equipment, so that the equipment can flexibly act to facilitate grouping operation; and the limiting and blocking mechanism is arranged between the buffer roller mechanism and the tail end roller mechanism, and consists of a cylinder and two lifting rollers, so that primary arrangement of green bricks is completed.

Drawings

FIG. 1 is a perspective view of the roller type green brick collator assembly.

Fig. 2 is a perspective view of the frame.

Fig. 3 is a perspective view of the buffer roller mechanism.

Fig. 4 is a perspective view of the end roller mechanism.

Fig. 5 is a perspective view of the kick-out mechanism.

Fig. 6 is a perspective view of the conveying power mechanism.

Fig. 7 is a perspective view of the limit stop mechanism.

Fig. 8 is a perspective view of the centering and clamping mechanism.

Fig. 9 is a perspective view of the end stop mechanism.

In the figure: 1-a conveying power mechanism, 101-a motor reducer, 102-a transmission shaft, 103-a synchronous pulley, 104-a synchronous belt, 105-a bearing, 106-a driven wheel set, and 107-a forklift guide rail;

2-a buffer roller mechanism, 201-a motor assembly I, 202-a chain I, 203-a power roller I, 204-a side wall I, 205-a shield I;

3-end roller mechanism, 301-motor assembly II, 302-chain II, 303-power roller II, 304-side roller II, 305-shield II;

4-a material stirring mechanism, 401-a portal frame, 402-an upper clamping cylinder, 403-a moving plate, 404-a limiting plate, 405-a fixed clamping plate and 406-a forklift bearing;

5-a limiting blocking mechanism, 501-a lifting cylinder, 502-a limiting blocking roller, 503-a rotating shaft and 504-a rotating frame;

6-end stop mechanism, 601-end stop roller, 602-support;

7-centering clamping mechanism, 701-clamping frame, 702-lower clamping cylinder, 703-clamping beam, 704-clamping plate, 705-linear guide rail and 706-sliding block;

8-rack, 801-rectangular pipe, 802-ground foot.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely further described in detail below with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-9, a roller type green brick collator comprises a conveying power mechanism 1, a buffer roller mechanism 2, a tail end roller mechanism 3, a material stirring mechanism 4, a limiting blocking mechanism 5, a tail end blocking mechanism 6, a centering clamping mechanism 7 and a rack 8, wherein the rack 8 is provided with a rectangular pipe 801 and height-adjustable feet 802 which form a frame structure, and the four corners are provided with the height-adjustable feet 802 to adjust the height and levelness of equipment.

The conveying power mechanism 1 is provided with a motor reducer 101, a transmission shaft 102, a synchronous belt pulley 103, a synchronous belt 104, a bearing 105, a driven wheel set 106 and a forklift guide rail 107, wherein the motor reducer 101 is installed at one end of the rack 8, and the synchronous belt 104 is installed at two sides of the rack 8; two transmission shafts 102 are symmetrically arranged and are installed at the rear part of the rack 8 through bearings 105, the motor speed reducer 101 is connected with one end of each of the transmission shafts 102 at two sides, synchronous belt wheels 103 are installed at the other end of each of the transmission shafts 102 and at two sides of the rack 8, the driven wheel set 106 is rotatably installed at the front part of the rack 8, a synchronous belt 104 is connected between each of the synchronous belt wheels 103 and the driven wheel set 106 and is used for the motor speed reducer 101 to simultaneously drive the synchronous belts 104 at two sides of the rack 8, and forklift guide rails 107 are installed at two sides of the rack 8.

The cache roller mechanism 2 is provided with a motor assembly I201, a chain I202, a power roller I203, a side wall I204 and a shield I205, the side wall I204 is installed on two sides of the front part of the rack 1, and a plurality of power rollers I203 are installed between the side wall I204 and used for conveying adobes; the first motor assembly 201 is installed on the rack 8 below the first power roller 203, the first motor assembly 201 is connected with the end of the first power roller 203 through the first chain 202 and used for driving the first power roller 203 to rotate to convey green bricks through the first motor assembly 201, and the first protective cover 205 is further arranged on the upper portion of the first side 204 and used for protecting the rotating portion of the first power roller 203 and avoiding extrusion damage and falling of sundries.

The tail end roller mechanism 3 is provided with a second motor assembly 301, a second chain 302, a second power roller 303, a second side wall 304 and a second shield 305, the second side wall 304 is installed on two sides of the rear portion of the rack 8, and a plurality of second power rollers 303 are installed between the second side wall 304 and used for conveying green bricks; the second motor assembly 301 is installed on the rack 8 below the second power roller 303, the second motor assembly 301 is connected with one end of the second power roller 303 through a second chain 302 and used for driving the second power roller 303 to rotate to convey green bricks through the second motor assembly 301, and a second shield 305 is further arranged on the upper portion of the second side wall 304 and used for protecting the rotating portion of the second power roller 303 and avoiding extrusion damage and sundries falling.

