CN115787407A - Municipal pavement brick laying device and laying method thereof - Google Patents

Abstract

The utility model belongs to the technical field of the technique of municipal administration road surface laying and specifically relates to a municipal administration pavior brick laying device and laying method thereof is related to, including the frame and install the gyro wheel that is used for removing the frame in the frame, be provided with unloader and loading attachment in the frame, loading attachment and unloader connect, loading attachment is used for carrying the pavior brick of waiting to lay to unloader department, the last cab apron that is provided with of unloading attachment, unloading attachment is used for carrying the pavior brick to cab apron department, be provided with the propelling movement subassembly in the frame, the propelling movement subassembly with cross the cab apron correspondence and be used for laying the pavior brick on the cab apron to the assigned position. This application has the effect that promotes pavior brick and lay efficiency.

Description

Municipal pavement brick laying device and laying method thereof

Technical Field

The application relates to the technical field of municipal road surface paving, in particular to a municipal road surface brick paving device and a paving method thereof.

Background

Municipal roads are accessible to all areas of a city in the city for transportation and suitable for pedestrians. Municipal roads are various in types, and comprise concrete, asphalt, pavement bricks and the like, wherein the pavement bricks are made of cement, stones and sand which are used as raw materials and then are formed by vibration, and the shape of the pavement bricks is generally a cuboid. The surface brick road can reduce surface water accumulation, and avoids influencing the walking of pedestrians and vehicles.

According to the related technology, when paving the pavement bricks of the municipal road, lines are drawn on the pre-paved road along the paving direction, then the pavement bricks are manually arranged and paved on the road along the drawn lines, and then the two adjacent lines of pavement bricks are paved in a staggered manner, so that the pavement brick road is paved. However, when paving the pavement bricks manually, the paving efficiency is low. In addition, a manual auxiliary pavement brick clamping device exists in the prior art, pavement bricks are conveyed through the clamping device to be paved, but the problem of low paving efficiency still exists.

Disclosure of Invention

In order to improve paving efficiency of pavement bricks, the application provides a municipal pavement brick paving device and a paving method thereof

In a first aspect, the present application provides a municipal paving brick laying apparatus.

The following technical scheme is adopted:

the utility model provides a municipal administration pavior brick laying device, includes the frame and installs the gyro wheel that is used for removing the frame in the frame, be provided with unloader and loading attachment in the frame, loading attachment and unloader are connected, loading attachment is used for carrying the pavior brick of waiting to lay to unloader department, the last cab apron that is provided with of unloader, unloading attachment is used for carrying the pavior brick to cab apron department, be provided with the propelling movement subassembly in the frame, the propelling movement subassembly with cross the cab apron correspondence and be used for laying the pavior brick to the assigned position on crossing the cab apron.

Through adopting above-mentioned technical scheme, when laying the pavior brick, place the pavior brick in loading attachment, then remove the frame, in the pavior brick that loading attachment will place forwarded to unloader, the pavior brick enters into cab apron department through unloading attachment, lays pavior brick propelling movement to the assigned position through the propelling movement subassembly at last, promotes the efficiency of laying of road.

Optionally, loading attachment includes material loading frame, material loading spare and material loading board, the material loading frame sets up in the frame along vertical direction and is used for placing the pavior brick, the material loading frame is close to the one end of frame and has seted up the material loading mouth, the material loading spare sets up in the frame, the material loading board sets up the output at the material loading spare, material loading board and material loading mouth correspond the setting, the material loading spare is used for driving the material loading board and removes the pavior brick in with the material loading frame and release through the material loading mouth.

Through adopting above-mentioned technical scheme, place the pavior brick in the material loading frame, the flitch moves to material loading frame and pavior brick butt through the material loading mouth in the material loading part drives, and the flitch drives the pavior brick and moves to the outside of material loading frame and enters into unloader in continuing to move, carries out the material loading to the pavior brick.

Optionally, the blanking device comprises a blanking plate and a baffle plate, the blanking plate is obliquely arranged on the frame, two ends of the blanking plate are respectively close to the feeding port and the ground, the transition plate is arranged at one end of the blanking plate close to the ground, the baffle plate is arranged at one side of the blanking plate deviating from the ground, and the baffle plate is arranged at the edge close to the blanking plate.

