CN221072200U

CN221072200U - Laying device for plastic track

Info

Publication number: CN221072200U
Application number: CN202322976983.XU
Authority: CN
Inventors: 宋树雄; 周能文
Original assignee: Guangdong Hong Sports Facilities Co ltd
Current assignee: Guangdong Hong Sports Facilities Co ltd
Priority date: 2023-11-04
Filing date: 2023-11-04
Publication date: 2024-06-04
Anticipated expiration: 2033-11-04

Abstract

The utility model relates to a paving device of a plastic track, which comprises an organism, a paving mechanism and a cleaning mechanism; the paving mechanism is arranged on the machine body and is used for paving the runway; the cleaning mechanism comprises 2 brush rollers, a brush driving assembly and a negative pressure device; the 2 brush rollers are rotatably arranged on the machine body, the 2 brush rollers are arranged on the front side of the laying mechanism along the front-back direction, the rotation axes of the 2 brush rollers are arranged along the left-right direction, a garbage collection space is formed between the 2 brush rollers, the lower side of the circumferential surface of each brush roller is contacted with the ground, and the rotation direction of the lower part of each brush roller is arranged towards the direction of the garbage collection space; the negative pressure device is arranged on the machine body and is used for sucking dust and fragments in the garbage collection space; the brush driving assembly is arranged on the machine body and is used for driving 2 brush rollers to rotate.

Description

Laying device for plastic track

Technical Field

The utility model relates to the technical field of runway paving, in particular to a paving device for a plastic runway.

Background

In order to improve the laying efficiency of the plastic track and reduce the labor intensity of workers, a plurality of laying devices of the plastic track appear on the market at present, such as China patent of the utility model with the publication number of CN211446505U and the patent name of intelligent laying equipment for prefabricated plastic tracks; in order to ensure good laminating effect between the runway and the ground, the conventional paving device needs to manually clean the ground before the runway paving work, so that the labor intensity of workers is high and the working efficiency is low.

Disclosure of utility model

The utility model aims to provide a paving device for a plastic track, which has the advantages of simple structure, reasonable design, low labor intensity of workers, high working efficiency and the like.

The technical scheme adopted for solving the technical problems is as follows: a paving device of a plastic track comprises an organism, a paving mechanism and a cleaning mechanism; the paving mechanism is arranged on the machine body and is used for paving the runway; the cleaning mechanism comprises 2 brush rollers, a brush driving assembly and a negative pressure device; the 2 brush rollers are rotatably arranged on the machine body, the 2 brush rollers are arranged on the front side of the laying mechanism along the front-back direction, the rotation axes of the 2 brush rollers are arranged along the left-right direction, a garbage collection space is formed between the 2 brush rollers, the lower side of the circumferential surface of each brush roller is contacted with the ground, and the rotation direction of the lower part of each brush roller is arranged towards the direction of the garbage collection space; the negative pressure device is arranged on the machine body and is used for sucking dust and fragments in the garbage collection space; the brush driving assembly is arranged on the machine body and is used for driving 2 brush rollers to rotate.

The working principle of the utility model is as follows:

because the rotation direction of each brush roller lower part all sets up towards the place direction in garbage collection space, can make subaerial dust and debris concentrate in the garbage collection space under 2 brush roller's effect, absorb the collection through negative pressure device dust and debris in the garbage collection space to this realization is clean the ground of laying mechanism front side. Through such design, need not the manual work and clean ground before carrying out runway pavement work, reduced workman's intensity of labour, work efficiency is higher.

Further, as described above, a negative pressure space is formed in the machine body, and an air outlet and a plurality of air suction ports are formed in the negative pressure space, which are communicated with the outer surface of the machine body, and the plurality of air suction ports are sequentially arranged above the garbage collection space along the left-right direction, and each air suction port is arranged to suck downwards; the negative pressure device comprises a dustbin and a fan, the dustbin is placed on the machine body, a collecting cavity is formed in the dustbin and used for collecting and storing dust and fragments, a collecting port and a negative pressure port are formed on the outer surface of the dustbin and communicated with the collecting cavity, the collecting port is detachably communicated with an air outlet of a negative pressure space through a pipeline, and a filter screen is arranged on the negative pressure port in a covering mode; the fan is installed on the organism, and the negative pressure end of fan communicates with the negative pressure mouth of dustbin through the pipeline, and the fan is used for providing negative pressure environment for collecting the chamber.

