CN112609554B - Road repairing device capable of increasing friction coefficient - Google Patents

Abstract

The invention relates to the field of road repair, in particular to a road repair device capable of increasing friction coefficient. The technical problem to be solved by the invention is as follows: provided is a road patching device capable of increasing a friction coefficient. The technical scheme is as follows: a road repairing device capable of increasing friction coefficient comprises a main frame, a first wheel, a second wheel, a pull ring, a hot-melt sand paving system and a leveling and compacting system; the first wheel is fixedly connected with the main frame; the second wheel is fixedly connected with the main frame; the pull ring is fixedly connected with the main frame; the hot-melting sand paving system is connected with the main frame; the leveling and compacting system is connected with the main frame. The invention achieves the effect of filling the area by uniformly melting the plastic particles, paving the sand and stone on the surface of the filled area, flattening and compacting the filled area and enabling the surface to be concave-convex consistent, thereby obtaining the plastic particles with large surface friction coefficient and compact interior.

Description

Road repairing device capable of increasing friction coefficient

Technical Field

The invention relates to the field of road repair, in particular to a road repair device capable of increasing friction coefficient.

Background

In the using process of a road, cracks and hollow sections can be inevitably generated, and in order to not influence the normal running of a vehicle, the road is usually repaired by filling concrete.

In the prior art, the cracks and hollow sections on the road can be repaired by filling special plastic particles, when the plastic particle repair device is used, the plastic particles filled in the cracks and the hollow sections are melted by a spray gun manually, and are leveled at the same time, the plastic particles in the cracks and the hollow sections can not be heated and melted synchronously by manual operation, and the surface of the plastic particle filling area is smooth when the plastic particle filling area is subsequently leveled, so that the friction coefficient of the plastic particle filling area is reduced.

In view of the above problems, there is a need for a road repair device capable of increasing a friction coefficient to solve the above problems.

Disclosure of Invention

In order to overcome the defects that in the prior art, specially-made plastic particles can be used for filling and repairing cracks and hollow sections on a road, when the special-made plastic particles are used, the plastic particles filled in the cracks and the hollow sections need to be melted by a spray gun manually, and are leveled at the same time, the plastic particles in the cracks and the hollow sections can not be heated and melted synchronously during manual operation, and in the subsequent leveling process, the surface of a plastic particle filling area is smooth, so that the friction coefficient of the plastic particle filling area is reduced, the technical problem to be solved by the invention is as follows: provided is a road patching device capable of increasing a friction coefficient.

The technical scheme is as follows: a road patching device capable of increasing a friction coefficient, comprising:

a main frame;

the first wheel is fixedly connected with the main frame;

the second wheel is fixedly connected with the main frame;

the pull ring is fixedly connected with the main frame;

the hot melting and sand spreading system is connected with the main frame;

and the leveling and compacting system is connected with the main frame.

As a further preferred solution, the hot melt sand-spreading system comprises:

the first electric push rod is fixedly connected with the main frame;

the second electric push rod is fixedly connected with the main frame;

the heating cabin is fixedly connected with the first electric push rod and the second electric push rod in sequence;

the high-temperature heater is connected with the heating cabin;

the melting cabin is fixedly connected with the heating cabin;

the first electric sliding rail is fixedly connected with the main frame;

the first electric sliding block is connected with the first electric sliding rail in a sliding manner;

the second electric sliding rail is fixedly connected with the main frame;

the second electric sliding block is in sliding connection with the second electric sliding rail;

one side of the connecting ring is fixedly connected with the first electric slider, and the other side of the connecting ring is fixedly connected with the second electric slider;

the storage cabin is fixedly connected with the connecting ring;

the third electric push rod is fixedly connected with the material storage cabin;

the inserting plate is inserted into the material storage cabin and fixedly connected with the third electric push rod;

and the sand spreading head is fixedly connected with the storage cabin.

