CN115976910A - Road roller cleaning device with all-round gyro wheel clearance is used - Google Patents

Abstract

The invention discloses a road roller cleaning device with an omnibearing roller cleaning function, and relates to the technical field of road roller cleaning.

Description

Road roller cleaning device with all-round gyro wheel clearance is used

Technical Field

The invention relates to the technical field of road roller cleaning, in particular to a road roller cleaning device with an all-dimensional roller.

Background

The road roller is also called soil compactor, which is a road repairing equipment. The road roller belongs to the field of road equipment in engineering machinery, is widely used for the filling compaction operation of large engineering projects such as high-grade highways, railways, airport runways, dams, stadiums and the like, can roll sandy, semi-viscous and viscous soil, roadbed stabilizing soil and asphalt concrete pavement layers, and can be divided into single wheels, double wheels and quincunx wheels.

The roller of the existing road roller can be compacted by the asphalt concrete pavement layer when the compaction operation of the asphalt concrete pavement layer is carried out, but the roller of the road roller can be adhered with a large amount of asphalt mixture on the surface of the roller when the compaction operation of the asphalt concrete pavement layer is carried out, the traditional method adopts a manual shoveling mode, thereby wasting time and labor, only cleaning one side of the roller, not carrying out all-dimensional cleaning, and simultaneously not carrying out survey measurement on the surface evenness of the roller all the time, thereby reducing the compaction speed of the asphalt concrete pavement layer of the road roller, and simultaneously possibly leading the asphalt mixture on the surface of the roller not to be completely cleaned, and simultaneously also influencing the compaction quality of the asphalt concrete pavement layer, namely reducing the working efficiency and reducing the use efficiency of the road roller.

Accordingly, it is desirable to provide a new road roller cleaning apparatus with an all-directional roller cleaning arrangement to address the problems set forth above.

Disclosure of Invention

The invention aims to provide a road roller cleaning device with an all-dimensional roller for cleaning, which aims to solve the problems that the cleaning of a single surface of a roller body of a road roller cannot be carried out all-dimensional, the survey measurement of the surface flatness of the roller cannot be carried out at the same time, the compaction speed of an asphalt concrete pavement layer of the road roller is reduced, the compaction quality of the asphalt concrete pavement layer is influenced, the working efficiency is reduced, and the use efficiency of the road roller is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a road roller cleaning device with all-dimensional roller cleaning function comprises a roller frame, wherein a cleaning mechanism is arranged at the top of the roller frame;

the cleaning mechanism comprises a concave block, two T-shaped plates and two T-shaped holes, rectangular columns are fixed to four corners of the bottom of the concave block, a sealing gasket is arranged at the top of the concave block, a rectangular plate is connected to the top of the sealing gasket in a bonding mode, a plurality of heat dissipation holes are formed in the top of the rectangular plate in an equidistant mode, a mounting hole is formed in the top of the rectangular plate, a multi-groove heat insulation shell is arranged inside the concave block, a three-way pipe is fixedly arranged on two sides of one groove inner wall of the multi-groove heat insulation shell in a penetrating mode, a water pump is arranged at the bottom of one groove inner wall of the multi-groove heat insulation shell, a storage battery is arranged inside the other groove of the multi-groove heat insulation shell, a connecting liquid outlet pipe is fixedly arranged at the bottom of the concave block in a penetrating mode, two mounting seats are fixed between the insides of the mounting seats, an atomizing nozzle is arranged at each outlet of the diverter, two long plate hard brushes are arranged on the opposite side of the T-shaped plate, each long plate hard brush is provided with an L-shaped hard brush, a control switch is arranged inside the mounting hole, a surface of the concave block is fixed with L-shaped plates, two U-shaped plates is arranged on two sides of the U-shaped plate, and a laser profile instrument is arranged between the U-shaped plate.

Preferably, the bottom of the multi-groove heat insulation shell is contacted with the bottom of the sealing gasket, two input ends of the three-way pipe respectively extend to the insides of the two middle grooves of the multi-groove heat insulation shell, and the two input ends of the two three-way pipes are respectively close to the bottoms of the two middle grooves of the multi-groove heat insulation shell.