Further, as described above, the brush driving assembly includes a brush driving motor, a driving member and a driven driving member, both of which are rotatably mounted on the machine body, and their respective rotation axes are disposed along the left-right direction; the driving transmission member is sequentially provided with a first output gear part, an input gear part and a driving gear part along the rotation axis of the driving transmission member, the first output gear part, the input gear part and the driving gear part are of gear structures, the central axes of the first output gear part, the input gear part and the driving gear part are respectively arranged in line with the rotation axis of the driving transmission member, and the first output gear part is in transmission connection with one of the brush rollers through a belt; the driven transmission member is sequentially provided with a second output gear part and a driven gear part along the rotation axis of the driven transmission member, the second output gear part and the driven gear part are of gear structures, the respective central axes of the second output gear part and the driven gear part are arranged in line with the rotation axis of the driven transmission member, the second output gear part is in transmission connection with the other brush roller through a belt, and the driven gear part is in meshed connection with the driving gear part; the brush driving motor is arranged on the machine body, and an output shaft of the brush driving motor is in transmission connection with the input gear part.

Further, as described above, the laying device for the plastic track is characterized in that the bottom surface of the machine body is further provided with a plurality of dust-blocking brushes, and the dust-blocking brushes are arranged between the rear brush roller and the laying mechanism.

Further, as described above, the laying device for the plastic track comprises an unreeling roller, an upper guiding roller, a lower guiding roller, a front laying roller, a rear laying roller and a laying driving motor; the unreeling roller is provided with runway coiled materials, and two ends of the unreeling roller are respectively and detachably rotatably arranged on the machine body; the upper guide roller, the lower guide roller, the front laying press roller, the rear laying press roller are rotatably arranged on the machine body, and the rotating axes of the upper guide roller, the lower guide roller, the front laying press roller, the rear laying press roller and the unreeling roller are arranged along the left-right direction; the rotation axes of the front paving press roller and the rear paving press roller are arranged on a horizontal plane in a front-back mode, and the front paving press roller and the rear paving press roller are arranged close to the ground; the upper guide roller, the lower guide roller and the unreeling roller are positioned between the front laying press roller and the rear laying press roller in the front-rear direction, the upper guide roller is arranged between the unreeling roller and the lower guide roller, and the lower guide roller is arranged between the upper guide roller and the front laying press roller; the laying driving motor is arranged on the machine body and used for driving the front laying pressing roller and the rear laying pressing roller to synchronously rotate; the runway coiled material sequentially bypasses the upper side of the upper guide roller, the lower side of the lower guide roller, the front side of the front paving compression roller and the lower side of the rear paving compression roller.

Further, the paving device of the plastic runway further comprises a rubberizing mechanism, wherein the rubberizing mechanism comprises a first tensioning roller, a second tensioning roller, a rubberizing roller, a glue spraying assembly and a rubberizing motor; the first tensioning roller, the second tensioning roller and the rubberizing roller are rotatably arranged on the machine body, the rotation axes of the first tensioning roller, the second tensioning roller and the rubberizing roller are arranged in the left-right direction, the first tensioning roller is positioned above the lower guide roller, the second tensioning roller is positioned at the front side of the first tensioning roller, and the rubberizing roller is positioned between the first tensioning roller and the second tensioning roller and is higher than the first tensioning roller and the second tensioning roller; the glue spraying assembly is arranged on the machine body and is used for spraying glue on the circumferential surface of the upper glue roller; the gluing motor is arranged on the machine body and is used for driving the gluing roller to rotate; the runway coiled material is arranged by sequentially bypassing the upper side of the upper guide roller, the lower side of the lower guide roller, the upper side of the first tensioning roller, the lower side of the upper rubber roller, the upper side of the second tensioning roller, the front side of the front paving press roller and the lower side of the rear paving press roller.