As a further preferred option, the smoothing and compacting system comprises:

the power motor is connected with the main frame;

the first gear is fixedly connected with an output shaft of the power motor;

a second gear engaged with the first gear;

the rotating rod is rotatably connected with the main frame and fixedly connected with the second gear;

the inner surface of the rotating sleeve is in transmission connection with the rotating rod;

the first bevel gear is fixedly connected with the rotating sleeve;

the second bevel gear is fixedly connected with the rotating sleeve;

the first connecting plate is rotationally connected with the rotating sleeve;

the fourth electric push rod is fixedly connected with the main frame and the first connecting plate;

the third bevel gear is in rotary connection with the main frame;

the first driving wheel is fixedly connected with the third bevel gear;

the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt;

the leveling assembly is fixedly connected with the main frame and is rotationally connected with the second driving wheel;

the fourth bevel gear is rotationally connected with the main frame;

the third driving wheel is fixedly connected with the fourth bevel gear;

the fourth driving wheel is rotatably connected with the main frame, and the outer ring surface of the fourth driving wheel is in transmission connection with the third driving wheel through a belt;

the special-shaped gear is rotationally connected with the main frame and synchronously rotates with the fourth transmission wheel through a rotating shaft;

the first toothed plate is meshed with the special-shaped gear;

the transmission ring is fixedly connected with the first toothed plate;

the second toothed plate is fixedly connected with the transmission ring;

the first sliding block is fixedly connected with the transmission ring;

the second sliding block is fixedly connected with the transmission ring;

the second connecting plate is fixedly connected with the first sliding block and the second sliding block in sequence;

the first telescopic spring column is fixedly connected with the second connecting plate;

the second telescopic spring column is fixedly connected with the second connecting plate;

the first convex plate is fixedly connected with the main frame;

the second convex plate is fixedly connected with the first telescopic spring column and the second telescopic spring column in sequence;

the third telescopic spring column is fixedly connected with the second convex plate;

the pressing block is fixedly connected with the third telescopic spring column;

and the two sides of the linear slide rail are fixedly connected with the main frame, and the linear slide rail is sequentially connected with the first slide block and the second slide block in a sliding manner.

As a further preferred option, the levelling assembly comprises:

the bidirectional screw rod is fixedly connected with the second transmission wheel;

the connecting frame is fixedly connected with the main frame and is rotationally connected with the bidirectional screw rod;

the first transmission plate is in transmission connection with the bidirectional screw rod;

the second transmission plate is in transmission connection with the bidirectional screw rod;

the two sides of the polish rod are fixedly connected with the connecting frame, and the polish rod is sequentially connected with the first transmission plate and the second transmission plate in a sliding manner;

the leveling plate is fixedly connected with the first transmission plate;

the semicircular slide rail is in sliding connection with the leveling plate and is fixedly connected with the connecting frame;

the first spring is fixedly connected with the semicircular slide rail;

the first limiting transmission plate is in transmission connection with the semicircular slide rail and is fixedly connected with the first spring;

the first limiting plate is fixedly connected with the semicircular slide rail, and the first limiting plate is contacted with the first limiting transmission plate;

the second spring is fixedly connected with the semicircular slide rail;

the second limiting transmission plate is in transmission connection with the semicircular sliding rail and is fixedly connected with the second spring;

and the second limiting plate is fixedly connected with the semicircular slide rail, and the second limiting plate is contacted with the second limiting transmission plate.

As a further preferable scheme, the high-temperature heaters are arranged in four groups and are arranged in the heating cabin at equal intervals.

As a further preferable scheme, five groups of convex blocks are equidistantly arranged below the first convex plate, and five groups of convex blocks are equidistantly arranged above the second convex plate.

As a further preferable scheme, the third telescopic spring columns and the pressing blocks are arranged in five groups, the five groups are equidistantly arranged below the second convex plate, and irregular teeth are arranged below the pressing blocks.

As a further preferred scheme, the leveling plate, the semicircular slide rail, the first spring, the first limiting transmission plate, the first limiting plate, the second spring, the second limiting transmission plate and the second limiting plate are arranged in two groups, and are symmetrically distributed in the middle of the polish rod.

As a further preferred scheme, the upper half part of the leveling plate is provided with a telescopic plate, and the lower half part of the leveling plate is provided with an inclined push plate.