The material stirring mechanism 4 is provided with a portal frame 401, an upper clamping cylinder 402, a moving plate 403, a limiting plate 404, a fixed clamping plate 405 and a forklift bearing 406, the fixed clamping plate 405 is arranged at the bottom of two sides of the portal frame 401, the fixed clamping plate 405 is fixed on a synchronous belt 104 and used for the material stirring mechanism 4 to move through the synchronous belt 104, the forklift bearing 406 is arranged inside two sides of the portal frame 401 and is in rolling connection with a forklift guide rail 107 and used for the portal frame 401 to move back and forth along the forklift guide rail 107 under the driving of the synchronous belt 104. Two upper clamping cylinders 402 are symmetrically arranged on the portal frame 401, the cylinder rods of the upper clamping cylinders 402 are connected with a moving plate 403, the bottom of the moving plate 403 is connected with a limiting plate 404, and the limiting plate 404 is positioned above the first power roller 203 and/or the second power roller 303 and used for clamping green bricks by the limiting plate 404.

The limiting and blocking mechanism 5 is provided with a lifting cylinder 501, a limiting and blocking roller 502, a rotating shaft 503 and a rotating frame 504, and the limiting and blocking mechanism 5 is arranged between the buffer roller mechanism 2 and the tail end roller mechanism 3 and used for blocking green bricks on the limiting power roller I203; the bottom of the lifting cylinder 501 is mounted on the frame 8 through a rotating base, a cylinder rod of the lifting cylinder 501 is rotatably connected to the bottom of the spacing blocking roller 502 through a pin shaft seat, the lifting cylinder 501 drives the spacing blocking roller 502 to lift, two ends of the spacing blocking roller 502 are connected with the rotating frame 504 in a rolling manner, the rotating frame 504 is mounted on the rotating shaft 503, and two ends of the rotating shaft 503 are mounted on the frame 8 through rotating shaft bearings.

The tail end blocking mechanism 6 is provided with a tail end blocking roller 601 and a support 602, and the tail end blocking mechanism 6 is arranged at the rear part of the tail end roller mechanism 3 and used for hard positioning of green bricks on the power roller II at the tail end; the supports 602 are installed on two sides of the rear portion of the frame 8, the tail end blocking rollers 601 are rotatably connected between the supports 602, and the tail end blocking rollers 601 are higher than the second power rollers 203 and are used for hard positioning of green bricks on the second power rollers 203 at the tail end of the frame 8.

The centering and clamping mechanism 7 is provided with a clamping frame 701, two lower clamping air cylinders 702, two clamping beams 703, clamping plates 704, linear guide rails 705 and sliding blocks 706, the clamping frame 701 is installed on a machine frame 8 below the second power rollers 303, the two lower clamping air cylinders 702 are symmetrically arranged, the linear guide rails 705 are installed on the clamping frame 701, the sliding blocks 706 are connected on the linear guide rails 705 in a sliding mode, the clamping beams 703 are connected between the two sliding blocks 706 on the same side, the clamping beams 703 are fixedly provided with the plurality of clamping plates 704, the middle portions of the clamping beams 703 are connected with cylinder rods of the lower clamping air cylinders 702, the clamping plates 704 extend out of the cracks of the second power rollers 303, and the lower clamping air cylinders 702 drive the clamping plates 704 to move green bricks on the centering and clamping power rollers 303 and are used for enabling a robot to grab and stack the green bricks after the clamping plates 704 are transversely positioned.

