CN112359685A

CN112359685A - Municipal road construction paving machine and paving construction method thereof

Info

Publication number: CN112359685A
Application number: CN202011394143.7A
Authority: CN
Inventors: 张婷婷
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-02
Filing date: 2020-12-02
Publication date: 2021-02-12

Abstract

The invention relates to a municipal road construction paving machine and a paving construction method thereof. The invention can solve the following problems A in the current municipal road construction process that the kerbstone needs to be manually carried into the groove, the manual movement operation along the length direction of the groove is needed in the construction operation, the labor intensity of the manual laying operation is increased, the municipal road construction efficiency is influenced, B the kerbstone laid in the groove needs to be manually adjusted, and the laid kerbstone needs to be manually compacted, so that the upper end surface of the laid kerbstone is flat, the manual construction operation accuracy is poor, the construction path is long, and the upper end surface of the kerbstone is easily uneven due to the accumulation of errors.

Description

Municipal road construction paving machine and paving construction method thereof

Technical Field

The invention relates to the technical field of road construction, in particular to a municipal road construction paving machine and a paving construction method thereof.

Background

Along with the development of economy in China, the foundation construction in China is continuously developed, particularly the municipal road is continuously optimized, the overall image of a city is improved, the traveling and life quality of people is improved, the flatness of a road surface and the service life of the road surface are improved by paving asphalt concrete in the municipal road construction process, strict requirements are laid on the municipal road in the municipal road construction process, the paving of curbs on the two sides of the road is an important link in road construction operation, grooves need to be dug out on the two sides of the road in the curb paving construction process, and then the curbs are placed in the grooves.

However, following difficult problem A that exists in the present town road work progress, need artifically carry the curb to the ditch inslot, need artifically to remove the operation along ditch length direction in the construction operation, the intensity of labour of manual work laying operation has been increased, influence the efficiency of town road construction, B needs the manual work to adjust the curb of laying to the ditch inslot, and need the manual work to carry out the compaction to the curb of laying, make the curb up end of laying level and smooth, the manual work is under construction the operation accuracy poor, and the construction path is long, easily make the up end unevenness of curb because of the accumulation of error.

Disclosure of Invention

In order to solve the problems, the invention provides a municipal road construction paving machine and a paving construction method thereof, which can solve the problems mentioned above.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a municipal road construction laying machine comprises a placing frame, a laying device and a conveying device, wherein the laying device is arranged at the front end of the placing frame, a conveying groove is formed in the lower end of the placing frame, the conveying device is arranged in the conveying groove, the rear end of the placing frame is of an open structure, the laying device is arranged at the front end of the placing frame, and a discharge groove matched with the laying device is formed in the lower side of the front end of the placing frame;

the laying device comprises a laying support, a second air cylinder, a laying operation frame, a first laying roller, a baffle, a lifting control mechanism and a vibrating compaction mechanism, wherein the laying support is arranged on the outer wall of a laying frame, the baffle is arranged on the left side of the front end of the laying frame, lifting grooves are symmetrically formed in the left side and the right side of the upper end of the laying support, the laying operation frame is hinged to the lower side of the front end of the laying support, the second air cylinder is hinged between the laying operation frame and the outer wall of the laying support, the laying operation groove is formed in the laying operation frame, the first laying roller is arranged in the laying operation groove from left to right through a bearing, the lifting control mechanism is arranged on the laying support, and the vibrating compaction mechanism;

the vibration compaction mechanism comprises a vibration lifting frame, a vibration transverse plate, a vibration operation frame, a vibration spring, a second laying roller, a third motor and a driving branch chain, the vibration lifting frame is installed on the lifting control mechanism, the vibration transverse plate is installed between the inner walls of the vibration lifting frame, vibration holes are formed in the vibration transverse plate at equal intervals from left to right, the vibration operation frame is arranged in the vibration holes in a sliding mode, the vibration spring is arranged between the vibration operation frame and the vibration transverse plate, the second laying roller is arranged between the inner walls of the vibration operation frame, the third motor is installed on the inner wall of the laying support through a motor base, and the driving branch chain is installed on an output shaft of the third motor;