Through adopting above-mentioned technical scheme, the pavior brick removes under the effect of last flitch to down on the flitch, removes under the effect of its own gravity to the cab apron on to the propelling movement subassembly is adjusted the position of pavior brick and is accomplished laying.

Optionally, it has seted up the opening to run through on the flitch down, the opening is close to the cab apron setting, the propelling movement subassembly includes propelling movement spare and propelling movement board, the propelling movement spare sets up in the frame, the propelling movement board sets up the output at the propelling movement spare, the propelling movement spare is used for driving the propelling movement board and lays the pavior brick through opening and pavior brick butt.

Through adopting above-mentioned technical scheme, after the pavior brick removed to the cab apron, push member driven push plate removed, until push plate passes through opening and pavior brick butt, push member continued to drive push plate and removed, pushed away the pavior brick from the cab apron and lay.

Optionally, the output of propelling movement spare is provided with buffering subassembly, the buffering subassembly includes buffer rod and buffering piece, the buffer rod slides at the output of propelling movement spare along the moving direction of propelling movement board and sets up, buffer rod and propelling movement board are connected, the output of propelling movement board and propelling movement spare is connected respectively to the buffering piece.

Through adopting above-mentioned technical scheme, remove to the assigned position back at the pavior brick, the buffer beam slides and compresses the elastic component simultaneously, reduces the phenomenon that the damage appears because of the atress is too big for the inseparable butt of pavior brick and adjacent pavior brick simultaneously, promotes the complex stability between the pavior brick, and then promotes holistic laying quality.

Optionally, be provided with the shelves pole in the opening, the tip and the opening of shelves pole deviate from one side inner wall on ground and rotate the connection, the shelves pole deviates from its rotation end and opening inner wall butt.

Through adopting above-mentioned technical scheme, when the push plate removed, drive a grade pole and rotate back and pavior brick butt, get back to initial position at the push plate after, a grade pole rotates to initial position under its own effect of gravity, separates the shelves to the opening, and the phenomenon that the pavior brick appeared entering into in the opening when moving on flitch down promotes the stability when the pavior brick is carried.

Optionally, the one end of deviating from the flitch on the cab apron is provided with auxiliary device, auxiliary device includes accessory plate, auxiliary frame, auxiliary rod and elastic component, run through on the accessory plate and seted up the auxiliary tank, the auxiliary frame sets up the one side that deviates from the pavior brick at the accessory plate, the tip of auxiliary frame is in the direction slip setting of auxiliary tank edge orientation pavior brick, the auxiliary rod sets up on the accessory plate, auxiliary rod and auxiliary frame sliding connection, the elastic component sets up and is used for driving the direction removal of auxiliary frame orientation pavior brick with the auxiliary frame connection on the auxiliary rod, the one end rotation that the auxiliary frame is close to the auxiliary tank is provided with the auxiliary wheel that is used for adjusting the pavior brick position.

Through adopting above-mentioned technical scheme, drive the pavior brick at push member and remove to appointed position after, the elastic component drives the auxiliary frame and removes towards the pavior brick for the side butt of auxiliary wheel and pavior brick drives the pavior brick and removes towards adjacent pavior brick, promotes holistic laying quality.

Optionally, a pressing plate is arranged on one side, close to the moving direction, of the transition plate, the pressing plate is arranged along the moving direction of the rack, the pressing plate is arranged close to the ground, and one side, away from the transition plate, of the pressing plate is obliquely arranged along the direction away from the ground.

Through adopting above-mentioned technical scheme, set up the clamp plate, when the frame removed, flatten the region that treats the paving brick to place the paving brick is level and smooth in the assigned position, further promote the laying quality.

Optionally, a guide plate is arranged on the pushing plate, the guide plate is arranged on one side, away from the ground, of the pushing plate, and one side, away from the pushing plate, of the guide plate is obliquely arranged along the direction away from the ground.

Through adopting above-mentioned technical scheme, set up the one side slope setting that is close to the opening of guide board to when removing along with the push plate, the side and the pavior brick butt of guide board reduce the phenomenon that the skew appears in the pavior brick when push plate drives the pavior brick and remove, stability when promoting the pavior brick and remove.