As shown in figure 1, the roller type green brick collator comprises a frame 8 (shown in figure 2 in detail) formed by welding steel plates, rectangular pipes 801, forklift guide rails 107 and other profiles, is used as a fixed frame of equipment, and is provided with adjusting feet 702 at four corners for adjusting the height and levelness of the equipment. Wherein the forklift guide rails 107 on both sides of the frame 8 are used as tracks for moving the kick-out mechanism 4. The buffer roller mechanism 2 and the tail end roller mechanism 3 (see figure 3 and figure 4 in detail) are composed of side walls, power rollers, motor assemblies, chains and the like. The motor assembly is used as a power source, and the chain wheel and the chain drive the power roller to operate so as to finish the transportation of green bricks. The material shifting mechanism 4 (see fig. 5 in detail), the portal frame 401 is formed by welding a rectangular steel pipe, a forklift bearing 406, a synchronous belt fixing plate and the like, wherein the forklift bearing 406 drives the material shifting mechanism 4 to reciprocate along a forklift guide rail 107 on the rack 8 in the advancing direction, a pair of clamping mechanisms are mounted on the portal frame 401, the gripping state of the gripper is controlled by the stretching of the upper clamping cylinder 402, and in addition, limiting square pipes are respectively mounted on two sides of the gripper so as to prevent the green bricks from spreading outwards when the green bricks are gripped and advanced. The lower ends of the two sides of the gantry 401 are respectively connected with the synchronous belt 104. The conveying power mechanism 1 (fig. 6) is composed of a servo motor, a transmission shaft 102, a synchronous pulley 103 and the like, two bearings with vertical seats 105 support two ends of a shaft system, the synchronous belt 104 connects the conveying power mechanism 1 with the material shifting mechanism 4 to form a motion system, and the servo motor drives the material shifting mechanism 4 to complete a reciprocating function through the synchronous pulley 103 and the synchronous belt 104. The limit stop mechanism (5 is shown in detail in fig. 7) is composed of a limit stop roller 502, a lifting cylinder 501 and a rotating shaft 503. The lifting cylinder 501 supports the middle part of the limiting blocking mechanism 5, when the lifting cylinder 501 extends out, the limiting blocking roller 502 jacks up to block the green brick, when the lifting cylinder 501 contracts, the limiting blocking roller 502 descends to the parallel and level height of the roller mechanism and can serve as an unpowered roller to play a transition role, so that the green brick can smoothly pass through the buffer roller mechanism 2 to the tail end roller mechanism 3. The centering and clamping mechanism 7 (shown in detail in fig. 8) is composed of a welding frame body, a linear guide rail 705, a sliding block 706, a lower clamping cylinder 702, a clamping plate 704 and the like, wherein the lower clamping cylinder 702 controls the clamping plate 704 to contract so as to transversely clamp and position the green bricks. The end stop mechanism 6 (see figure 9 in detail) consists of an end stop roller 601 and a welding support 602, is arranged at the tail end of the roller type green brick finishing machine, and is provided with an unpowered roller serving as the last hard stop of the green bricks to complete the final positioning of the green bricks in the advancing direction.

The working process of the roller type green brick finishing machine is as follows: the green bricks are conveyed to a green brick collator by previous ring of conveying equipment, rows of green bricks pass through a buffer roller mechanism 2, a limiting blocking mechanism 5 is jacked up by a cylinder to block the green bricks and block the green bricks from continuing to advance, a material shifting mechanism 4 clamps the required number of green bricks on the buffer roller mechanism 2, the cylinder on the limiting blocking mechanism 5 is withdrawn, the limiting blocking mechanism 5 descends, a motor of a conveying power mechanism 1 grabs and conveys the material shifting mechanism 4 and the green bricks clamped by the material shifting mechanism to a tail end roller mechanism 3 through a synchronous belt pulley 103 and a synchronous belt 104, the green bricks continue to move forward under the drive of the tail end roller mechanism 3 until the tail end roller mechanism 3 conveys the green bricks to a tail end blocking mechanism 6 (figure 9), the tail end blocking mechanism 6 positions the green bricks rigidly, meanwhile, the material shifting mechanism 4 grabs and releases the cylinder, the conveying power mechanism 1 conveys the material shifting mechanism 4 to an initial position, waiting for the next material shifting action. When the green bricks move to the tail end blocking mechanism 6, the cylinders of the centering clamping mechanisms 7 contract, and the green bricks are clamped to transversely position the green bricks, so that the robot can grab and stack the green bricks.

The utility model discloses not be limited to above-mentioned embodiment, anybody should learn the structural change who makes under the teaching of the utility model, all with the utility model discloses have the same or close technical scheme, all fall into the utility model discloses an within the protection scope.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (10)

1. A roller type green brick collator is characterized by comprising a conveying power mechanism, a buffer roller mechanism, a tail end roller mechanism, a material stirring mechanism, a limiting and blocking mechanism, a tail end blocking mechanism, a centering and clamping mechanism and a rack, wherein the conveying power mechanism is provided with a motor speed reducer and synchronous belts, the motor speed reducer is installed in the middle of the rear part of the rack, and the synchronous belts are installed on two sides of the rack;

the material stirring mechanism is provided with an upper clamping cylinder, two limiting plates and two fixing clamping plates, the fixing clamping plates are mounted on the synchronous belt and used for moving the material stirring mechanism through the synchronous belt, and the limiting plates are mounted on cylinder rods of the upper clamping cylinder and used for clamping green bricks;

the buffer roller mechanism is provided with a first side wall and a first power roller, the first side wall is arranged on two sides of the front part of the rack, and a plurality of first power rollers are arranged between the first side walls and used for conveying adobes;

the tail end roller mechanism is provided with a second side wall and second power rollers, the second side wall is arranged on two sides of the rear part of the rack, and a plurality of second power rollers are arranged between the second side walls and used for conveying green bricks;