Further, as described above, the glue spraying assembly comprises a glue storage box and a plurality of glue spray heads, the glue storage box is mounted on the machine body and higher than the glue feeding roller, a liquid storage cavity is formed in the glue storage box and is used for storing glue, a plurality of liquid outlets communicated with the bottom surface of the glue storage box are formed in the bottom surface of the liquid storage cavity, the liquid outlets are distributed in the left-right direction, the glue spray heads are mounted on the lower orifices of the liquid outlets, and the glue spray heads are all arranged towards the glue feeding roller.

Further, the laying device of the plastic track further comprises a tensioning automatic adjusting mechanism, the tensioning automatic adjusting mechanism comprises an adjusting roller, 2 shaft seats and 2 elastic pieces, two ends of the adjusting roller are respectively and rotatably arranged on the 2 shaft seats, the rotation axis of the adjusting roller is arranged in the left-right direction, and the adjusting roller is positioned between the second tensioning roller and the front laying roller; the 2 shaft seats are respectively and slidably arranged at the left side and the right side of the machine body, and the sliding direction of the 2 shaft seats is perpendicular to the planes of the rotation axis of the second tensioning roller and the rotation axis of the front spreading press roller; the part of the runway coiled material between the second tensioning roller and the front paving roller is arranged around the front side of the adjusting roller way; an elastic piece corresponds to an axle seat, one end of the elastic piece is connected with the axle seat, and the other end of the elastic piece is connected with the machine body, so that the regulating rollers on the 2 axle seats have a tendency to move towards the direction of the runway coiled material.

Further, according to the laying device for the plastic track, the central texture ribs are formed on the circumferential surfaces of the upper guide roller and the lower guide roller.

Further, in the laying device for the plastic track, at least 4 sliding rollers are mounted on the machine body, and a pushing handle is mounted on the rear side of the machine body.

The technical scheme of the utility model has the following beneficial effects: has the advantages of simple structure, reasonable design, low labor intensity of workers, high working efficiency and the like.

Drawings

FIG. 1 is one of the perspective structural diagrams of an embodiment;

FIG. 2 is a second perspective view of the embodiment;

FIG. 3 is a top view of an embodiment;

FIG. 4 is a cross-sectional view of the structure of FIG. 3 in the direction A-A;

FIG. 5 is a schematic view of the runway coil of FIG. 4 when installed;

FIG. 6 is a front view of an embodiment;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

FIG. 8 is a schematic structural view of a brush driving assembly of an embodiment;

FIG. 9 is a schematic diagram illustrating an assembly of a driving transmission member and a driven transmission member according to an embodiment;

reference numerals illustrate:

1-a machine body; 11-negative pressure space; 12-an air outlet; 13-an air suction port; 2-a laying mechanism; 21-unreeling rollers; 22-upper guide rollers; 23-lower guide rollers; 24-paving a compression roller; 25-paving a compression roller; 3-a cleaning mechanism; 31-a brush roller; 32-a brush driving assembly; 321-a brush driving motor; 322-driving transmission piece; 3221-a first output gear portion; 3222-an input gear portion; 3223-a drive gear portion; 323 driven transmission member; 3231—a second output gear portion; 3232-a driven gear portion; 324-a belt; 33-negative pressure device; 331-a dustbin; 3311-collecting port; 3312-negative pressure port; 3313-filtering; 332-a fan; 4-dust-blocking hairbrushes; 5-a sizing mechanism; 51-a first tensioning roller; 52-a second tensioning roller; 53-sizing rollers; 54-a glue spray assembly; 541-a glue storage tank; 5411-reservoir; 542-glue spray nozzle; 6-tensioning automatic adjusting mechanism; 61-adjusting the roller; 62-axle seats; 63-an elastic member; 7-sliding rollers; 8-pushing the handle; 9-runway coiled material.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present utility model, a detailed description of embodiments of the present utility model will be made with reference to the accompanying drawings.