In a second aspect, the application provides a municipal paving brick paving method

The following technical scheme is adopted:

a municipal road brick laying method comprises the following steps:

placing the rack on the ground, and then placing the pavement bricks in the loading frame;

the controller controls the feeding part to start up to push the pavement bricks to the discharging plate after the sensing part II detects that the rack moves for a specified distance;

the pavement bricks are moved to the transition plate through the blanking plate;

when the second sensing part detects the pavior bricks on the transition plate, the controller controls the pushing part to be started, and the pavior bricks are pushed to the designated position through the pushing plate;

after the pavior brick moved to appointed position, the elastic component drove the side butt of auxiliary wheel and pavior brick, hugged closely placing pavior brick and adjacent pavior brick.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when laying, the material loading spare with pavior brick propelling movement to the lower bolster on, then remove to the cab apron department, the propelling movement piece drives the propelling movement board and removes, moves the pavior brick to appointed position and lays, lays along with the continuous pavior brick of the removal of frame, and then promotes the efficiency of laying of pavior brick.

Drawings

FIG. 1 is a schematic structural diagram of a municipal paving brick laying apparatus of an embodiment of the application.

FIG. 2 is a structural view from another perspective of the municipal paving brick laying apparatus of an embodiment of the application.

Fig. 3 is the structural view of loading attachment in the municipal paving brick laying device of the embodiment of the application.

FIG. 4 is a structural view of a blanking device in the municipal paving brick laying device of the embodiment of the application.

FIG. 5 is a structural view of a push assembly in the municipal paving brick laying apparatus of the embodiment of the application.

FIG. 6 is a structural view of a cushioning assembly in a municipal paving tile installation of an embodiment of the application.

Fig. 7 is a structural view of an auxiliary device in the municipal paving tile laying device according to an embodiment of the present application.

Reference numerals are as follows: 01. a pavior brick; 1. a frame; 11. a roller; 12. pressing a plate; 2. a feeding device; 21. a feeding frame; 211. a feeding port; 22. feeding parts; 23. feeding plates; 3. a blanking device; 31. a blanking plate; 311. a port; 32. a baffle plate; 4. a transition plate; 5. a push assembly; 51. a pushing member; 52. a push plate; 521. a guide plate; 6. a buffer assembly; 61. a buffer member; 62. a buffer rod; 7. a gear lever; 8. an auxiliary device; 81. an auxiliary plate; 811. an auxiliary groove; 82. an auxiliary frame; 821. an auxiliary wheel; 83. an elastic member; 84. an auxiliary lever; 9. a control device; 91. a controller; 92. a first sensing part; 93. and a second sensing part.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The application discloses a municipal administration pavior brick laying device.

Referring to fig. 1 and 2, the municipal paving brick laying device comprises a frame 1, and a feeding device 2 and a discharging device 3 which are installed on the frame 1, wherein the feeding device 2 and the discharging device 3 are connected, and a roller 11 for moving the frame 1 is rotatably arranged on one side of the frame 1 close to the ground. The feeding device 2 is used for placing the pavement bricks 01 to be paved, and the discharging device 3 is used for paving the pavement bricks 01. When paving, place pavior brick 01 in loading attachment 2, then remove frame 1, lay pavior brick 01 on the road surface through unloader 3.

Referring to fig. 2 and 3, loading attachment 2 includes material loading frame 21, material loading part 22 and material loading board 23, material loading frame 21 sets up in frame 1 and sets up along the direction on perpendicular to ground in frame 1, material loading port 211 has been seted up to the one end that is close to frame 1 at material loading frame 21, material loading port 211 runs through material loading frame 21 along the horizontal direction and sets up, pavior brick 01 arranges along vertical direction in material loading frame 21 and places, the outside that 01 accessible material loading port 211 removed material loading frame 21 of pavior brick near material loading frame 21 bottom, material loading part 22 can set up to the cylinder, material loading board 23 sets up the output at the cylinder, material loading part 22 and unloader 3 set up the both sides at material loading frame 21 respectively, material loading board 23 and material loading port 211 correspond the setting, and material loading board 23 accessible material loading port 211 removes in material loading frame 21. When needs material loading, flitch 23 removal in the cylinder drives, goes up flitch 23 and removes to material loading frame 21 in, then the pavement brick 01 removal of propelling movement material loading frame 21 bottom promotes pavement brick 01 to lay in unloader 3, then the cylinder drives material loading board 23 and gets back to initial position, again with pavement brick 01 propelling movement to unloader 3 in the material loading frame 21, continuously lay.

