CN117051649A - Asphalt road dedusting, paving and leveling integrated machine and construction method - Google Patents

Abstract

The application relates to the technical field of automatic road construction equipment, in particular to an integrated dust removing, paving and leveling machine for asphalt roads and a construction method, wherein a trailer is connected with a tractor, and a dust collecting device, a glass fiber grating paving device, a leveling mechanism, an asphalt mixture outflow device and a leveling device are sequentially arranged on the trailer. The beneficial effects of the application are as follows: the device can finish the work of road dust removal, glass fiber grating paving, asphalt mixture paving and asphalt mixture leveling in one-time travelling process, saves a great amount of working procedures, improves the efficiency and reduces the labor cost.

Description

Asphalt road dedusting, paving and leveling integrated machine and construction method

Technical Field

The application relates to the technical field of automatic road construction equipment, in particular to a dust removal, paving and leveling integrated machine for an asphalt road and a construction method.

Background

The existing asphalt pavement paving flow is as follows: firstly, the basal plane needs to be cleaned before construction to ensure clean water accumulation, then a glass fiber grating is paved to prevent the later-stage pavement from cracking, then asphalt mixture is paved by clamping, and finally, equipment such as a road roller compactor and the like is used for leveling and compacting.

Therefore, the existing asphalt pavement needs to be paved in a multi-party coordination mode, the whole process is long, a large amount of labor is consumed, and the efficiency is low and the cost is high.

Therefore, the application designs an asphalt road dust removal, paving and leveling integrated machine and a construction method thereof, so as to solve the problems.

Disclosure of Invention

The application provides a dust removing, paving and leveling integrated machine for an asphalt road and a construction method thereof, which aim to overcome the defects of long asphalt pavement paving flow, low efficiency and high labor cost in the prior art.

The application is realized by the following technical scheme:

the utility model provides an asphalt road dust removal is laid and is leveled all-in-one, includes the trailer, the trailer is connected behind the tractor, has set gradually dust extraction, glass fiber grille laying device, mechanism, asphalt mixture outflow device and the leveling device on the trailer, and the trailer is walked forward once and can be accomplished dust removal, glass fiber grille and laid, asphalt mixture paves and leveling work.

Further, in order to better realize the application, the trailer comprises a trailer hook connected with a tractor and a flat bottom plate, and the dust collection device, the glass fiber grating laying device, the flattening mechanism, the asphalt mixture outflow device and the flattening device are all arranged at the bottom plate.

Further, in order to better realize the application, the dust collection device comprises a dust collection bin arranged above the bottom plate, and the dust collection bin is communicated with a plurality of dust collection openings arranged on the bottom plate below the dust collection bin.

Further, in order to better realize the application, the glass fiber grid laying device comprises a door-shaped enclosure arranged above a bottom plate, a supporting plate is detachably connected to an opening of the enclosure, a bearing is arranged at the center of the supporting plate, a coupler with a driving motor is arranged at one end of the enclosure opposite to the supporting plate, the supporting plate is fixedly connected to the enclosure through a baffle pin, a notch is formed in the front end of one side of the enclosure where the servo motor is arranged and is used as an operation opening, the supporting plate and the enclosure are rotatably provided with a glass fiber grid roll, and a rectangular notch is formed in the bottom plate of the glass fiber grid laying device and is used as a glass fiber grid lowering opening.

Further, in order to better realize the application, a groove is formed in the center above the bottom plate of the glass fiber grating laying device and is used as a hiding groove, a linear sliding table is arranged in the hiding groove, a first lifting rod is fixed on a sliding block of the linear sliding table, and the top of the first lifting rod is fixedly connected with a supporting plate.

Further, in order to better realize the application, the rear part of the glass fiber grille lowering opening is provided with a flattening mechanism, the flattening mechanism comprises a plurality of second lifting rods which are vertically connected below the bottom plate side by side, and the bottom of each second lifting rod is provided with a ball.

Further, in order to better realize the application, the asphalt mixture outflow device comprises an asphalt mixture storage bin arranged on a bottom plate, an electric cylinder is arranged at the forefront end of the bottom of the asphalt mixture storage bin, an asphalt mixture outflow opening is arranged on the bottom plate behind the electric cylinder, a gate is arranged on the asphalt mixture outflow opening, the gate controls the opening degree of the asphalt mixture outflow opening through the driving of the electric cylinder, an inclined plate is attached to the bottom plate behind the asphalt mixture outflow opening, and the lower point of the inclined plate is positioned at the asphalt mixture outflow opening.

Further, in order to better realize the application, the leveling device comprises lifting frames arranged at two sides of the bottom of the asphalt mixture outflow device, and compression rollers are arranged on the lifting frames.