the drive branch chain includes drive operation roller, No. four motors, rotatory piece, drive block and drive slide, the connection of drive operation roller is on No. three motors, the outer wall of drive operation roller supports and leans on vibration operation frame, the inner groovy has been seted up to the upper end of drive operation roller, drive operation roller is the cavity structure, the shifting chute has been seted up between the inner wall of drive operation roller and the inner groovy, it is provided with the drive block to slide in the shifting chute, be provided with the drive slide on the drive block, evenly be provided with the circular arc lug on the drive slide, the drive work groove has been seted up to the lower extreme of drive block, install No. four motors through the motor cabinet on the inner wall of drive operation roller, the rotatory piece is installed to the slope on the output shaft of No. four motors, rotatory piece is located the drive work ins.

Further, the front end of laying the support is articulated to have the promotion execution board, and promotion execution board and laying handing-over have the execution cylinder between the operation frame, place the front end downside of frame and install the lift cylinder, and the lower extreme of lift cylinder is installed and is gone up and down the riser.

Furthermore, the lifting control mechanism comprises a second motor, a screw rod, a lifting block and a lifting rod, the second motor is mounted on the outer wall of the placement frame through a motor base, an output shaft of the second motor is connected with the upper end of the screw rod, the lower end of the screw rod is mounted on the laying support through a bearing, the lifting block is connected onto the screw rod through threads, the lifting rods are symmetrically mounted on the left side and the right side of the lower end of the lifting block, the lifting rod penetrates through the lifting groove in a sliding mode, and the lower end of the lifting rod is provided with a vibration compaction mechanism;

further, place and be equipped with push plate, first cylinder, support diaphragm and backing roll in the frame, first cylinder is installed on placing frame front end inner wall, installs push plate on the first cylinder, supports the diaphragm and installs on the inner wall of placing the frame, and supports the downside that the diaphragm is located first cylinder, has seted up on the support diaphragm and has supported the groove, supports the inslot and evenly is equipped with the backing roll through the bearing.

Further, the conveying device comprises a first motor, a conveying roller, a first conveying chain wheel, a third conveying chain wheel, a first chain, a second conveying chain wheel, a second chain, a turnover shaft and a turnover plate, wherein the conveying rollers are arranged between the inner walls of the conveying groove at equal intervals from front to back through bearings, the left ends of the conveying rollers extend to the outer side of the placing frame, the first conveying chain wheel is arranged on the outer wall of the left end of the conveying roller, the first conveying chain wheels are connected with one another through the first chain, the turnover shaft is arranged between the inner walls of the placing frame through the bearings, the turnover shaft is positioned on the lower side of the supporting transverse plate, the left end of the turnover shaft penetrates through the placing frame, the turnover plate is uniformly arranged on the turnover shaft, the second conveying chain wheel is arranged at the left end of the turnover shaft, the third conveying chain wheel is arranged on the conveying roller positioned at the front end of the placing frame, and the third conveying chain wheel is, the conveying roller located at the rear end of the placing frame is connected with an output shaft of a motor, and the motor is fixed on the outer wall of the placing frame.

Further, the method for paving the kerbstone by the municipal road construction paving machine comprises the following steps

Step one, uniformly placing the kerbs into a placing frame, wherein the placing frame is arranged on a movable trolley, and operating personnel operate in the placing frame;

step two, manually placing the curb into the frame, carrying the curb onto a conveying device by an operator in construction, and driving the curb to convey from back to front at a constant speed through the conveying device;

conveying the conveyed kerbstone to a laying operation frame from a discharge chute, adjusting the position of the kerbstone to enable the kerbstone to abut against a baffle, and pressing the kerbstone into a trench dug at the side of a road through a lifting control mechanism;

and fourthly, compacting the kerbs pressed into the groove through a vibration compacting mechanism to enable the upper end surfaces of two adjacent kerbs to be in a flat state in the same plane.