The invention has the following advantages:

the method comprises the steps of firstly, solving the problems that in the prior art, specially-made plastic particles can be used for filling and repairing cracks and hollow sections on a road, when the method is used, a spray gun is needed to manually melt the plastic particles filled in the cracks and the hollow sections, the plastic particles are leveled at the same time, manual operation is easy to burn, the plastic particles in the cracks and the hollow sections cannot be synchronously heated and melted, and in subsequent leveling, the surfaces of plastic particle filling areas are smooth, so that the friction coefficient of the plastic particle filling areas is reduced;

the second point, the hot melt shop sand system has been designed, level and smooth compaction system, spread sand system through hot melt and evenly melt plastic granules during the use, make it can be in the same place with crack and the bonding of hole section, and evenly laid one deck gravel and sand in the plastic granules top, and then increase plastic granules and fill regional coefficient of friction, then fill the region with plastic granules through leveling compaction system and smooth and carry out the compaction processing, let simultaneously fill regional surperficial unsmooth unanimity, and then further increase plastic granules and fill regional coefficient of friction:

and thirdly, the plastic particles are uniformly melted, sand and stones are paved on the surface of the filling area, and meanwhile, the filling area is leveled and compacted, the surface is concave-convex and consistent, and the effect of the plastic particle filling area with large surface friction coefficient and compact interior is achieved.

Drawings

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

FIG. 2 is a schematic structural view of a hot melt sand laying system according to the present invention;

FIG. 3 is a schematic view of the leveling and compacting system of the present invention;

FIG. 4 is a schematic structural view of a leveling assembly of the present invention;

FIG. 5 is an enlarged view of area A of the present invention;

FIG. 6 is an enlarged view of region B of the present invention.

Wherein: 1-main frame, 2-first wheel, 3-second wheel, 4-pull ring, 5-hot melt sand spreading system, 6-leveling compaction system, 501-first electric push rod, 502-second electric push rod, 503-heating cabin, 504-high temperature heater, 505-melting cabin, 506-first electric slide rail, 507-first electric slide block, 508-second electric slide rail, 509-second electric slide block, 5010-connecting ring, 5011-storage cabin, 5012-third electric push rod, 5013-inserting plate, 5014-sanding head, 601-power motor, 602-first gear, 603-second gear, 604-rotating rod, 605-rotating sleeve, 606-first bevel gear, 607-second gear, 608-first connecting plate, 609-fourth electric push rod, 6010-third bevel gear, 6011-first transmission wheel, 6022-second transmission wheel, 6013-leveling assembly, 6014-fourth bevel gear, 6025-third transmission wheel, 609-fourth electric push rod, 6010-third bevel gear, 6028-second telescopic spring plate, 6028-second telescopic screw rod, 6029-second connecting plate, 6028, 6021-second telescopic screw rod, 6028, 601306-a leveling plate, 601307-a semicircular slide rail, 601308-a first spring, 601309-a first limiting driving plate, 6013010-a first limiting plate, 6013011-a second spring, 6013012-a second limiting driving plate and 6013013-a second limiting plate.

Detailed Description

The invention is further described in the following examples, which are intended to illustrate, unless otherwise explicitly stated or limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A road repairing device capable of increasing friction coefficient is disclosed, as shown in fig. 1-6, comprising a main frame 1, a first wheel 2, a second wheel 3, a pull ring 4, a hot melting sand paving system 5 and a leveling and compacting system 6; the first wheel 2 is fixedly connected with the main frame 1; the second wheel 3 is fixedly connected with the main frame 1; the pull ring 4 is fixedly connected with the main frame 1; the hot-melting sand-spreading system 5 is connected with the main frame 1; the temper rolling system 6 is connected with the main frame 1.

When the device is used, a user pushes the device to move forwards through the pull ring 4 manually or is connected with a power vehicle through the pull ring 4 to drive the device to move forwards, the device is externally connected with a storage battery or a power supply, and the operation of the device is controlled by an external control screen.