Referring to fig. 4 and 5, the blanking device 3 includes a blanking plate 31 and two baffles 32, the blanking plate 31 is obliquely arranged on the frame 1, one end of the blanking plate 31 is close to the feeding opening 211, namely, the blanking plate 31 is arranged on one side of the feeding frame 21 deviating from the feeding part 22, the other end is arranged close to the ground, the baffles 32 are arranged on one side of the blanking plate 31 deviating from the ground, the baffles 32 are arranged in two numbers, and the two baffles 32 are respectively arranged close to two sides of the blanking plate 31. When the feeding member 22 pushes the pavement bricks 01 to move, the pavement bricks 01 are pushed to the feeding plate 31 and then move to the bottom of the feeding plate 31 under the action of the gravity of the pavement bricks until the pavement bricks fall on the ground.

Referring to fig. 5 and 6, in order to facilitate paving of the paving bricks 01 to a specific position, a transition plate 4 is arranged at one end of the blanking plate 31 close to the ground, the transition plate 4 is arranged along the horizontal direction, a through hole 311 is formed in one end of the blanking plate 31 close to the ground in a penetrating manner, and a pushing assembly 5 is arranged on the rack 1. The pushing assembly 5 comprises a pushing part 51 and a pushing plate 52, the pushing part 51 can be arranged as an air cylinder, the air cylinder is arranged along the moving direction of the rack 1, the pushing plate 52 is arranged at the output end of the pushing part 51, the air cylinder drives the pushing plate 52 to be arranged along the direction of the transition plate 4 horizontally, the pushing part 51 and the pushing plate 52 are arranged on one side of the transition plate 4 close to the ground, and the pushing part 51 can drive the pushing plate 52 to move to the other side of the transition plate 4. When paving, the pavement bricks 01 slide on the blanking plate 31 to the transition plate 4, then the air cylinder drives the pushing plate 52 to pass through the through opening 311 to move to the other side of the blanking plate 31, then the pavement bricks 01 are driven to move down from the transition plate 4, the pavement bricks 01 are paved to the specified position and are tightly attached to the adjacent pavement bricks 01, and the paving effect is improved.

Referring to fig. 5 and 6, a guide plate 521 is disposed on the pushing plate 52, the guide plate 521 is disposed on a side of the pushing plate 52 facing away from the ground, and a side of the guide plate 521 facing away from the pushing plate 52 is disposed obliquely in a direction facing away from the ground. When pushing plate 52 moves, the slope side of guide plate 521 will guide plate 521 and paving brick 01 side butt, when pushing plate 52 pushes away paving brick 01 and moves, promote the stability when paving brick 01 moves.

Referring to fig. 5 and 6, be provided with buffering subassembly 6 at the output of propelling part 51, buffering subassembly 6 includes buffer bar 62 and buffer 61, buffer 61 can be provided with the spring, buffer bar 62 slides the setting along push plate 52's slip direction at the output of propelling part 51, buffer bar 62 deviates from the one end of propelling part 51 and is connected with push plate 52, the spring housing is established in buffer bar 62's outside, and the one end and the push plate 52 of spring are connected, the other end is connected with the output of cylinder. Drive pavior brick 01 at the cylinder and remove compression elastic component 83 behind the assigned position, buffer rod 62 removes at the tip of cylinder push rod simultaneously, when placing pavior brick 01 in the assigned position, reduces the phenomenon that the damage appears in pavior brick 01 because of the atress is too big. The pavement brick 01 is protected.