The invention can solve the following problems A in the current municipal road construction process that the kerbstone needs to be manually carried into the groove, the manual movement operation along the length direction of the groove is needed in the construction operation, the labor intensity of the manual laying operation is increased, the municipal road construction efficiency is influenced, B the kerbstone laid in the groove needs to be manually adjusted, and the laid kerbstone needs to be manually compacted, so that the upper end surface of the laid kerbstone is flat, the manual construction operation accuracy is poor, the construction path is long, and the upper end surface of the kerbstone is easily uneven due to the accumulation of errors.

The placing frame is arranged on the movable trolley, the placing frame can be controlled to move through the trolley, the kerbs to be laid during pavement construction are placed in the placing frame, when the kerbs are laid during construction, the kerbs in the placing frame are clamped one by one through the clamping and conveying device, the clamped kerbs are placed on the conveying device, and the conveying device drives the kerbs to be discharged into the grooves from the discharge chute. .

The placing frame is arranged on the movable trolley, the kerbstone to be laid during road surface construction is arranged in the placing frame, when the kerbstone is laid during construction, a worker stands in the placing frame, the clamped kerbstone is placed on the conveying device, the conveying device drives the kerbstone to be discharged into the laying device from the discharge chute, and the kerbstone is arranged in the groove through the laying device without manual moving operation.

According to the angle adjusting device, the actuating cylinder is used for controlling the pushing of the actuating plate to adjust the angle, the actuating plate is pushed to push the kerbstone in the adjusting process, so that the left end of the kerbstone is abutted against the baffle, the kerbstone in the laying operation can move to a proper position, the left end face of the moving kerbstone is positioned above the right end face of the kerbstone in the groove, the kerbstone can be attached to the end face of the adjacent kerbstone in the laying process, and the kerbstone is pressed into the groove dug at the side of the road through the lifting control mechanism; the curb pressed into the groove is compacted through the vibrating compaction mechanism, so that the upper end faces of two adjacent curbs are in a flat state in the same plane, and manual operation is not needed.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the present invention;

fig. 3 is a sectional view taken along line a-a of fig. 2 in accordance with the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 3, a municipal road construction laying machine comprises a placing frame 1, a laying device 2 and a conveying device 3, wherein the front end of the placing frame 1 is provided with the laying device 2, the lower end of the placing frame 1 is provided with a conveying groove, the conveying device 3 is arranged in the conveying groove, the rear end opening structure of the placing frame 1 is provided with the laying device 2, and the lower side of the front end of the placing frame 1 is provided with a discharge groove matched with the laying device 2.

Placing frame 1 and setting up on the dolly that can remove, the curb that need lay when constructing the road surface is adorned and is placed frame 1 in, when the curb is laid in the construction, the manual work is placed conveyor 3 with the curb of centre gripping on, conveyor 3 drives the curb from discharging in the blown down tank discharge to laying device 2 in, install the ditch inslot with the curb through laying device 2.

Place and be equipped with push plate 11, first cylinder 12, support diaphragm 13 and backing roll 14 in the frame 1, first cylinder 12 is installed on placing frame 1 front end inner wall, installs push plate 11 on the first cylinder 12, supports diaphragm 13 and installs on the inner wall of placing frame 1, and supports diaphragm 13 and be located the downside of first cylinder 12, has seted up the support groove on the support diaphragm 13, supports the inslot and evenly is equipped with backing roll 14 through the bearing.

The curb is placed on placing the support diaphragm 13 in the frame 1, drives push plate 11 through first cylinder 12 and carries out flexible operation in laying the operation, promotes the curb on the support diaphragm 13 through push plate 11 and carries backward, and backing roll 14 has played the effect of supplementary transport in the operation, and push plate 11 can be with curb propelling movement to appointed position department, and the manual work is placed the curb on conveyor 3.