The hot melting sand spreading system 5 comprises a first electric push rod 501, a second electric push rod 502, a heating cabin 503, a high-temperature heater 504, a melting cabin 505, a first electric slide rail 506, a first electric slide block 507, a second electric slide rail 508, a second electric slide block 509, a connecting ring 5010, a storage cabin 5011, a third electric push rod 5012, an inserting plate 5013 and a sand spreading head 5014; the first electric push rod 501 is fixedly connected with the main frame 1; the second electric push rod 502 is fixedly connected with the main frame 1; the heating chamber 503 is fixedly connected with a first electric push rod 501 and a second electric push rod 502 in sequence; the high-temperature heater 504 is connected with the heating cabin 503; the melting cabin 505 is fixedly connected with the heating cabin 503; the first electric sliding rail 506 is fixedly connected with the main frame 1; the first electric sliding block 507 is in sliding connection with the first electric sliding rail 506; the second electric slide rail 508 is fixedly connected with the main frame 1; the second electric slider 509 is connected with the second electric slide rail 508 in a sliding manner; one side of the connecting ring 5010 is fixedly connected with the first electric slider 507, and the other side of the connecting ring 5010 is fixedly connected with the second electric slider 509; the storage cabin 5011 is fixedly connected with the connecting ring 5010; the third electric push rod 5012 is fixedly connected with the storage cabin 5011; the plug board 5013 is inserted into the storage cabin 5011, and the plug board 5013 is fixedly connected with the third electric push rod 5012; the sanding head 5014 is fixedly connected with the storage cabin 5011.

When the plastic injection slide rail is used, firstly, enough sand and stones are added into the storage cabin 5011, when the hot melting and sand paving system 5 moves to the position above the cracks and the hollow sections, plastic particles for repairing are filled into the cracks and the hollow sections in advance, the first electric push rod 501 and the push rod of the second electric push rod 502 push outwards at the same time, the heating cabin 503 and the melting cabin 505 are driven to move downwards, then the melting cabin 505 covers the cracks and the hollow sections downwards, further, the high-temperature heater 504 heats the cracks and the hollow sections, the temperature of a closed space formed by the heating cabin 503 and the melting cabin 505 is uniformly raised, the temperature in the melting cabin 505 is raised, the plastic particles in the cracks and the hollow sections are uniformly melted, further, the sand spreading head 5014 moves to the positions above the cracks and the hollow sections, then the push rod of the third electric push rod 5012 retracts inwards, the driving board 5013 to move towards the heating cabin 503, the sand and stones in the storage cabin 5011 move to the filling area through the sand spreading head 5014, the sliding rail fills the second sliding rail, the sliding rail 507, the sliding block moves uniformly, the sliding block is filled with the plastic particles in the second electric push rod, the sliding block 508 and the sliding block is filled with the plastic particles, the sliding block 508, the sliding block is uniformly melted in the sliding rail 5010, the sliding rail 5011 and the sliding block is uniformly melted area, the sliding block 508 is uniformly melted area, the sliding block is uniformly melted area, and the sliding block is filled with the sliding block, and the sliding block 508, and the sliding block is uniformly melted.