Fig. 1 to 9 show a paving apparatus for a plastic course according to an embodiment, which includes an organism 1, a paving mechanism 2, and a cleaning mechanism 3; the paving mechanism 2 is arranged on the machine body 1, and the paving mechanism 2 is used for paving the runway; the cleaning mechanism 3 comprises 2 brush rollers 31, a brush driving assembly 32 and a negative pressure device 33; the 2 brush rollers 31 are rotatably arranged on the machine body 1, the 2 brush rollers 31 are arranged on the front side of the laying mechanism 2 along the front-back direction, the rotation axes of the 2 brush rollers 31 are arranged along the left-right direction, a garbage collection space is formed between the 2 brush rollers 31, the lower side of the circumferential surface of each brush roller 31 is contacted with the ground, and the rotation directions of the lower parts of the brush rollers 31 are all arranged towards the direction of the garbage collection space; the negative pressure device 33 is arranged on the machine body 1, and the negative pressure device 33 is used for sucking dust and debris in the garbage collection space; the brush driving assembly 32 is mounted on the machine body 1, and the brush driving assembly 32 is used for driving 2 brush rolls 31 to rotate.

The working principle of the embodiment is as follows:

Because the rotation direction of each brush roller 31 lower part all sets up towards the place direction in garbage collection space, can make subaerial dust and debris concentrate in the garbage collection space under the effect of 2 brush rollers 31, absorb the collection through negative pressure device 33 to the dust and debris in the garbage collection space to this realization is clean the ground of laying mechanism 2 front side. Through such design, need not the manual work and clean ground before carrying out runway pavement work, reduced workman's intensity of labour, work efficiency is higher.

As shown in fig. 1 to 4, a negative pressure space 11 is formed in the machine body 1, an air outlet 12 and a plurality of air inlets 13 which are communicated with the outer surface of the machine body 1 are formed on the negative pressure space 11, the plurality of air inlets 13 are sequentially arranged above the garbage collection space along the left-right direction, and each air inlet 13 is downward air suction; the negative pressure device 33 comprises a dustbin 331 and a fan 332, the dustbin 331 is placed on the machine body 1, a collecting cavity is formed in the dustbin 331 and is used for collecting and storing dust and debris, a collecting port 3311 and a negative pressure port 3312 are formed on the outer surface of the dustbin 331 and are communicated with the collecting cavity, the collecting port 3311 is detachably communicated with an air outlet 12 of the negative pressure space 11 through a pipeline (the pipeline is not shown in the drawing), and a filter screen 3313 is arranged on the negative pressure port 3312 in a covering manner; a blower 332 is mounted on the body 1, and a negative pressure end of the blower 332 is in communication with a negative pressure port 3312 of the dustbin 331 through a pipe (the pipe is not shown in the drawing), and the blower 332 is used for providing a negative pressure environment for the collecting chamber. Through such design, can make dust and debris collect the collection intracavity of storage in dustbin 331, and dustbin 331 detachably and fan 332, air outlet 12 are connected the installation, can conveniently shift the collection to dust and debris.

As shown in fig. 8 and 9, the brush driving assembly 32 includes a brush driving motor 321, a driving transmission member 322 and a driven transmission member 323, wherein the driving transmission member 322 and the driven transmission member 323 are rotatably mounted on the machine body 1, and the rotation axes of the driving transmission member 322 and the driven transmission member 323 are respectively arranged along the left-right direction; the driving transmission member 322 is sequentially formed with a first output gear portion 3221, an input gear portion 3222 and a driving gear portion 3223 along a rotation axis thereof, the first output gear portion 3221, the input gear portion 3222 and the driving gear portion 3223 are all in gear structures, respective central axes of the first output gear portion 3221, the input gear portion 3222 and the driving gear portion 3223 are all arranged in line with the rotation axis of the driving transmission member 322, and the first output gear portion 3221 is in transmission connection with one of the brush rollers 31 through a belt 324; the driven transmission member 323 is sequentially formed with a second output gear portion 3231 and a driven gear portion 3232 along a rotation axis thereof, the second output gear portion 3231 and the driven gear portion 3232 are both in a gear structure, central axes of the second output gear portion 3231 and the driven gear portion 3232 are respectively arranged in line with the rotation axis of the driven transmission member 323, the second output gear portion 3231 is in transmission connection with the other brush roller 31 through a belt 324, and the driven gear portion 3232 is in meshed connection with the driving gear portion 3223; the brush driving motor 321 is mounted on the machine body 1, and an output shaft of the brush driving motor 321 is in transmission connection with the input gear portion 3222. Through the design, the brush driving motor 321 can drive the 2 brush rollers 31 to rotate in opposite rotation directions, so that the use is more convenient.