Preferably, the output end of the three-way pipe is connected with the output end of the water pump, the input end of the liquid outlet pipe movably penetrates through the bottom of the multi-groove heat insulation shell, the input end of the liquid outlet pipe is connected with the output end of the water pump, and the input end of the flow divider is connected with the output end of the liquid outlet pipe.

Preferably, the storage battery is electrically connected with the control switch, the control switch is electrically connected with the water pump, the four rectangular columns are all installed at the top of the roller frame through first bolts, the two T-shaped holes are respectively formed in the top of the roller frame, and the two T-shaped plates are all installed inside the two T-shaped holes through second bolts.

Preferably, the gyro wheel body is connected with in the rotation between the inner wall both sides of gyro wheel frame, every the brush hair of long slab scrubbing brush and the brush hair of every L type scrubbing brush all contact with the surface of gyro wheel body, the top of gyro wheel frame is provided with monitoring mechanism, monitoring mechanism includes the rectangular block, the bottom of rectangular block is fixed mutually with the top of rectangular plate.

Preferably, two symmetrical mounting grooves are seted up at the top of rectangular block, and two mounting grooves are linked together, one of them the internally mounted of mounting groove has the controller, another the internally mounted of mounting groove has bee calling organ, controller and battery electric connection, controller and bee calling organ electric connection, level sensor is installed to the bottom of rectangular plate, level sensor's sense terminal activity runs through the top of sealed pad.

Preferably, the inner wall bottom position of a recess in the middle of liquid level sensor's sense terminal bottom is close to the multislot thermal-insulated shell, liquid level sensor and controller electric connection, the inner wall bottom equidistance of a recess in the middle of the multislot thermal-insulated shell distributes and is fixed with a plurality of gag lever posts, liquid level sensor's sense terminal is in between the surface of a plurality of gag lever posts.

Preferably, two middle groove inner walls of the multi-groove heat insulation shell are fixedly provided with arc transparent pipes in a penetrating mode, two input ends of the arc transparent pipes are movably arranged on the outer wall of the concave block in a penetrating mode, the dustproof net is installed at the output ends of the arc transparent pipes, the hollow block is installed at the top of the rectangular block, a first filter screen is installed inside the hollow block, and the threading holes are formed in the inner wall of the installation groove.

Preferably, the fixed two pipes that run through in top of rectangular plate, two the equal activity of output of pipe runs through the top of sealed pad, two the tube cap is all installed to the input of pipe, the second filter screen is installed at the top of rectangular plate.

Preferably, two symmetrical U-shaped frames are fixed at the top of the rectangular plate, two symmetrical connecting frames are fixed on the front surface of the roller frame, a gas gathering shell is installed on the outer surface of each atomizing nozzle, and a shell cover is installed at an outlet of each gas gathering shell.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention can clean the asphalt mixture adhered on the surface of the roller body in all directions by arranging the cleaning mechanism, can spray a layer of asphalt separant liquid on the surface of the roller body, can effectively reduce the amount of the asphalt mixture adhered on the asphalt concrete pavement layer to the surface of the roller body, realizes indirect cleaning of the asphalt mixture adhered on the surface of the roller body, simultaneously effectively reduces the damage speed of the long-plate scrubbing brush and the L-shaped scrubbing brush, namely prolongs the service life of the roller body, can also carry out flatness survey and measurement on the surface of the roller body, leads a worker to constantly observe the flatness of the surface of the roller body so as to ensure the compaction quality of the asphalt concrete pavement layer, can carry out heat insulation protection on the water pump and the storage battery under the action of the porous heat insulation shell, namely protects the normal use of the water pump, can guide the asphalt separant liquid guided from the liquid outlet pipe to the inside of each atomizing nozzle under the action of the flow divider, and can release the asphalt mixture adhered on the surface of the roller body under the action of the flow divider to control whether the water pump is started up and control the multi-insulation liquid inside the multi-tank under the action of the control switch.

2. The invention can constantly monitor the liquid level of the liquid in the multi-groove heat insulation shell by arranging the monitoring mechanism, namely effectively prevent the water pump from being sucked dry to cause severe dry grinding and heating in the water pump, thereby burning the water pump, effectively prolonging the service life of the water pump, and visually observing the amount of the liquid in the multi-groove heat insulation shell under the action of the arc transparent pipe.