The leveling and compacting system 6 comprises a power motor 601, a first gear 602, a second gear 603, a rotating rod 604, a rotating sleeve 605, a first bevel gear 606, a second bevel gear 607, a first connecting plate 608, a fourth electric push rod 609, a third bevel gear 6010, a first transmission wheel 6011, a second transmission wheel 6012, a leveling assembly 6013, a fourth bevel gear 6014, a third transmission wheel 6015, a fourth transmission wheel 6016, a special-shaped gear 6017, a first toothed plate 6018, a transmission ring 6019, a second toothed plate 6020, a first sliding block 6021, a second sliding block 6022, a second connecting plate 6023, a first telescopic spring post 6024, a second telescopic spring post 6025, a first convex plate 6026, a second convex plate 6027, a third telescopic spring post 6028, a pressing block 6029 and a linear sliding rail 6030; the power motor 601 is connected with the main frame 1; the first gear 602 is fixedly connected with an output shaft of the power motor 601; the second gear 603 meshes with the first gear 602; the rotating rod 604 is rotatably connected with the main frame 1, and the rotating rod 604 is fixedly connected with the second gear 603; the inner surface of the rotating sleeve 605 is in transmission connection with the rotating rod 604; the first bevel gear 606 is fixedly connected with the rotating sleeve 605; the second bevel gear 607 is fixedly connected with the rotating sleeve 605; the first connection plate 608 is rotatably connected to the rotating sleeve 605; the fourth electric push rod 609 is fixedly connected with the main frame 1, and the fourth electric push rod 609 is fixedly connected with the first connecting plate 608; the third bevel gear 6010 is rotatably connected to the main frame 1; the first driving wheel 6011 is fixedly connected with a third bevel gear 6010; the outer ring surface of the second driving wheel 6012 is in driving connection with the first driving wheel 6011 through a belt; the leveling component 6013 is fixedly connected with the main frame 1, and the leveling component 6013 is rotatably connected with a second driving wheel 6012; the fourth bevel gear 6014 is rotatably connected to the main frame 1; the third driving wheel 6015 is fixedly connected with a fourth bevel gear 6014; the fourth driving wheel 6016 is rotatably connected with the main frame 1, and an outer annular surface of the fourth driving wheel 6016 is in transmission connection with the third driving wheel 6015 through a belt; the special-shaped gear 6017 is rotatably connected with the main frame 1, and the special-shaped gear 6017 synchronously rotates with the fourth driving wheel 6016 through a rotating shaft; the first toothed plate 6018 is meshed with a profile gear 6017; the transmission ring 6019 is fixedly connected with the first toothed plate 6018; the second toothed plate 6020 is fixedly connected with the transmission ring 6019; the first slide block 6021 is fixedly connected with the transmission ring 6019; the second slide block 6022 is fixedly connected with the transmission ring 6019; the second connecting plate 6023 is fixedly connected with the first slide block 6021 and the second slide block 6022 in sequence; the first extension spring post 6024 is fixedly connected with the second connecting plate 6023; the second extension spring post 6025 is fixedly connected with the second connecting plate 6023; the first flange 6026 is fixedly connected to the main frame 1; the second flange 6027 is fixedly connected with the first 6024 and the second 6025 extension springs in turn; the third extension spring post 6028 is fixedly connected with the second flange 6027; the pressing block 6029 is fixedly connected with the third extension spring post 6028; both sides of the linear slide rail 6030 are fixedly connected with the main frame 1, and the linear slide rail 6030 is sequentially connected with the first slide block 6021 and the second slide block 6022 in a sliding manner.

When the leveling and compacting system 6 moves to a position above a plastic particle filling area paved with sand and stones, firstly, an output shaft of a power motor 601 drives a first gear 602 to rotate, the first gear 602 drives a second gear 603 engaged with the first gear to rotate, the second gear 603 drives a rotating sleeve 605 to rotate through a rotating rod 604, at the beginning, a push rod of a fourth electric push rod 609 is pushed outwards, then the rotating sleeve 605 is driven to move towards a direction close to the power motor 601 through a first connecting plate 608, then a first bevel gear 606 is driven to be engaged with a third bevel gear 6010, then the rotating sleeve 605 drives the first bevel gear 606 to rotate, the first bevel gear 606 drives a third bevel gear 6010 engaged with the first bevel gear 6010 to rotate, the third bevel gear 6010 drives a first driving wheel 6011 to rotate, an outer annular surface of the first driving wheel 1 drives a second driving wheel 6012 to rotate through a belt, and then the second driving wheel 6012 provides power for a leveling component 6013, then, the leveling assembly 6013 levels the plastic particle-filled area, further, the pressing block 6029 moves above the plastic particle-filled area, at this time, the push rod of the fourth electric push rod 609 is retracted inward, and then the first connecting plate 608 drives the rotating sleeve 605 to move in a direction away from the motor 601, and then drives the second bevel gear 607 to engage with the fourth bevel gear 6014, and then the rotating sleeve 605 drives the second bevel gear 607 to rotate, the second bevel gear 607 drives the fourth bevel gear 6014 engaged therewith to rotate, the fourth bevel gear 6014 drives the third driving wheel 6015 to rotate, and then the outer annular surface of the third driving wheel 6015 drives the fourth driving wheel 6016 to rotate through a belt, the fourth driving wheel 6016 drives the special-shaped gear 6017 to rotate through a rotating shaft, then the special-shaped gear 6017 drives the first toothed plate 8 engaged therewith to move horizontally, and when the special-shaped gear 6017 engages with the second toothed plate 6020, the special-shaped gear 6017 drives the second toothed plate 6020 to move horizontally in the opposite direction, so that under the combined action of the first toothed plate 6018 and the second toothed plate 6020, the transmission ring 6019 reciprocates, when the transmission ring 6019 reciprocates, the first slide block 6021 and the second slide block 6022 fixedly connected with the transmission ring slide on the linear slide rail 6030 to play a role in guiding and supporting, further, the transmission ring 6019 drives the second connecting plate 6023 to reciprocate, then the second connecting plate 6023 drives the second convex plate 6027 to reciprocate through the first telescopic spring column 6024 and the second telescopic spring column 6025, then, under the matching action of the first convex plate 6026 and the second convex plate 6027, the second convex plate 6027 reciprocates up and down, and then the third telescopic spring column 6028 drives the pressing block 6029 to reciprocate up and down, then the pressing block 6029 compacts the plastic particle filled area paved with sand and stone downwards, and the surface of the plastic particle filled area is concave and convex, furthermore, when the second convex plate 6027 moves downwards, the first extension spring column 6024 and the second extension spring column 6025 are stretched, then the first extension spring column 6024 and the second extension spring column 6025 drive the second convex plate 6027 to move upwards, and when the pressing block 6029 compacts the plastic particle filled area downwards, the third extension spring column 6028 stretches and plays a role in buffering, and the system realizes the flattening of the plastic particle filled area, and compacts the inside of the plastic particle filled area, and simultaneously makes the surface concave and convex consistent, thereby increasing the friction coefficient of the plastic particle filled area.