The conveying device 3 comprises a first motor 31, a conveying roller 32, a first conveying chain wheel 33, a third conveying chain wheel 34, a first chain 341, a second conveying chain wheel 342, a second chain 343, a turnover shaft 344 and a turnover plate 345, the conveying rollers 32 are arranged between the inner walls of the conveying grooves at equal intervals from front to back through bearings, the left end of the conveying roller 32 extends to the outer side of the placing frame 1, the first conveying chain wheel 33 is arranged on the outer wall of the left end of the conveying roller 32, and the first conveying chain wheels 33 are connected through the first chain 341; place and be provided with trip shaft 344 through the bearing between the inner wall of frame 1, trip shaft 344 is located the downside that supports diaphragm 13, the left end of trip shaft 344 runs through and places frame 1, evenly be provided with returning face plate 345 on the trip shaft 344, No. two conveying sprocket 342 are installed to the left end of trip shaft 344, be located and be provided with No. three conveying sprocket 34 on the conveying roller 32 of placing frame 1 front end, link to each other through No. two chains 343 between No. three conveying sprocket 34 and No. two conveying sprocket 342, the conveying roller 32 that is located and places frame 1 rear end links to each other with the output shaft of a motor 31, a motor 31 is fixed on the outer wall of placing frame 1.

When the kerbstone is placed to the conveying roller 32, start a motor 31 and control a first conveying sprocket 33 and rotate, a first conveying sprocket 33 cooperates with a first chain 341 in the rotation process to drive the conveying roller 32 to rotate synchronously, the conveying roller 32 controls the kerbstone to move from back to front in the rotation process, the conveying roller 32 rotates through a second conveying sprocket 342, a third conveying sprocket 34 and a second chain 343 in the rotation process, the turnover shaft 344 controls the turnover plate 345 to rotate in the operation, and the turnover plate 345 discharges the conveyed kerbstone from the discharge chute into the paving device 2 in the operation.

The laying device 2 comprises a laying support 21, a second air cylinder 22, a laying operation frame 23, a first laying roller 24, a baffle 25, a lifting control mechanism 26 and a vibrating compaction mechanism 27, wherein the laying support 21 is installed on the outer wall of the laying frame 1, the baffle 25 is installed on the left side of the front end of the laying frame 1, lifting grooves are symmetrically formed in the left side and the right side of the upper end of the laying support 21, the laying operation frame 23 is hinged to the lower side of the front end of the laying support 21, the second air cylinder 22 is hinged between the laying operation frame 23 and the outer wall of the laying support 21, the laying operation frame 23 is provided with a laying operation groove, the first laying roller 24 is arranged in the laying operation groove from left to right through a bearing, the lifting control mechanism 26 is arranged on the laying support 21, and the vibrating compaction mechanism 27 is;

the front end of the laying support 21 is hinged with a pushing execution plate 211, an execution cylinder 212 is connected between the pushing execution plate 211 and the laying operation frame 21, a lifting cylinder 213 is installed on the lower side of the front end of the placing frame 1, and a lifting vertical plate 214 is installed on the lower end of the lifting cylinder 213.

When the curb is placed and is laid on operation frame 23, promote through carrying out actuating cylinder 212 control and carry out board 211 and carry out angle modulation, promote to carry out board 211 and carry out the propelling movement to the curb in accommodation process, make the left end of curb support on baffle 25, thereby make the curb in the operation of laying move suitable position department, make the left end face of curb in the motion be located the top of the curb right-hand member face in the ditch groove, ensure that the curb can laminate with adjacent curb terminal surface in laying.

The lifting control mechanism 26 starts to work, meanwhile, the second air cylinder 22 controls the laying operation frame 23 to rotate, the lifting control mechanism 26 moves downwards to control the vibrating compaction mechanism 27 to extrude the upper end face of the curb, the laying operation frame 23 conveys the curb to the lower end in the rotation, the lifting air cylinder 213 synchronously works to drive the lifting vertical plate 214 to adjust, and the paving operation frame 23 and the lifting vertical plate 214 are matched to drive the curb to horizontally move downwards.