the limiting and blocking mechanism is arranged between the cache roller mechanism and the tail end roller mechanism and is used for blocking green bricks on the limiting power roller I;

the tail end blocking mechanism is arranged at the rear part of the tail end roller mechanism and is used for positioning green bricks on the power roller II;

the centering clamping mechanism is provided with a clamping frame, a lower clamping cylinder and clamping plates, the clamping frame is installed on the rack below the second power roller, the two lower clamping cylinders are symmetrically arranged, the clamping plates are connected to the cylinder rods of the lower clamping cylinder, and a plurality of clamping teeth on the clamping plates extend out of the two cracks of the power roller and are used for clamping the green bricks to be transversely positioned and then used for the robot to grab and stack.

2. The roller type adobe finishing machine according to claim 1, wherein the conveying power mechanism is further provided with two symmetrical transmission shafts which are mounted at the rear part of the frame through bearings, a synchronous pulley, a bearing, a driven wheel group and a forklift guide rail, the motor reducer is connected with one end of the transmission shafts at two sides, the other end of the transmission shafts is provided with the synchronous pulley at two sides of the frame, the driven wheel group is rotatably mounted at the front part of the frame, a synchronous belt is connected between the synchronous pulley and the driven wheel group for driving the synchronous belts at two sides of the frame simultaneously, and the forklift guide rail is mounted at two sides of the frame.

3. The roller type adobe finishing machine according to claim 1, wherein the material pushing mechanism is further provided with a portal frame, a moving plate and a forklift bearing, the bottom of two sides of the portal frame is provided with a fixed clamping plate, the fixed clamping plate is fixed on the synchronous belt, the forklift bearing is arranged inside two sides of the portal frame, and the forklift bearing is in rolling connection with the forklift guide rail and is used for moving the portal frame back and forth along the forklift guide rail under the driving of the synchronous belt.

4. The roller type green brick collator according to claim 3, wherein the portal frame is symmetrically provided with upper clamping cylinders, cylinder rods of the upper clamping cylinders are connected with the moving plate, the bottom of the moving plate is connected with the limiting plate, and the limiting plate is positioned above the first power roller and/or the second power roller and is used for clamping green bricks.

5. The roller type adobe finishing machine according to claim 1, wherein the buffer roller mechanism is further provided with a motor assembly I, a chain I and a shield I, the motor assembly I is arranged on the rack below the power roller I, the motor assembly I is connected with one end of the power roller through the chain I and is used for driving the power roller I to rotate to convey adobes, and the shield I is further arranged on the upper part of the side wall I.

6. The roller type green brick finishing machine according to claim 1, wherein the end roller mechanism is further provided with a second motor assembly, a second chain and a second protective cover, the second motor assembly is mounted on the rack below the second power roller, the second motor assembly is connected with one end of the second power roller through the second chain and used for driving the second power roller to rotate to convey green bricks, and the second protective cover is further arranged on the upper portion of the second side wall.

7. The roller type unfired brick collator according to claim 1, wherein the limiting and blocking mechanism is provided with a lifting cylinder, a limiting and blocking roller, a rotating shaft and a rotating frame, the bottom of the lifting cylinder is mounted on the frame through a rotating base, a cylinder rod of the lifting cylinder is rotatably connected to the bottom of the limiting and blocking roller through a pin shaft seat and used for driving the limiting and blocking roller to lift, two ends of the limiting and blocking roller are connected with the rotating frame in a rolling manner, the rotating frame is mounted on the rotating shaft, and two ends of the rotating shaft are mounted on the frame through a rotating shaft bearing.

8. The roller type green brick finishing machine according to claim 1, wherein the tail end blocking mechanism is provided with tail end blocking rollers and supports, the supports are arranged on two sides of the rear part of the rack, the tail end blocking rollers are rotatably connected between the supports, and the tail end blocking rollers are higher than the second power rollers and are used for hard positioning of green bricks on the second power rollers at the tail end of the rack.

9. The roller type green brick finishing machine according to claim 1, wherein the centering and clamping mechanism is further provided with a clamping beam, a linear guide rail and a sliding block, the linear guide rail is installed on the clamping frame, the sliding block is connected on the linear guide rail in a sliding manner, the clamping beam is connected between the two sliding blocks on the same side, a plurality of clamping plates are fixed on the clamping beam, and the middle part of the clamping beam is connected with a cylinder rod of the lower clamping cylinder and used for the lower clamping cylinder to drive the clamping plates to move green bricks on the centering and clamping power roller II.

10. The roller type adobe finishing machine according to claim 1, wherein the frame is provided with rectangular pipes constituting a frame structure and height-adjustable anchors.

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