The leveling assembly 6013 comprises a bidirectional screw 601301, a connecting frame 601302, a first transmission plate 601303, a second transmission plate 601304, a polished rod 601305, a leveling plate 601306, a semicircular sliding rail 601307, a first spring 601308, a first limiting transmission plate 601309, a first limiting plate 6013010, a second spring 6013011, a second limiting transmission plate 6013012 and a second limiting plate 6013013; the bidirectional screw 601301 is fixedly connected with a second transmission wheel 6012; the connecting frame 601302 is fixedly connected with the main frame 1, and the connecting frame 601302 is rotatably connected with the bidirectional screw rod 601301; the first transmission plate 601303 is in transmission connection with a bidirectional screw 601301; the second transmission plate 601304 is in transmission connection with the bidirectional screw 601301; both sides of the polished rod 601305 are fixedly connected with a connecting frame 601302, and the polished rod 601305 is sequentially connected with a first transmission plate 601303 and a second transmission plate 601304 in a sliding manner; the leveling plate 601306 is fixedly connected with the first transfer plate 601303; the semicircular slide rail 601307 is in sliding connection with the leveling plate 601306, and the semicircular slide rail 601307 is fixedly connected with the connecting frame 601302; the first spring 601308 is fixedly connected with the semicircular slide rail 601307; the first limiting transmission plate 601309 is in transmission connection with the semicircular sliding rail 601307, and the first limiting transmission plate 601309 is fixedly connected with a first spring 601308; the first limiting plate 6013010 is fixedly connected with the semicircular sliding rail 601307, and the first limiting plate 6013010 is in contact with the first limiting driving plate 601309; the second spring 6013011 is fixedly connected with the semicircular slide rail 601307; the second limiting driving plate 6013012 is in driving connection with the semicircular sliding rail 601307, and the second limiting driving plate 6013012 is fixedly connected with a second spring 6013011; the second limiting plate 6013013 is fixedly connected with the semicircular sliding rail 601307, and the second limiting plate 6013013 is in contact with the second limiting driving plate 6013012.

When the device is used, the second transmission wheel 6012 drives the bidirectional screw 601301 to rotate, then one side of the bidirectional screw 601301 drives the first transmission plate 601303 to move in a direction away from the second transmission plate 601304, the first transmission plate 601303 drives the leveling plate 601306 to horizontally move in a direction away from the second transmission plate 601304, then the bottom of the leveling plate 601306 flattens a contacted plastic particle filling area paved with sand and stones, further, when the leveling plate 601306 moves to the side where the first limiting transmission plate 601309 is close to the first spring 601308, the leveling plate 601306 drives the first limiting transmission plate 601309 to transmit, then the leveling plate 601306 compresses the first spring 601308, then the leveling plate 601306 moves to the side where the first limiting transmission plate 601309 is far away from the first spring 601308, then the power motor 601 reversely rotates, then the leveling plate 601306 drives the leveling plate 601306 to move in a direction towards the second limiting transmission plate 601304, at this moment, the first limiting plate 601309 is under the first limiting transmission plate 3010, transmission plate cannot transmit, then the driving plate 601306 slides on the semicircular transmission plate 3012 to the second limiting transmission plate 6011, and the second limiting transmission plate 6012 moves to the second limiting transmission plate 3012, and the second limiting transmission plate 6011, and then the second limiting plate 6012 slides to the second limiting transmission plate 3012 to the second limiting plate 3012 to move the second limiting transmission plate 3012.