The lifting control mechanism 26 comprises a second motor 261, a lead screw 262, a lifting block 263 and a lifting rod 264, the second motor 261 is installed on the outer wall of the placing frame 1 through a motor base, an output shaft of the second motor 261 is connected with the upper end of the lead screw 262, the lower end of the lead screw 262 is installed on the laying support 21 through a bearing, the lead screw 262 is connected with the lifting block 263 through a thread, the lifting rods 264 are symmetrically installed on the left side and the right side of the lower end of the lifting block 263, the lifting rods 264 slide through a lifting groove, and the lower end of the lifting rods 264 is provided with a vibrating compaction mechanism 27;

the second motor 261 is started to control the screw 262 to rotate, the screw 262 controls the lifting block 263 to adjust during the rotation operation, and the lifting block 263 drives the vibrating compaction mechanism 27 to move downwards through the lifting rod 264 during the movement.

The vibrating compaction mechanism 27 comprises a vibrating lifting frame 271, a vibrating transverse plate 272, a vibrating operation frame 273, a vibrating spring 274, a second laying roller 275, a third motor 276 and a driving branched chain 277, the vibrating lifting frame 271 is installed on the lifting control mechanism 26, the vibrating transverse plate 272 is installed between the inner walls of the vibrating lifting frame 271, vibrating holes are formed in the vibrating transverse plate 272 at equal intervals from left to right, the vibrating operation frame 273 is arranged in the vibrating holes in a sliding mode, the vibrating spring 274 is arranged between the vibrating operation frame 273 and the vibrating transverse plate 272, the second laying roller 275 is arranged between the inner walls of the vibrating operation frame 273, the third motor 276 is installed on the inner wall of the laying support 21 through a motor base, and the driving branched chain 277 is installed on an output shaft of the third motor 276;

when the kerbstone needs to be pushed, the second paving roller 275 plays a role in assisting the moving kerbstone, when the kerbstone is pressed into a groove, the third motor 276 controls the driving branched chain 277 to rotate to a working angle, the driving branched chain 277 controls the vibration operation frame 273 to perform reciprocating vibration operation up and down, and therefore the vibration operation frame 273 performs vibration compaction operation on the upper end face of the kerbstone.

The driving branch 277 includes a driving work roll 2771, a fourth motor 2772, a rotation block 2773, a driving block 2774, and a driving slide 2775, the driving operation roller 2771 is connected to the third motor 276, the outer wall of the driving operation roller 2771 abuts against the vibration operation frame 273, an inner groove is formed in the upper end of the driving operation roller 2771, the driving operation roller 2771 is of a cavity structure, a moving groove is formed between the inner wall of the driving operation roller 2771 and the inner groove, a driving block 2774 is arranged in the moving groove in a sliding mode, a driving sliding plate 2775 is arranged on the driving block 2774, a driving working groove is formed in the lower end of the driving block 2774, the fourth motor 2772 is arranged on the inner wall of the driving operation roller 2771 through a motor base, a rotating block 2773 is obliquely arranged on an output shaft of the fourth motor 2772, and the rotating block 2773 is located in the driving working groove, and the rotating block 2773 abuts against the inner wall of the driving working groove, and the driving sliding plate 2775 is uniformly provided with arc-shaped convex blocks.

The driving branched chain 277 is in the operation, the rotating block 2773 is driven to rotate through the fourth motor 2772, the rotating block 2773 is matched with the driving working groove in the rotating operation to drive the driving block 2774 to do left-right reciprocating motion, the driving block 2774 synchronously drives the driving sliding plate 2775 to do motion in the motion, the driving sliding plate 2775 drives the second laying roller 275 to vibrate the upper end face of the kerbstone through the extrusion of the circular arc convex blocks on the vibration working frame 273, and therefore the kerbstone is automatically installed in the groove.