Drawings

FIG. 1 is a perspective view of a road roller cleaning apparatus having an omni-directional roller cleaning arrangement in accordance with the present invention;

FIG. 2 is a top perspective view of a road roller cleaning apparatus with an omni-directional roller cleaning according to the present invention;

FIG. 3 is a schematic perspective view of a gasket, a rectangular plate, heat dissipation holes, mounting holes and a circular tube of the road roller cleaning device with omni-directional roller cleaning of the present invention;

FIG. 4 is a partial perspective view of a road roller cleaning apparatus with omni-directional roller cleaning in accordance with the present invention;

FIG. 5 is a schematic perspective view of a diverter, an atomizer, a gas gathering housing and a housing cover of a road roller cleaning apparatus for omni-directional roller cleaning in accordance with the present invention;

FIG. 6 is a schematic perspective view of a T-shaped panel, a long panel bristle brush, and an L-shaped bristle brush of a road roller cleaning device for omni-directional roller cleaning in accordance with the present invention;

FIG. 7 is an enlarged perspective view taken at A of FIG. 4 of a road roller cleaning apparatus for omni-directional roller cleaning in accordance with the present invention;

FIG. 8 is a perspective view of a portion of a monitoring mechanism for a road roller cleaning apparatus having an omni-directional roller cleaning arrangement in accordance with the present invention.

In the figure: 1. a roller frame; 2. a roller body;

3. a cleaning mechanism; 301. a concave block; 302. a rectangular column; 303. a gasket; 304. a rectangular plate; 305. heat dissipation holes; 306. mounting holes; 307. a multi-cell heat insulating shell; 308. a three-way pipe; 309. a water pump; 310. a storage battery; 311. a liquid outlet pipe; 312. a mounting base; 313. a flow divider; 314. an atomizing spray head; 315. a T-shaped plate; 316. a long board scrubbing brush; 317. an L-shaped bristle brush; 318. a T-shaped hole; 319. a control switch; 320. an L-shaped plate; 321. a U-shaped plate; 322. a laser profiler;

4. a monitoring mechanism; 401. a rectangular block; 402. mounting grooves; 403. a controller; 404. a buzzer; 405. a liquid level sensor; 406. a limiting rod; 407. an arc-shaped transparent tube; 408. a dust screen; 409. a hollow block; 410. a first filter screen; 411. threading holes;

5. a circular tube; 6. a tube cover; 7. a second filter screen; 8. a U-shaped frame; 9. a connecting frame; 10. a gas gathering shell; 11. and a shell cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a road roller cleaning device with all-dimensional roller cleaning function comprises a roller frame 1, wherein a cleaning mechanism 3 is arranged at the top of the roller frame 1;

the cleaning mechanism 3 comprises a concave block 301, two T-shaped plates 315 and two T-shaped holes 318, rectangular columns 302 are fixed at four corners of the bottom of the concave block 301, a sealing gasket 303 is arranged at the top of the concave block 301, a rectangular plate 304 is connected to the top of the sealing gasket 303 in an adhesive manner, a plurality of heat dissipation holes 305 are formed in the top of the rectangular plate 304 in an equidistant distribution manner, mounting holes 306 are formed in the top of the rectangular plate 304, a multi-groove heat insulation shell 307 is arranged inside the concave block 301, a three-way pipe 308 is fixedly penetrated through two sides of one groove inner wall of the multi-groove heat insulation shell 307, a water pump 309 is installed at the bottom of one groove inner wall of the multi-groove heat insulation shell 307, a storage battery 310 is arranged inside the other groove of the multi-groove heat insulation shell 307, the bottom of the concave block 301 is fixedly provided with a connecting liquid outlet pipe 311 in a penetrating manner, the bottom of the concave block 301 is provided with two mounting seats 312, a flow divider 313 is fixed between the insides of the two mounting seats 312, each outlet of the flow divider 313 is provided with an atomizing spray head 314, two long-plate scrubbing brushes 316 are arranged on the opposite surfaces of the two T-shaped plates 315, L-shaped scrubbing brushes 317 are arranged at the two ends of each long-plate scrubbing brush 316, a control switch 319 is arranged inside the mounting hole 306, an L-shaped plate 320 is fixed on the front surface of the concave block 301, a U-shaped plate 321 is arranged between the two sides of the L-shaped plate 320, and a laser profile instrument 322 is arranged inside the U-shaped plate 321.