Based on the equipment, the construction method comprises the following steps:

s1, in the preparation stage, connecting a trailer with a tractor, adjusting a lifting frame and a second lifting rod to required positions, then filling heated asphalt mixture into an asphalt mixture storage bin, and conveying a glass fiber grating roll into a glass fiber grating laying device by using a crane, and installing and fixing;

s2, the tractor moves forward at a constant speed on a road where asphalt mixture is required to be paved, the dust collection device sucks accumulated dust passing through the road surface, the servo motor drives the glass fiber grating roll to rotate and lays the glass fiber grating on the road, and the flattening mechanism flattens the glass fiber grating;

s3, controlling the opening degree of an asphalt mixture outflow opening by the action of an electric cylinder, and enabling the asphalt mixture to flow onto a glass fiber grating;

s4, flattening the asphalt mixture by using a compression roller.

Further, in order to better realize the application, in the step S2, the crane rolls the glass fiber grating on the supporting plate, the rotating shaft of the glass fiber grating roll is connected to the shaft coupling through the movement of the first lifting rod and the linear sliding table, then the supporting plate is buckled on the enclosing board, the supporting plate is lowered into the hiding groove, and the servo motor can drive the glass fiber grating roll to rotate; the constructor stands on two sides of the glass fiber grating laying device, and extends hands from the supporting plate and the operation opening respectively to enable the head end of the glass fiber grating roll to enter the glass fiber grating lowering opening downwards.

The beneficial effects of the application are as follows:

the device can finish the work of road dust removal, glass fiber grating paving, asphalt mixture paving and asphalt mixture leveling in one-time travelling process, saves a great amount of working procedures, improves the efficiency and reduces the labor cost.

Drawings

FIG. 1 is a schematic perspective view of one embodiment of the present application;

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

FIG. 3 is a schematic view of a bottom perspective structure of the present application;

FIG. 4 is a longitudinal cross-sectional view of the present application;

FIG. 5 is a partial schematic view of a fiberglass grill placement apparatus of the present application;

FIG. 6 is a partial schematic view of a fiberglass grill placement apparatus and asphalt mixture outflow of the present application;

fig. 7 is a schematic view of the fiberglass grill of the present application after being rolled.

In the drawing the view of the figure,

1. the device comprises a trailer, 2, a dust collection device, 3, a glass fiber grating paving device, 4, an asphalt mixture outflow device, 5, a leveling device, 6, a leveling mechanism, 7, a glass fiber grating roll, 101, a bottom plate, 102, a trailer hook, 201, a dust collection port, 202, a dust collection bin, 301, a surrounding baffle, 302, a supporting plate, 303, a baffle pin, 304, a hidden groove, 305, a linear sliding table, 306, a first lifting rod, 307, a supporting plate, 308, an operation port, 309, a glass fiber grating lowering port, 401, an asphalt mixture storage bin, 402, an electric cylinder, 403, an asphalt mixture outflow port, 404, a sloping plate, 501, a lifting frame, 502, a pressing roller, 601, a second lifting rod, 602, a ball, 701, a glass fiber grating, 702 and a rotating shaft.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the application, as presented in the figures, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present application.

Fig. 1 to 7 are specific embodiments of the present application, which are an integrated machine for dedusting, paving and leveling asphalt roads, as shown in fig. 1, a dust collection device 2, a glass fiber grating paving device 3, a leveling mechanism 6, an asphalt mixture outflow device 4 and a leveling device 5 are sequentially arranged on the scooter 1 after the scooter 1 is connected to a tractor, and the scooter 1 can complete the dedusting, glass fiber grating paving, asphalt mixture paving and leveling operations after traveling forward once.

As shown in fig. 2, the trailer 1 comprises a trailer hook 102 and a straight bottom plate 101 which are connected with a tractor, and a dust collection device 2, a glass fiber grating laying device 3, a flattening mechanism 6, an asphalt mixture outflow device 4 and a flattening device 5 are all arranged at the bottom plate 101.

As shown in fig. 3, the dust collection device 2 comprises a dust collection bin 202 arranged above the base plate 101, and the dust collection bin 202 is communicated with a plurality of dust collection openings 201 formed in the base plate 101 arranged below the dust collection bin 202.