A method for paving and constructing a curb by using a municipal road construction paving machine is characterized by comprising the following steps;

step one, uniformly placing the kerbs into a placing frame 1, wherein the placing frame 1 is arranged on a moving trolley, and an operator works in the placing frame 1;

step two, manually placing the curb into the frame 1, carrying the curb onto a conveying device 3 by an operator in construction, and driving the curb to convey from back to front at a constant speed through the conveying device 3;

step three, conveying the conveyed kerbstone to the laying operation frame 23 from the discharge chute, adjusting the position of the kerbstone to enable the kerbstone to abut against the baffle 25, and pressing the kerbstone into the trench dug at the side of the road through the lifting control mechanism 26;

and step four, compacting the kerbs pressed into the grooves by using a vibration compacting mechanism 27 to enable the upper end surfaces of two adjacent kerbs to be in a flat state in the same plane.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A municipal road construction laying machine comprises a placing frame (1), a laying device (2) and a conveying device (3), and is characterized in that the laying device (2) is arranged at the front end of the placing frame (1), a conveying groove is formed in the lower end of the placing frame (1), the conveying device (3) is arranged in the conveying groove, the rear end of the placing frame (1) is of an open structure, the laying device (2) is arranged at the front end of the placing frame (1), and a discharge groove matched with the laying device (2) is formed in the lower side of the front end of the placing frame (1);

the laying device (2) comprises a laying support (21), a second cylinder (22), a laying operation frame (23), a first laying roller (24), a baffle (25), a lifting control mechanism (26) and a vibrating compaction mechanism (27), wherein the laying support (21) is arranged on the outer wall of a placing frame (1), the baffle (25) is arranged on the left side of the front end of the placing frame (1), lifting grooves are symmetrically formed in the left side and the right side of the upper end of the laying support (21), the laying operation frame (23) is hinged to the lower side of the front end of the laying support (21), the second cylinder (22) is hinged between the laying operation frame (23) and the outer wall of the laying support (21), a laying operation groove is formed in the laying operation frame (23), the first laying roller (24) is arranged in the laying operation groove through a bearing in a right direction, the lifting control mechanism (26) is arranged on the laying support (21, the lower end of the lifting control mechanism (26) is provided with a vibrating compaction mechanism (27);

the vibrating compaction mechanism (27) comprises a vibrating lifting frame (271), a vibrating transverse plate (272), a vibrating working frame (273), a vibrating spring (274), a second laying roller (275), a third motor (276) and a driving branched chain (277), the vibration lifting frame (271) is installed on the lifting control mechanism (26), a vibration transverse plate (272) is installed between the inner walls of the vibration lifting frame (271), vibration holes are formed in the vibration transverse plate (272) at equal intervals from left to right, a vibration operation frame (273) is arranged in the vibration holes in a sliding mode, a vibration spring (274) is arranged between the vibration operation frame (273) and the vibration transverse plate (272), a second laying roller (275) is arranged between the inner walls of the vibration operation frame (273), a third motor (276) is installed on the inner wall of the laying support (21) through a motor base, and a driving branched chain (277) is installed on an output shaft of the third motor (276);

the driving branched chain (277) comprises a driving operation roller (2771), a fourth motor (2772), a rotating block (2773), a driving block (2774) and a driving sliding plate (2775), the driving operation roller (2771) is connected to the third motor (276), the outer wall of the driving operation roller (2771) abuts against the vibration operation frame (273), an inner groove is formed in the upper end of the driving operation roller (2771), the driving operation roller (2771) is of a cavity structure, a moving groove is formed between the inner wall of the driving operation roller (2771) and the inner groove, the driving block (2774) is arranged in the moving groove in a sliding mode, a driving sliding plate (2775) is arranged on the driving sliding plate (2775), arc convex blocks are uniformly arranged on the driving sliding plate (2775), the driving operation groove is formed in the lower end of the driving block (2774), the fourth motor (2772) is installed on the inner wall of the driving operation roller (2771) through a motor base, the rotating block (2773) is installed on the output shaft of the fourth motor (2772, the rotating block (2773) is located in the driving work groove, and the rotating block (2773) abuts against the inner wall of the driving work groove.