According to the illustration in fig. 3, 4 and 7, the bottom of the multi-groove heat insulation shell 307 is in contact with the bottom of the sealing gasket 303, two input ends of the three-way pipe 308 respectively extend to the insides of the middle two grooves of the multi-groove heat insulation shell 307, and two input ends of the two three-way pipe 308 are respectively close to the bottoms of the middle two grooves of the multi-groove heat insulation shell 307, so that the water pump 309 and the storage battery 310 can be protected from heat under the action of the multi-groove heat insulation shell 307.

Referring to fig. 4, 5 and 7, the output end of the three-way pipe 308 is connected to the output end of the water pump 309, the input end of the liquid outlet pipe 311 movably penetrates the bottom of the multi-groove heat insulation shell 307, the input end of the liquid outlet pipe 311 is connected to the output end of the water pump 309, and the input end of the diverter 313 is connected to the output end of the liquid outlet pipe 311, so that the asphalt separant liquid guided from the liquid outlet pipe 311 can be guided to the inside of each atomizer 314 in a diverting manner under the action of the diverter 313.

According to the illustration in fig. 1, 2, 4 and 6, the storage battery 310 is electrically connected with the control switch 319, the control switch 319 is electrically connected with the water pump 309, the four rectangular columns 302 are all installed at the top of the roller frame 1 through first bolts, the two T-shaped holes 318 are respectively opened at the top of the roller frame 1, the two T-shaped plates 315 are all installed inside the two T-shaped holes 318 through second bolts, and the T-shaped plates 315 can be conveniently installed on the roller frame 1 under the matching of the second bolts and the T-shaped holes 318.

According to the drawings of fig. 1-3, 6 and 8, the roller body 2 is rotatably connected between two sides of the inner wall of the roller frame 1, the bristles of each long-plate bristle brush 316 and the bristles of each L-shaped bristle brush 317 are both in contact with the surface of the roller body 2, the monitoring mechanism 4 is arranged at the top of the roller frame 1, the monitoring mechanism 4 comprises a rectangular block 401, the bottom of the rectangular block 401 is fixed with the top of the rectangular plate 304, and the quantity of the asphalt separant liquid in the multi-groove heat insulation shell 307 can be monitored in real time conveniently under the action of the monitoring mechanism 4.

According to fig. 2-4, 7 and 8, two symmetrical mounting grooves 402 are formed in the top of a rectangular block 401, the two mounting grooves 402 are communicated, a controller 403 is installed inside one mounting groove 402, a buzzer 404 is installed inside the other mounting groove 402, the controller 403 is electrically connected with a storage battery 310, the controller 403 is electrically connected with the buzzer 404, a liquid level sensor 405 is installed at the bottom of the rectangular plate 304, a detection end of the liquid level sensor 405 movably penetrates through the top of the sealing gasket 303, the sealing effect between the bottom of the rectangular plate 304 and the top of the concave block 301 can be improved conveniently under the action of the sealing gasket 303, and meanwhile, under the action of the liquid level sensor 405, the liquid level of the asphalt spacer liquid inside the multi-groove heat insulation shell 307 can be detected constantly.

As shown in fig. 2, 4, 7 and 8, the bottom of the detection end of the liquid level sensor 405 is close to the bottom of the inner wall of the middle groove of the multi-groove heat insulation shell 307, the liquid level sensor 405 is electrically connected to the controller 403, a plurality of limit rods 406 are distributed and fixed at equal intervals on the bottom of the inner wall of the middle groove of the multi-groove heat insulation shell 307, and the detection end of the liquid level sensor 405 is located between the outer surfaces of the limit rods 406, so that the detection end of the liquid level sensor 405 can be ensured to be kept in a vertical downward state constantly under the action of the limit rods 406, and the detection accuracy of the liquid level sensor 405 is effectively improved.

According to fig. 2, fig. 4, fig. 7 and fig. 8 show, two middle groove inner walls of the multiple-groove heat insulation shell 307 are all fixed to penetrate arc transparent pipes 407, the input ends of the two arc transparent pipes 407 are all movable to penetrate the outer wall of the concave block 301, the dust screens 408 are all installed at the output ends of the two arc transparent pipes 407, hollow blocks 409 are installed at the top of the rectangular blocks 401, a first filter screen 410 is installed inside the hollow blocks 409, threading holes 411 are all opened on the inner walls of the two installation grooves 402, the convenience is brought to the connection between the liquid level sensor 405 and the controller 403 under the action of the threading holes 411, and meanwhile, under the action of the first filter screen 410, dust can be prevented from entering the inside of the installation grooves 402.