Referring to fig. 5 and 6, in order to prevent the road surface from falling into the through hole 311 when the road surface moves on the upper material plate 23, the blocking rod 7 is arranged in the through hole 311, the end part of the blocking rod 7 is rotatably connected with the inner wall of one side of the through hole 311, which is far away from the ground, the blocking rod 7 is far away from the rotating end and is abutted against the inner wall of the through hole 311, in the initial state, the blocking rod 7 is abutted against the inner wall of the through hole 311 under the action of the self gravity of the blocking rod 7, at the moment, the blocking rod 7 and the conveying surface of the upper material plate 23 are in the same plane, so that the blocking of the through hole 311 is carried out when the road surface brick 01 is conveyed, and the phenomenon that the road surface brick 01 enters the through hole 311 is reduced. And when the guide plate 521 moves, the blocking rod 7 is driven to rotate, so that the pushing plate 52 and the guide plate 521 can move to the other side of the upper plate 23, and the position of the pavement brick 01 is adjusted. Meanwhile, the guide plate 521 is arranged to deviate from the inclined side of the guide plate along the moving direction of the pushing plate 52, when the pushing plate 52 pushes the pavement bricks 01 to move, the blocking rod 7 rotates to the guide plate 521 under the action of the self gravity of the blocking rod, the phenomenon that the blocking rod 7 interferes the pushing plate 52 to move to one side, close to the pushing part 51, of the blanking plate 31 is reduced, and therefore the pushing part 51 can drive the pushing plate 52 to return to the initial position.

Referring to fig. 4 and 7, an auxiliary device 8 is disposed at one end of the transition plate 4 away from the feeding plate 23, the auxiliary device 8 includes an auxiliary plate 81, an auxiliary frame 82, an auxiliary rod 84 and an elastic member 83, an auxiliary groove 811 is formed in the auxiliary plate 81 in a penetrating manner, the auxiliary frame 82 is disposed at one side of the auxiliary plate 81 away from the pavement brick 01, an end portion of the auxiliary frame 82 penetrates through the auxiliary groove 811 and is slidably disposed in the auxiliary groove 811 in a direction toward the pavement brick 01, the auxiliary rod 84 is disposed on the auxiliary plate 81, the auxiliary rod 84 penetrates through the auxiliary frame 82, the auxiliary rod 84 is disposed in a sliding direction of the auxiliary frame 82, the elastic member 83 may be a spring disposed outside the auxiliary rod 84, one end of the spring is connected with the auxiliary frame 82, the other end of the spring is connected with the auxiliary rod 84, and the spring is used for driving the auxiliary frame 82 to move toward the pavement brick 01. After the pavement brick 01 moves to the assigned position, the spring drives auxiliary frame 82 and the 01 side butt of pavement brick to drive the 01 lateral shifting of pavement brick and the 01 butt of adjacent pavement brick, promotes the inseparable shape of whole laying.

Referring to fig. 7, an auxiliary wheel 821 is provided on the auxiliary frame 82, the auxiliary wheel 821 is rotatably provided on the auxiliary frame 82, and in an initial state, an edge of the auxiliary wheel 821 extends to the outside of the auxiliary groove 811, that is, a side surface of the auxiliary wheel 821 protrudes to a side of the auxiliary plate 81 close to the paving brick 01. When the pavement brick 01 moves to a specified position, the pavement brick 01 abuts against the auxiliary wheel 821, the auxiliary wheel 821 is driven to move towards the auxiliary groove 811, the elastic piece 83 is compressed, and meanwhile, the auxiliary wheel 821 applies pushing force to the pavement brick 01 so as to adjust the position of the pavement brick 01.