As shown in fig. 2, 4, 5 and 6, a plurality of dust-blocking brushes 4 are further arranged on the bottom surface of the machine body 1, and the dust-blocking brushes 4 are arranged between the rear brush roller 31 and the laying mechanism 2. This design prevents dust generated during rotation of the brush roller 31 from entering the laying mechanism 2 and contaminating the outer surface of the runway coil 9, thereby affecting the adhesive properties.

As shown in fig. 1 to 5, the laying mechanism 2 includes an unreeling roller 21, an upper guide roller 22, a lower guide roller 23, a front laying roller 24, a rear laying roller 25, and a laying driving motor (the laying driving motor is not shown in the drawings); the unreeling roller 21 is provided with runway coiled materials 9, and two ends of the unreeling roller 21 are respectively and detachably rotatably arranged on the machine body 1; the upper guide roller 22, the lower guide roller 23, the front laying press roller 24 and the rear laying press roller 25 are rotatably arranged on the machine body 1, and the rotation axes of the upper guide roller 22, the lower guide roller 23, the front laying press roller 24, the rear laying press roller 25 and the unreeling roller 21 are arranged along the left-right direction; the rotation axes of the front laying press roller 24 and the rear laying press roller 25 are arranged on a horizontal plane in a front-back mode, and the front laying press roller 24 and the rear laying press roller 25 are arranged close to the ground; the upper guide roller 22, the lower guide roller 23, and the unreeling roller 21 are located between the front laying press roller 24 and the rear laying press roller 25 in the front-rear direction, the upper guide roller 22 is disposed between the unreeling roller 21 and the lower guide roller 23, and the lower guide roller 23 is disposed between the upper guide roller 22 and the front laying press roller 24; the laying driving motor is arranged on the machine body 1 and is used for driving the front laying compression roller 24 and the rear laying compression roller 25 to synchronously rotate. The embodiment also comprises a gluing mechanism 5, wherein the gluing mechanism 5 comprises a first tensioning roller 51, a second tensioning roller 52, a gluing roller 53, a glue spraying assembly 54 and a gluing motor (the gluing motor is not shown in the drawing); the first tensioning roller 51, the second tensioning roller 52 and the rubberizing roller 53 are rotatably arranged on the machine body 1, the rotation axes of the first tensioning roller 51, the second tensioning roller 52 and the rubberizing roller 53 are arranged along the left-right direction, the first tensioning roller 51 is positioned above the lower guide roller 23, the second tensioning roller is positioned at the front side of the first tensioning roller 51, and the rubberizing roller 53 is positioned between the first tensioning roller 51 and the second tensioning roller 52 and is higher than the first tensioning roller 51 and the second tensioning roller 52; the glue spraying assembly 54 is installed on the machine body 1, and the glue spraying assembly 54 is used for spraying glue on the circumferential surface of the upper glue roller 53; the gluing motor is arranged on the machine body 1 and is used for driving the gluing roller 53 to rotate; the runway coiled material 9 is arranged to bypass the upper side of the upper guide roller 22, the lower side of the lower guide roller 23, the upper side of the first tensioning roller 51, the lower side of the upper rubber roller 53, the upper side of the second tensioning roller 52, the front side of the front laying press roller 24 and the lower side of the rear laying press roller 25 in sequence. The runway coiled material 9 can be conveniently glued and paved by the design, and the use is more convenient. By adopting the design of gluing the runway coiled material 9 by the gluing roller 63, the glue on the surface of the runway coiled material 9 which is adhered to the ground is smeared more uniformly, and the adhesive effect of the runway coiled material 9 and the ground is improved.