According to fig. 2 and 3, two circular tubes 5 are fixedly arranged at the top of the rectangular plate 304 in a penetrating manner, the output ends of the two circular tubes 5 penetrate through the top of the sealing gasket 303 in an all-moving manner, the tube covers 6 are arranged at the input ends of the two circular tubes 5, the second filter screen 7 is arranged at the top of the rectangular plate 304, and the dust can be prevented from contacting the water pump 309 under the action of the second filter screen 7, so that the dust can be effectively prevented from influencing the normal use of the water pump 309.

According to the drawings of fig. 1-3, two symmetrical U-shaped frames 8 are fixed on the top of the rectangular plate 304, two symmetrical connecting frames 9 are fixed on the front surface of the roller frame 1, the outer surface of each atomizing nozzle 314 is provided with the air gathering shell 10, and the outlet of each air gathering shell 10 is provided with the shell cover 11, so that the matching of the shell cover 11 and the air gathering shell 10 can prevent dust from blocking the outlet of the atomizing nozzle 314.

The effect that its whole mechanism reached does: when the compaction operation of the asphalt concrete pavement layer is required, the roller frame 1 is connected with a movable road roller body by directly utilizing the matching of the two connecting frames 9, then the two pipe covers 6 are taken down, the asphalt separant liquid is respectively and directly injected into the middle two grooves of the multi-groove heat insulation shell 307 by the matching of the two circular pipes 5, at this time, the quantity of the asphalt separant liquid injected into the middle two grooves of the multi-groove heat insulation shell 307 can be accurately controlled by the matching of the corresponding arc transparent pipes 407, namely, by the principle similar to a communicating vessel, when the proper quantity of the asphalt separant liquid is injected into the middle two concave grooves of the multi-groove heat insulation shell 307, the liquid is directly stopped from being injected into the input ends of the circular pipes 5, the two pipe covers 6 are directly arranged at the input ends of the two circular pipes 5 in a resetting way, and the shell cover 11 arranged on each gas collection shell 10 is taken down at the same time, then, the laser profilometer 322 is connected with a PLC controller in the road roller body, meanwhile, the road roller body is directly utilized to provide power, then, the roller body 2 can be driven to move through the matching of the connecting frame 9 and the roller frame 1, the vibration compaction operation of the asphalt concrete pavement layer is realized, when the road roller drives the roller body 2 to move forwards, the roller body 2 can carry out the vibration compaction operation of the asphalt concrete pavement layer, meanwhile, the water pump 309 is directly started through the matching of the control switch 319 and the storage battery 310, simultaneously, the controller 403 is started through the matching of the storage battery 310, the lowest threshold value of the liquid level is set, when the roller body 2 is used for compacting the asphalt concrete pavement layer, the adhesion of the asphalt mixture on the surface of the roller body 2 occurs, at the moment, under the matching of the two long plate hard brushes 316 close to the connecting frame 9 and the four L-shaped hard brushes 317, when the surface of the roller body 2 is cleaned in all directions by two long-plate scrubbing brushes 316 and four L-shaped scrubbing brushes 317 close to a connecting frame 9, a laser profile instrument 322 surveys and measures the surface evenness of the cleaned roller body 2 and transmits the measured data to a PLC (programmable logic controller) of a road roller body, the PLC after receiving the data analyzes and calculates the data and displays the calculated result on a screen of the PLC installed on the road roller body for a worker to watch, when the surveyed and measured data are not within the numerical range of the surface evenness of the roller body 2, the worker can know the data in time and can replace the roller body 2 at the moment, or repair the problems of pits, bulges and the like appearing on the surface of the roller body 2 when the surveyed and measured data are not within the numerical range of the surface evenness of the roller body 2, the quality of compacted asphalt concrete road is effectively ensured, at the moment, a water pump 309 started at the moment can also be under a cleaning tee 308, the asphalt mixture adhered to the surface of a plurality of isolating casings 313, when the asphalt mixture passes through an isolating liquid guiding and is sprayed from an isolating spray nozzle 313 of an isolating spray head 313, and directly sprayed to an isolating liquid guiding shell 313 inside the isolating nozzle 313 of the isolating spray diverter 313, a layer of film is formed on the surface of the roller body 2, so that the amount of asphalt mixture adhered to the surface of the roller body 2 on an asphalt concrete pavement layer can be effectively reduced, the indirect cleaning of the asphalt mixture adhered to the surface of the roller body 2 is realized, meanwhile, the damage speed of the long-plate scrubbing brush 316 and the L-shaped scrubbing brush 317 is effectively reduced, namely, the service life of the long-plate scrubbing brush 317 is prolonged, when the controller 403 is started, the liquid level sensor 405 is also started, the real-time monitoring of the amount of asphalt isolating agent liquid stored in the multi-groove heat insulation shell 307 is started, meanwhile, the detected liquid level data is directly transmitted to the controller 403 in an electric signal mode, when the controller 403 receives the liquid level data transmitted by the liquid level sensor 405, the controller 403 directly compares the received liquid level value with a liquid level minimum threshold value preset by the controller 403, when the liquid level data received by the controller 403 is greater than the liquid level minimum threshold value preset by the controller 403, the controller 403 does not start the buzzer 404, and when the liquid level data received by the controller 403 is smaller than the liquid level minimum threshold value set by the controller 403. At this moment, the controller 403 can directly control the buzzer 404 to start, the started buzzer 404 can make a sound, an alarm prompt is given to a worker to remind the worker that the asphalt separant liquid needs to be injected, and when the road roller drives the roller body 2 to slowly retreat and move, the two long-plate scrubbing brushes 316 and the four L-shaped scrubbing brushes 317 far away from the connecting frame 9 can also clean the asphalt mixture adhered to the surface of the roller body 2.