Referring to fig. 1 and 2, a control device 9 is disposed on the machine frame 1, the control device 9 includes a controller 91, a first sensing part 92 and a second sensing part 93, the controller 91 is disposed on the machine frame 1, the first sensing part 92 is disposed on the machine frame 1 for detecting the pavement bricks 01 on the transition plate 4, the first sensing part 92 can be disposed as an infrared sensor, and the second sensing part 93 is disposed on the machine frame 1 for detecting the moving distance of the machine frame 1. The second sensing member 93 can be a distance sensor, the first sensing member 92 and the second sensing member 93 are electrically connected to the controller 91, and the controller 91 is electrically connected to the feeding member 22 and the pushing member 51, respectively. When the rack 1 moves, the distance of the rack 1 moving is detected through the second sensing part 93, after the specified distance is moved, a signal is sent to a signal receiving end of the controller 91, the controller 91 controls the feeding part 22 to start to push the pavement bricks 01 to the discharging plate 31 until the pavement bricks 01 slide to the transition plate 4, then the second sensing part 93 sends a signal to the controller 91 after the pavement bricks 01 on the transition plate 4 are detected, and the controller 91 controls the pushing part 51 to start to drive the pushing plate 52 to move so as to move the pavement bricks 01 to the specified position.

Referring to fig. 2 and 5, a pressure plate 12 is connected to one side of the transition plate 4, the pressure plate 12 is arranged along the moving direction of the frame 1, the pressure plate 12 is arranged on one side of the transition plate 4 close to the moving direction of the frame 1, and the pushing member 51 is arranged on the pressure plate 12, and one side of the pressure plate 12, which is far away from the transition plate 4, is arranged obliquely along the direction far away from the ground. When the frame 1 is moved, the unevenness of the road surface is flattened by the inclined sides of the pressing plates 12 so that the pavement bricks 01 are laid on the road surface.

The implementation principle of the application is as follows: when paving the pavement brick 01, the material loading part 22 drives the pavement brick 01 to move to the blanking plate 31, the pavement brick 01 moves to the transition plate 4 under the action of the gravity of the pavement brick 01, then the pushing part 51 drives the pushing plate 52 to move, the pavement brick 01 is pushed to the paving position through the pushing plate 52, and the paving efficiency of the pavement brick 01 is improved.

The application also discloses a municipal administration pavior brick laying method, adopts above-mentioned municipal administration pavior brick laying device.

A municipal road brick laying method comprises the following steps:

s1, placing a rack 1 on the ground, and then placing pavement bricks 01 in an upper material frame 21;

s2, the rack 1 is moved, and after the second sensing part 93 detects that the rack 1 moves for a specified distance, the controller 91 controls the feeding part 22 to be started to push the pavement bricks 01 to the blanking plate 31;

s3, moving the pavement brick 01 to a transition plate 4 through a blanking plate 31;

s4, when the second sensing part 93 detects the pavement bricks 01 on the transition plate 4, the controller 91 controls the pushing part 51 to start, and the pavement bricks 01 are pushed to the designated position through the pushing plate 52;

and S5, after the pavement brick 01 moves to a specified position, the elastic part 83 drives the auxiliary wheel 821 and the side face of the pavement brick 01 to abut against each other, and the pavement brick 01 and the adjacent pavement brick 01 are placed in a clinging manner.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a municipal administration pavior brick laying device, includes frame (1) and installs gyro wheel (11) that are used for removing frame (1) in frame (1), its characterized in that: be provided with unloader (3) and loading attachment (2) on frame (1), loading attachment (2) and unloader (3) are connected, loading attachment (2) are used for carrying the pavior brick (01) of waiting to lay to unloader (3) department, be provided with cab apron (4) on unloader (3), unloader (3) are used for carrying pavior brick (01) to cab apron (4) department, be provided with propelling movement subassembly (5) on frame (1), propelling movement subassembly (5) and cab apron (4) correspondence are used for laying pavior brick (01) to the assigned position on cab apron (4).

2. The municipal paving brick laying apparatus of claim 1, wherein: loading attachment (2) are including material loading frame (21), material loading spare (22) and material loading board (23), material loading frame (21) are used for placing pavior brick (01) along vertical direction setting in frame (1), material loading frame (21) are close to the one end of frame (1) and have seted up material loading mouth (211), material loading spare (22) set up on frame (1), material loading board (23) set up the output in material loading spare (22), material loading board (23) and material loading mouth (211) correspond the setting, material loading spare (22) are used for driving material loading board (23) and remove and release pavior brick (01) in material loading frame (21) through material loading mouth (211).