As shown in fig. 4 and 5, the glue spraying assembly 54 includes a glue storage box 541 and a plurality of glue spray nozzles 542, the glue storage box 541 is mounted on the machine body 1 and higher than the glue feeding roller 53, a liquid storage cavity 5411 is formed in the glue storage box 541, the liquid storage cavity 5411 is used for storing glue, a plurality of liquid outlets communicated with the bottom surface of the glue storage box 541 are formed on the bottom surface of the liquid storage cavity 5411, the plurality of liquid outlets are distributed along the left-right direction, one glue spray nozzle 542 is mounted on the lower orifice of each liquid outlet, and each glue spray nozzle 542 faces the glue feeding roller 53 for spraying. In this embodiment, the liquid outlets are disposed near the rear side of the liquid storage cavity 5411, and the bottom surface of the liquid storage cavity 5411 is an inclined surface that gradually inclines downward from front to back, so that the glue stored in the liquid storage cavity 5411 flows to the liquid outlet and enters the glue sprayer 542.

As shown in fig. 1 to 7, the present embodiment further includes a tensioning automatic adjusting mechanism 6, the tensioning automatic adjusting mechanism 6 includes an adjusting roller 61, 2 shaft seats 62 and 2 elastic members 63, two ends of the adjusting roller 61 are rotatably mounted on the 2 shaft seats 62 respectively, a rotation axis of the adjusting roller 61 is arranged in a left-right direction, and the adjusting roller 61 is located between the second tensioning roller 52 and the front paving roller 24; the 2 shaft seats 62 are respectively and slidably arranged at the left side and the right side of the machine body 1, and the sliding directions of the 2 shaft seats 62 are perpendicular to the planes of the rotation axis of the second tensioning roller 52 and the rotation axis of the front laying compression roller 24; the part of the runway coiled material 9 between the second tensioning roller 52 and the front paving pressing roller 24 is arranged around the front side of the regulating roller 61; an elastic member 63 corresponds to an axle seat 62, one end of the elastic member 63 is connected to the axle seat 62, and the other end of the elastic member 63 is connected to the machine body 1, so that the regulating rollers 61 on the 2 axle seats 62 have a tendency to move toward the direction of the runway coiled material 9. When the travelling speed of the machine body 1 is slightly slower than the rotation speed of the front laying press roller 24, more runway coiled materials 9 can be accumulated between the front laying press roller 24 and the second tensioning roller 52 to reduce the tension degree because the runway coiled materials 9 cannot be output in time, at the moment, the acting force of the runway coiled materials 9 on the regulating rollers 61 is reduced, and the regulating rollers 61 move towards the runway coiled materials 9 under the action of the elastic pieces 63, so that the tension degree of the runway coiled materials 9 is improved, and the stable tension degree of the runway coiled materials 9 is ensured; when the travelling speed of the machine body 1 is slightly faster than the rotation speed of the front laying roller 24, the runway coiled material 9 is tensioned to improve the tension, and the acting force of the runway coiled material 9 on the regulating roller 61 is increased to squeeze the regulating roller and compress the elastic piece 63, so that the travelling path length of the runway coiled material 9 passing through the gap between the second tensioning roller 52 and the front laying roller 24 is reduced, and the stable tension of the runway coiled material 9 is ensured. Through such design for this embodiment can exist the speed differential of certain scope at the walking speed of during operation organism 1 and the rotation speed of preceding shop compression roller 24, makes the walking speed of this embodiment can be matched with the speed of its runway of laying, makes things convenient for the workman to promote the walking to organism 1, and the operation is more convenient.

As shown in fig. 1 and 2, the circumferential surfaces of the upper guide roller 22 and the lower guide roller 23 are respectively provided with a centering texture convex rib. By means of the design, the runway coiled material 9 can be centered when passing through the upper guide roller 22 and the lower guide roller 23, so that runway coiled materials 9 with different width sizes can be applied, and the application range of the embodiment is enlarged.