2. The municipal road construction and laying machine according to claim 1, wherein the front end of the laying support (21) is hinged with a pushing execution plate (211), an execution cylinder (212) is connected between the pushing execution plate (211) and the laying work frame (21), a lifting cylinder (213) is installed on the lower side of the front end of the placing frame (1), and a lifting vertical plate (214) is installed on the lower end of the lifting cylinder (213).

3. The municipal road construction paving machine according to claim 1, wherein the lifting control mechanism (26) comprises a second motor (261), a lead screw (262), a lifting block (263) and a lifting rod (264), the second motor (261) is installed on the outer wall of the placement frame (1) through a motor base, an output shaft of the second motor (261) is connected with the upper end of the lead screw (262), the lower end of the lead screw (262) is installed on the paving support (21) through a bearing, the lifting block (263) is connected onto the lead screw (262) through a thread, the lifting rods (264) are symmetrically installed on the left side and the right side of the lower end of the lifting block (263), the lifting rods (264) slide through lifting grooves, and the vibration compaction mechanism (27) is installed at the lower end of the lifting rods (264).

4. The municipal road construction and laying machine according to claim 1, wherein a pushing plate (11), a first cylinder (12), a supporting transverse plate (13) and supporting rollers (14) are arranged in the placing frame (1), the first cylinder (12) is installed on the inner wall of the front end of the placing frame (1), the pushing plate (11) is installed on the first cylinder (12), the supporting transverse plate (13) is installed on the inner wall of the placing frame (1), the supporting transverse plate (13) is located on the lower side of the first cylinder (12), supporting grooves are formed in the supporting transverse plate (13), and the supporting rollers (14) are uniformly arranged in the supporting grooves through bearings.

5. The municipal road construction paving machine according to claim 1, wherein the conveying device (3) comprises a first motor (31), a conveying roller (32), a first conveying chain wheel (33), a third conveying chain wheel (34), a first chain (341), a second conveying chain wheel (342), a second chain (343), a turnover shaft (344) and a turnover plate (345), the conveying roller (32) is arranged between the inner walls of the conveying trough at equal intervals from front to back through a bearing, the left end of the conveying roller (32) extends to the outer side of the placing frame (1), the first conveying chain wheel (33) is arranged on the outer wall of the left end of the conveying roller (32), the first conveying chain wheels (33) are connected through the first chain (341), the turnover shaft (344) is arranged between the inner walls of the placing frame (1) through a bearing, and the turnover shaft (344) is positioned on the lower side of the supporting transverse plate (13), the left end of trip shaft (344) runs through and places frame (1), evenly be provided with returning face plate (345) on trip shaft (344), No. two transport sprocket (342) are installed to the left end of trip shaft (344), be located and be provided with No. three transport sprocket (34) on the transport roller (32) of placing frame (1) front end, link to each other through No. two chain (343) between No. three transport sprocket (34) and No. two transport sprocket (342), the output shaft that is located transport roller (32) of placing frame (1) rear end and motor (31) links to each other, motor (31) are fixed on the outer wall of placing frame (1).

6. The method for paving the kerbstone by using the municipal road construction paving machine according to claim 1, comprising the following steps;

step one, uniformly placing the kerbs into a placing frame (1), installing the placing frame (1) on a mobile trolley, and operating personnel operating in the placing frame (1);

step two, manually placing the curb into the frame (1), carrying the curb onto a conveying device (3) by an operator in construction, and driving the curb to convey from back to front at a constant speed through the conveying device (3);

conveying the conveyed kerbstone to a laying operation frame (23) from a discharge chute, adjusting the position of the kerbstone to enable the kerbstone to abut against a baffle (25), and pressing the kerbstone into a trench dug at the side of a road through a lifting control mechanism (26);

and fourthly, compacting the kerbs pressed into the groove through a vibration compacting mechanism (27) to enable the upper end surfaces of two adjacent kerbs to be in a flat state in the same plane.