3. The municipal paving brick laying apparatus of claim 2, wherein: unloader (3) are including flitch (31) and baffle (32) down, flitch (31) slope sets up in frame (1) down, and the both ends of unloading board (31) are close to material loading mouth (211) and ground setting respectively, cross cab apron (4) and set up the one end that flitch (31) are close to ground down, baffle (32) set up one side that flitch (31) deviate from ground down, baffle (32) are close to the edge setting of flitch (31) down.

4. The municipal paving brick laying apparatus of claim 3, wherein: it has seted up through opening (311) to run through on flitch (31) down, opening (311) are close to cab apron (4) and set up, propelling movement subassembly (5) are including propelling movement spare (51) and propelling movement board (52), propelling movement spare (51) set up in frame (1), propelling movement board (52) set up the output in propelling movement spare (51), propelling movement spare (51) are used for driving propelling movement board (52) and lay road brick (01) through opening (311) and pavior brick (01) butt.

5. The municipal paving brick laying apparatus of claim 4, wherein: the output of propelling movement spare (51) is provided with buffering subassembly (6), buffering subassembly (6) are including buffer beam (62) and buffer (61), buffer beam (62) slide the setting at the output of propelling movement spare (51) along the moving direction of propelling movement board (52), buffer beam (62) and propelling movement board (52) are connected, the output of propelling movement board (52) and propelling movement spare (51) is connected respectively in bolster (61).

6. The municipal paving brick laying apparatus of claim 4, wherein: be provided with shelves pole (7) in through hole (311), the tip of shelves pole (7) and through hole (311) deviate from one side inner wall on ground and rotate the connection, shelves pole (7) deviate from its rotation end and through hole (311) inner wall butt.

7. The municipal paving brick laying apparatus of claim 4, wherein: one end of the transition plate (4) deviating from the feeding plate (23) is provided with an auxiliary device (8), the auxiliary device (8) comprises an auxiliary plate (81), an auxiliary frame (82), an auxiliary rod (84) and an elastic piece (83), an auxiliary groove (811) is formed in the auxiliary plate (81) in a penetrating mode, the auxiliary frame (82) is arranged on one side, deviating from the pavement brick (01), of the auxiliary plate (81), the end portion of the auxiliary frame (82) is located in the auxiliary groove (811) and is arranged in a sliding mode in the direction towards the pavement brick (01), the auxiliary rod (84) is arranged on the auxiliary plate (81), the auxiliary rod (84) is connected with the auxiliary frame (82) in a sliding mode and is used for driving the auxiliary frame (82) to move towards the direction of the pavement brick (01), and one end, close to the auxiliary groove (811), of the auxiliary frame (82) is rotatably provided with an auxiliary wheel (821) used for adjusting the position of the pavement brick (01).

8. The municipal paving brick laying apparatus of claim 7, wherein: one side of the transition plate (4) close to the moving direction of the transition plate is provided with a pressing plate (12), the pressing plate (12) is arranged along the moving direction of the rack (1), the pressing plate (12) is arranged close to the ground, and one side of the pressing plate (12) departing from the transition plate (4) is arranged along the direction deviating from the ground in an inclined mode.

9. The municipal paving brick laying apparatus of claim 4, wherein: be provided with guide board (521) on propelling movement board (52), guide board (521) set up in one side that propelling movement board (52) deviate from ground, guide board (521) deviate from one side of propelling movement board (52) along the direction slope setting that deviates from ground.

10. A municipal paving brick laying method using the municipal paving brick laying apparatus according to any one of claims 1 to 9, comprising the steps of:

the method comprises the following steps of (1) placing a rack (1) on the ground, and then placing pavement bricks (01) in a loading frame (21);

the pavement brick feeding device comprises a movable rack (1), a feeding part (22) and a discharging plate (31), wherein after the rack (1) moves for a specified distance, the pavement bricks (01) are pushed to the discharging plate;

the pavement bricks (01) move to the transition plate (4) through the blanking plate (31);

the pushing member (51) is started, and the pavement bricks (01) are pushed to the appointed position through the pushing plate (52);

after the pavement bricks (01) move to the appointed positions, the elastic parts (83) drive the auxiliary wheels (821) to abut against the side faces of the pavement bricks (01), and the pavement bricks (01) and the adjacent pavement bricks (01) are laid in a clinging mode.

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