As shown in fig. 1 to 6, at least 4 sliding rollers 7 are mounted on the body 1, and sliding rollers 8 are mounted on the rear side of the body 1. The design can facilitate the workers to push the machine body 1 to walk, and the use is more convenient.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications, combinations and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the scope of the claims of the present utility model.

Claims

1. The utility model provides a laying device of plastic course which characterized in that: comprises an organism, a laying mechanism and a cleaning mechanism; the paving mechanism is arranged on the machine body and is used for paving the runway; the cleaning mechanism comprises 2 brush rollers, a brush driving assembly and a negative pressure device; the 2 brush rollers are rotatably arranged on the machine body, the 2 brush rollers are arranged on the front side of the laying mechanism along the front-back direction, the rotation axes of the 2 brush rollers are arranged along the left-right direction, a garbage collection space is formed between the 2 brush rollers, the lower side of the circumferential surface of each brush roller is contacted with the ground, and the rotation direction of the lower part of each brush roller is arranged towards the direction of the garbage collection space; the negative pressure device is arranged on the machine body and is used for sucking dust and fragments in the garbage collection space; the brush driving assembly is arranged on the machine body and is used for driving 2 brush rollers to rotate.

2. A plastic course laying device as claimed in claim 1, characterized in that: a negative pressure space is formed in the machine body, an air outlet and a plurality of air suction ports which are communicated with the outer surface of the machine body are formed in the negative pressure space, the air suction ports are sequentially distributed above the garbage collection space along the left-right direction, and each air suction port is arranged for downward air suction; the negative pressure device comprises a dustbin and a fan, the dustbin is placed on the machine body, a collecting cavity is formed in the dustbin and used for collecting and storing dust and fragments, a collecting port and a negative pressure port are formed on the outer surface of the dustbin and communicated with the collecting cavity, the collecting port is detachably communicated with an air outlet of a negative pressure space through a pipeline, and a filter screen is arranged on the negative pressure port in a covering mode; the fan is installed on the organism, and the negative pressure end of fan communicates with the negative pressure mouth of dustbin through the pipeline, and the fan is used for providing negative pressure environment for collecting the chamber.

3. A plastic course laying device as claimed in claim 1, characterized in that: the brush driving assembly comprises a brush driving motor, a driving transmission piece and a driven transmission piece, wherein the driving transmission piece and the driven transmission piece are rotatably arranged on the machine body, and the respective rotation axes of the driving transmission piece and the driven transmission piece are arranged along the left-right direction; the driving transmission member is sequentially provided with a first output gear part, an input gear part and a driving gear part along the rotation axis of the driving transmission member, the first output gear part, the input gear part and the driving gear part are of gear structures, the central axes of the first output gear part, the input gear part and the driving gear part are respectively arranged in line with the rotation axis of the driving transmission member, and the first output gear part is in transmission connection with one of the brush rollers through a belt; the driven transmission member is sequentially provided with a second output gear part and a driven gear part along the rotation axis of the driven transmission member, the second output gear part and the driven gear part are of gear structures, the respective central axes of the second output gear part and the driven gear part are arranged in line with the rotation axis of the driven transmission member, the second output gear part is in transmission connection with the other brush roller through a belt, and the driven gear part is in meshed connection with the driving gear part; the brush driving motor is arranged on the machine body, and an output shaft of the brush driving motor is in transmission connection with the input gear part.

4. A plastic course laying device as claimed in claim 1, characterized in that: a plurality of dust-blocking brushes are also arranged on the bottom surface of the machine body, and are arranged between the brush roller and the paving mechanism.