Wherein, it mainly comprises vibration steel wheel, excitation mechanism, damper and running gear of gyro wheel body 2, and its simple principle is: when the road roller runs, the rolling interior of the vibration wheel can generate vibration due to the rotation of eccentric force, and the vibration frequency is between 25 and 50 HZ. With the constant change of the rolling eccentricity of the roller, when the eccentricity is upward, the roller is in a static pressure mode, and when the eccentricity is downward, a large acting force is applied to the ground. By means of such vibrations, this force can be up to 2 tons, so that by means of such a large force, the road surface can be compacted very easily.

The water pump 309, the storage battery 310, the atomizer 314, the control switch 319, the controller 403, the buzzer 404, the laser profiler 322 and the liquid level sensor 405 are all the prior art, and the components and the use principle thereof are all the public technologies, and are not explained herein too much.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a road roller cleaning device is used in all-round gyro wheel clearance with, includes gyro wheel frame (1), its characterized in that: the top of the roller carrier (1) is provided with a cleaning mechanism (3);

the cleaning mechanism (3) comprises a concave type block (301), two T-shaped plates (315) and two T-shaped holes (318), rectangular columns (302) are fixed at four corners of the bottom of the concave type block (301), a sealing gasket (303) is arranged at the top of the concave type block (301), a rectangular plate (304) is connected to the top of the sealing gasket (303) in an adhering mode, a plurality of heat dissipation holes (305) are formed in the top of the rectangular plate (304) in an equidistant mode, a mounting hole (306) is formed in the top of the rectangular plate (304), a multi-groove heat insulation shell (307) is arranged inside the concave type block (301), a three-way pipe (308) is fixedly penetrated through the two inner sides of one groove wall of the multi-groove heat insulation shell (307), a water pump (309) is installed at the bottom of one groove inner wall of the multi-groove heat insulation shell (307), a storage battery (310) is arranged inside the other groove of the multi-groove heat insulation shell (307), a connecting liquid outlet pipe (311) is fixedly penetrated through the bottom of the concave type block (301), two mounting seats (312) are installed at the bottom, two spray nozzles (312) are installed on two opposite sides of each T-shaped plate (316), every L type scrubbing brush (317) is all installed at the both ends of long slab scrubbing brush (316), the internally mounted of mounting hole (306) has control switch (319), the positive fixed surface of concave type piece (301) has L template (320), install U template (321) between the both sides of L template (320), the inside of U template (321) is provided with laser profile appearance (322).