As shown in fig. 5 and 6, the glass fiber grid laying device 3 includes a door-shaped enclosure 301 disposed above the bottom plate 101, a support plate 302 is detachably connected to an opening of the enclosure 301, a bearing is disposed at a center of the support plate 302, a coupling with a driving motor is disposed at one end of the enclosure 301 opposite to the support plate 302, the support plate 302 is fixedly connected to the enclosure 301 through a baffle pin 303, a notch is opened at a front end of one side of the enclosure 301 where the servo motor is mounted as an operation port 308, the support plate 302 and the enclosure 301 are rotatably mounted with a glass fiber grid roll 7, a rectangular notch is opened on the bottom plate 101 at the glass fiber grid laying device 3 as a glass fiber grid lowering port 309, the glass fiber grid lowering port 309 can be disposed at a front end or a rear end, if the purchased glass fiber grid 701 has too high hardness, a head end of the glass fiber grid 701 which has just been separated from a rolled state may be lifted on the ground, so that the glass fiber grid lowering port 309 is disposed at a rear end of the enclosure 301 can make a part of the fiber grid warp, which has been tilted down, and if the glass fiber grid is lower than the glass fiber grid 701 is disposed at the front end 602. A groove is formed in the center above the bottom plate 101 at the position of the glass fiber grating laying device 3 and used as a hiding groove 304, a linear sliding table 305 is installed in the hiding groove 304, a first lifting rod 306 is fixed on a sliding block of the linear sliding table 305, and a supporting plate 307 is fixedly connected to the top of the first lifting rod 306.

As shown in fig. 2, a flattening mechanism 6 is arranged behind the glass fiber grating lowering opening 309, and the flattening mechanism 6 includes a plurality of second lifting rods 601 vertically connected side by side below the bottom plate 101, and balls 602 are mounted at the bottom of the second lifting rods 601. When a fiberglass grid may bulge or wrinkle during the laying process, the probability of this occurrence is reduced by flattening the balls 602.

As shown in fig. 4 and 6, the asphalt mixture outflow device 4 comprises an asphalt mixture storage bin 401 mounted on a base plate 101, an electric cylinder 402 is arranged at the forefront end of the bottom of the asphalt mixture storage bin 401, an asphalt mixture outflow port 403 is arranged on the base plate 101 behind the electric cylinder 402, a gate is arranged on the asphalt mixture outflow port 403, the gate is driven by the electric cylinder 402 to control the opening degree of the asphalt mixture outflow port 403, an inclined plate 404 is attached to the base plate 101 behind the asphalt mixture outflow port 403, and the lower point of the inclined plate 404 is positioned at the asphalt mixture outflow port 403.

As shown in fig. 3, the leveling device 5 includes a lifter 501 provided at both sides of the bottom of the asphalt mixture outflow device 4, and a pressing roller 502 is installed on the lifter 501. When asphalt pavement with different thickness is required to be paved, the height of the lifting frame 501 and the opening degree of the asphalt mixture outflow opening 403 can be adjusted.

Based on the integrated machine, the construction method comprises the following steps:

s1, in the preparation stage, connecting a trailer 1 with a tractor, adjusting a lifting frame 501 and a second lifting rod 601 to a required position, then filling a heated asphalt mixture into an asphalt mixture storage bin 401, and conveying a glass fiber grating roll 7 into a glass fiber grating laying device 3 by using a crane, and installing and fixing;

s2, the tractor moves forward at a constant speed on a road where asphalt mixture is required to be paved, the dust collection device 2 sucks accumulated dust passing through the road surface, the servo motor drives the glass fiber grating roll 7 to rotate and paves the glass fiber grating 701 on the road, and the flattening mechanism 6 flattens the glass fiber grating 701; the crane places the glass fiber grating roll 7 on the supporting plate 307, the rotating shaft 702 of the glass fiber grating roll 7 is connected to the coupler through the movement of the first lifting rod 306 and the linear sliding table 305, then the supporting plate 302 is buckled on the enclosure 301, the supporting plate 307 is lowered into the hidden groove 304, and the servo motor can drive the glass fiber grating roll 7 to rotate; the constructor stands on both sides of the fiberglass grating laying device 3, and respectively stretches hands from the supporting plate 302 and the operating opening 308 to downwards feed the head end of the fiberglass grating 701 of the fiberglass grating roll 7 into the fiberglass grating lowering opening 309.

S3, the electric cylinder 402 acts to control the opening degree of the asphalt mixture outflow opening 403, and the asphalt mixture flows onto the glass fiber grating 701;

s4, flattening the asphalt mixture by the compression roller 502.

If the glass fiber grid roll 7 cannot be smoothly laid on the road surface in the initial stage, a constructor needs to manually deliver the glass fiber grid 701 to the glass fiber grid lowering opening 309 in the previous vehicle running until the end part of the glass fiber grid 701 is extruded by the balls 602, so that the glass fiber grid roll 7 can be manually lowered, and in order to better realize the function, the balls 602 can be replaced by rollers with driving motors.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present application, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present application without departing from the spirit and scope of the technical solution of the present application.

Claims (10)

1. The utility model provides an asphalt road dust removal lays and levels all-in-one, includes trailer (1), its characterized in that:

the dust collector is characterized in that the trailer (1) is connected to the rear of the tractor, the dust collector (2), the glass fiber grating paving device (3), the flattening mechanism (6), the asphalt mixture outflow device (4) and the flattening device (5) are sequentially arranged on the trailer (1), and the trailer (1) can move forward once to finish the dust removal, the glass fiber grating paving, the asphalt mixture paving and the flattening.

2. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 1, wherein:

the scooter (1) comprises a trailer hook (102) connected with a tractor and a flat bottom plate (101), and a dust collection device (2), a glass fiber grating laying device (3), a flattening mechanism (6), an asphalt mixture outflow device (4) and a flattening device (5) are all arranged at the bottom plate (101).

3. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 1, wherein:

the dust collection device (2) comprises a dust collection bin (202) arranged above the bottom plate (101), and the dust collection bin (202) is communicated with a plurality of dust collection openings (201) formed in the bottom plate (101) arranged below the dust collection bin.

4. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 1, wherein:

the glass fiber grating laying device (3) comprises a door-shaped enclosing block (301) arranged above a bottom plate (101), a supporting plate (302) is detachably connected to an opening of the enclosing block (301), a bearing is arranged at the center of the supporting plate (302), a coupler with a driving motor is arranged at one end of the enclosing block (301) opposite to the supporting plate (302), the supporting plate (302) is fixedly connected to the enclosing block (301) through a blocking pin (303), a notch serving as an operation port (308) is formed in the front end of one side of the enclosing block (301) where the servo motor is arranged, a glass fiber grating roll (7) is rotatably arranged between the supporting plate (302) and the enclosing block (301), and a rectangular notch serving as a glass fiber grating laying port (309) is formed in the bottom plate (101) of the glass fiber grating laying device (3).

5. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 4, wherein:

a groove serving as a hiding groove (304) is formed in the center above a bottom plate (101) at the position of the glass fiber grating laying device (3), a linear sliding table (305) is installed in the hiding groove (304), a first lifting rod (306) is fixed on a sliding block of the linear sliding table (305), and a supporting plate (307) is fixedly connected to the top of the first lifting rod (306).

6. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 4, wherein:

the rear of glass fiber grid opening (309) is provided with flattening mechanism (6), and flattening mechanism (6) are including a plurality of second lifter (601) of connecting perpendicularly below bottom plate (101) side by side, and ball (602) are installed to the bottom of second lifter (601).

7. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 1, wherein:

the asphalt mixture outflow device (4) comprises an asphalt mixture storage bin (401) arranged on a bottom plate (101), an electric cylinder (402) is arranged at the forefront end of the bottom of the asphalt mixture storage bin (401), an asphalt mixture outflow opening (403) is formed in the bottom plate (101) behind the electric cylinder (402), a gate is arranged on the asphalt mixture outflow opening (403), the gate is driven by the electric cylinder (402) to control the opening degree of the asphalt mixture outflow opening (403), an inclined plate (404) is attached to the bottom plate (101) behind the asphalt mixture outflow opening (403), and the lower point of the inclined plate (404) is located at the asphalt mixture outflow opening (403).

8. The asphalt road dedusting, paving and leveling integrated machine as set forth in claim 1, wherein:

the leveling device (5) comprises lifting frames (501) arranged on two sides of the bottom of the asphalt mixture outflow device (4), and compression rollers (502) are arranged on the lifting frames (501).

9. A construction method for dust removal, paving and leveling of an asphalt road, which is characterized by comprising the following steps of:

s1, in the preparation stage, connecting a trailer (1) with a tractor, adjusting a lifting frame (501) and a second lifting rod (601) to required positions, then filling a heated asphalt mixture into an asphalt mixture storage bin (401), and conveying a glass fiber grating roll (7) into a glass fiber grating laying device (3) by using a crane, and installing and fixing;

s2, a tractor moves forward at a constant speed on a road where asphalt mixture is required to be paved, a dust collection device (2) sucks accumulated dust passing through the road surface, a servo motor drives a glass fiber grating roll (7) to rotate and lays a glass fiber grating (701) on the road, and a flattening mechanism (6) flattens the glass fiber grating (701);

s3, an electric cylinder (402) acts to control the opening degree of an asphalt mixture outflow opening (403), and asphalt mixture flows onto a glass fiber grating (701);

s4, flattening the asphalt mixture by using a press roller (502).

10. The construction method for dust removal and paving leveling of asphalt roads according to claim 9, wherein:

in the S2, a crane places a glass fiber grating roll (7) on a supporting plate (307), a rotating shaft (702) of the glass fiber grating roll (7) is connected to a coupler through the movement of a first lifting rod (306) and a linear sliding table (305), then a supporting plate (302) is buckled on a surrounding block (301), the supporting plate (307) is lowered into a hidden groove (304), and a servo motor can drive the glass fiber grating roll (7) to rotate; the constructors stand on two sides of the glass fiber grating laying device (3) and respectively extend hands from the supporting plate (302) and the operating opening (308) to downwards feed the head end of the glass fiber grating (701) of the glass fiber grating roll (7) into the glass fiber grating lowering opening (309).