5. A plastic course laying device as claimed in claim 1, characterized in that: the laying mechanism comprises an unreeling roller, an upper guide roller, a lower guide roller, a front laying press roller, a rear laying press roller and a laying driving motor; the unreeling roller is provided with runway coiled materials, and two ends of the unreeling roller are respectively and detachably rotatably arranged on the machine body; the upper guide roller, the lower guide roller, the front laying press roller, the rear laying press roller are rotatably arranged on the machine body, and the rotating axes of the upper guide roller, the lower guide roller, the front laying press roller, the rear laying press roller and the unreeling roller are arranged along the left-right direction; the rotation axes of the front paving press roller and the rear paving press roller are arranged on a horizontal plane in a front-back mode, and the front paving press roller and the rear paving press roller are arranged close to the ground; the upper guide roller, the lower guide roller and the unreeling roller are positioned between the front laying press roller and the rear laying press roller in the front-rear direction, the upper guide roller is arranged between the unreeling roller and the lower guide roller, and the lower guide roller is arranged between the upper guide roller and the front laying press roller; the laying driving motor is arranged on the machine body and used for driving the front laying pressing roller and the rear laying pressing roller to synchronously rotate; the runway coiled material sequentially bypasses the upper side of the upper guide roller, the lower side of the lower guide roller, the front side of the front paving compression roller and the lower side of the rear paving compression roller.

6. A plastic course laying device according to claim 5, characterized in that: the glue applying mechanism comprises a first tensioning roller, a second tensioning roller, a glue applying roller, a glue spraying assembly and a glue applying motor; the first tensioning roller, the second tensioning roller and the rubberizing roller are rotatably arranged on the machine body, the rotation axes of the first tensioning roller, the second tensioning roller and the rubberizing roller are arranged in the left-right direction, the first tensioning roller is positioned above the lower guide roller, the second tensioning roller is positioned at the front side of the first tensioning roller, and the rubberizing roller is positioned between the first tensioning roller and the second tensioning roller and is higher than the first tensioning roller and the second tensioning roller; the glue spraying assembly is arranged on the machine body and is used for spraying glue on the circumferential surface of the upper glue roller; the gluing motor is arranged on the machine body and is used for driving the gluing roller to rotate; the runway coiled material is arranged by sequentially bypassing the upper side of the upper guide roller, the lower side of the lower guide roller, the upper side of the first tensioning roller, the lower side of the upper rubber roller, the upper side of the second tensioning roller, the front side of the front paving press roller and the lower side of the rear paving press roller.

7. A plastic course laying device according to claim 6, characterized in that: the glue spraying assembly comprises a glue storage box and a plurality of glue spray heads, the glue storage box is arranged on the machine body and higher than the glue feeding roller, a liquid storage cavity is formed in the glue storage box and used for storing glue, a plurality of liquid outlets communicated with the bottom surface of the glue storage box are formed in the bottom surface of the liquid storage cavity, the liquid outlets are distributed along the left-right direction, the glue spray heads are arranged on the lower orifices of the liquid outlets, and all the glue spray heads face the glue feeding roller.

8. A plastic course laying device according to claim 6, characterized in that: the automatic tensioning and adjusting mechanism comprises an adjusting roller, 2 shaft seats and 2 elastic pieces, two ends of the adjusting roller are respectively and rotatably arranged on the 2 shaft seats, the rotation axis of the adjusting roller is arranged along the left-right direction, and the adjusting roller is positioned between the second tensioning roller and the front paving pressing roller; the 2 shaft seats are respectively and slidably arranged at the left side and the right side of the machine body, and the sliding direction of the 2 shaft seats is perpendicular to the planes of the rotation axis of the second tensioning roller and the rotation axis of the front spreading press roller; the part of the runway coiled material between the second tensioning roller and the front paving roller is arranged around the front side of the adjusting roller way; an elastic piece corresponds to an axle seat, one end of the elastic piece is connected with the axle seat, and the other end of the elastic piece is connected with the machine body, so that the regulating rollers on the 2 axle seats have a tendency to move towards the direction of the runway coiled material.

9. A plastic course laying device according to claim 5, characterized in that: and the circumferential surfaces of the upper guide roller and the lower guide roller are respectively provided with a centering texture convex rib.

10. A plastic course laying device as claimed in claim 1, characterized in that: at least 4 sliding rollers are arranged on the machine body, and a pushing handle is arranged on the rear side of the machine body.