2. A road roller cleaning apparatus as claimed in claim 1, having an omni directional roller cleaning arrangement, wherein: the bottom of the multi-groove heat insulation shell (307) is in contact with the bottom of the sealing gasket (303), two input ends of the three-way pipe (308) respectively extend to the insides of the two middle grooves of the multi-groove heat insulation shell (307), and the two input ends of the two three-way pipe (308) are respectively close to the bottoms of the two middle grooves of the multi-groove heat insulation shell (307).

3. A road roller cleaning apparatus as claimed in claim 1, having an omni directional roller cleaning arrangement, wherein: the output end of the three-way pipe (308) is connected with the output end of the water pump (309), the input end of the liquid outlet pipe (311) movably penetrates through the bottom of the multi-groove heat insulation shell (307), the input end of the liquid outlet pipe (311) is connected with the output end of the water pump (309), and the input end of the flow divider (313) is connected with the output end of the liquid outlet pipe (311).

4. A road roller cleaning apparatus as claimed in claim 1, having an omni directional roller cleaning arrangement, wherein: the storage battery (310) is electrically connected with the control switch (319), the control switch (319) is electrically connected with the water pump (309), the four rectangular columns (302) are mounted at the top of the roller frame (1) through first bolts, the two T-shaped holes (318) are formed in the top of the roller frame (1) respectively, and the two T-shaped plates (315) are mounted inside the two T-shaped holes (318) through second bolts respectively.

5. The all-directional roller cleaning device for use with a road roller as claimed in claim 1, wherein: rotate between the inner wall both sides of gyro wheel frame (1) and be connected with gyro wheel body (2), every the brush hair of long slab scrubbing brush (316) and the brush hair of every L type scrubbing brush (317) all contact with the surface of gyro wheel body (2), the top of gyro wheel frame (1) is provided with monitoring mechanism (4), monitoring mechanism (4) include rectangular block (401), the bottom of rectangular block (401) is fixed mutually with the top of rectangular plate (304).

6. A road roller cleaning device with omni-directional roller cleaning according to claim 5, wherein: two symmetrical mounting grooves (402) have been seted up at the top of rectangle piece (401), and two mounting grooves (402) are linked together, one of them the internally mounted of mounting groove (402) has controller (403), another the internally mounted of mounting groove (402) has bee calling organ (404), controller (403) and battery (310) electric connection, controller (403) and bee calling organ (404) electric connection, level sensor (405) are installed to the bottom of rectangle board (304), the sense terminal activity of level sensor (405) runs through the top of sealed pad (303).

7. A road roller cleaning apparatus as claimed in claim 6, having an omni directional roller cleaning arrangement, wherein: the inner wall bottom position of a recess of the centre of a multislot thermal-insulated shell (307) is close to the sense terminal bottom of level sensor (405), level sensor (405) and controller (403) electric connection, the inner wall bottom equidistance distribution of a recess of the centre of multislot thermal-insulated shell (307) is fixed with a plurality of gag lever posts (406), the sense terminal of level sensor (405) is in between the surface of a plurality of gag lever posts (406).

8. A road roller cleaning apparatus as claimed in claim 6, having an omni directional roller cleaning arrangement, wherein: two recess inner walls in the middle of multislot thermal-insulated shell (307) are all fixed to run through arc hyaline tube (407), two the outer wall that concave type piece (301) were run through in the equal activity of input of arc hyaline tube (407), two dust screen (408) are all installed to the output of arc hyaline tube (407), hollow piece (409) are installed at the top of rectangle piece (401), the internally mounted of hollow piece (409) has first filter screen (410), two through wires hole (411) have all been seted up to the inner wall of mounting groove (402).

9. The all-directional roller cleaning device for use with a road roller as claimed in claim 1, wherein: the fixed running-through in top of rectangular plate (304) has two pipe (5), two the equal activity of output of pipe (5) runs through the top of sealed pad (303), two tube cap (6) are all installed to the input of pipe (5), second filter screen (7) are installed at the top of rectangular plate (304).

10. A road roller cleaning apparatus as claimed in claim 1, having an omni directional roller cleaning arrangement, wherein: the top of rectangular plate (304) is fixed with two symmetrical U type framves (8), the positive fixed surface of gyro wheel frame (1) has two symmetrical link span (9), every gas shell (10) are all installed to the surface of atomizer (314), every shell cover (11) are installed to the exit of gathering gas shell (10).

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