The high temperature heaters 504 are arranged in four groups, and are equidistantly installed inside the heating chamber 503.

The four groups of high-temperature heaters 504 are used for heating simultaneously, so that the temperature distribution of the closed space formed by the heating cabin 503 and the melting cabin 505 is uniform.

Wherein, the equidistance is provided with five groups of lugs in first flange 6026 below, and the equidistance is provided with five groups of lugs in second flange 6027 top.

The convex blocks of the first convex plate 6026 and the second convex plate 6027 are contacted with each other to drive the second convex plate 6027 to move downwards, so that the second convex plate 6027 moves up and down in a reciprocating manner.

Wherein, the third extension spring post 6028 and the press block 6029 are provided with five groups together, are equidistantly installed below the second convex plate 6027, and irregular teeth are provided below the press block 6029.

The plastic particle filled area is uniformly compacted by the five groups of press blocks 6029, and the surface roughness is consistent.

Two groups of leveling plates 601306, semicircular slide rails 601307, first springs 601308, first limiting driving plates 601309, first limiting plates 6013010, second springs 6013011, second limiting driving plates 6013012 and second limiting plates 6013013 are arranged, and are symmetrically distributed in the middle of a polish rod 601305.

The plastic particle filling area is flattened integrally in cooperation with the operation.

Wherein, the upper half part of the leveling plate 601306 is provided with a retractable plate, and the lower half part is provided with an inclined push plate.

When the leveling plate 601306 is driven clockwise along the track of the semicircular slide rail 601307, the plastic particle filling area is leveled through the inclined push plate and the telescopic plate is matched with the drive.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (6)

1. A road patching device capable of increasing a friction coefficient comprises:

a main frame;

the first wheel is fixedly connected with the main frame;

the second wheel is fixedly connected with the main frame;

the pull ring is fixedly connected with the main frame;

the method is characterized in that: also includes:

the hot melting and sand spreading system is connected with the main frame;

the leveling and compacting system is connected with the main frame;

the hot-melting sand paving system comprises:

the first electric push rod is fixedly connected with the main frame;

the second electric push rod is fixedly connected with the main frame;

the heating cabin is fixedly connected with the first electric push rod and the second electric push rod in sequence;

the high-temperature heater is connected with the heating cabin;

the melting cabin is fixedly connected with the heating cabin;

the first electric sliding rail is fixedly connected with the main frame;

the first electric sliding block is connected with the first electric sliding rail in a sliding manner;

the second electric sliding rail is fixedly connected with the main frame;

the second electric sliding block is connected with the second electric sliding rail in a sliding manner;

one side of the connecting ring is fixedly connected with the first electric sliding block, and the other side of the connecting ring is fixedly connected with the second electric sliding block;

the storage cabin is fixedly connected with the connecting ring;

the third electric push rod is fixedly connected with the material storage cabin;

the inserting plate is inserted into the material storage cabin and fixedly connected with the third electric push rod;

the sand scattering head is fixedly connected with the storage cabin;

the leveling and compacting system comprises:

the power motor is connected with the main frame;

the first gear is fixedly connected with an output shaft of the power motor;

a second gear engaged with the first gear;

the rotating rod is rotatably connected with the main frame and fixedly connected with the second gear;

the inner surface of the rotating sleeve is in transmission connection with the rotating rod;

the first bevel gear is fixedly connected with the rotating sleeve;

the second bevel gear is fixedly connected with the rotating sleeve;

the first connecting plate is rotationally connected with the rotating sleeve;

the fourth electric push rod is fixedly connected with the main frame and the first connecting plate;

the third bevel gear is in rotary connection with the main frame;

the first transmission wheel is fixedly connected with the third bevel gear;

the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt;

the leveling assembly is fixedly connected with the main frame and is rotationally connected with the second driving wheel;

the fourth bevel gear is in rotary connection with the main frame;

the third driving wheel is fixedly connected with the fourth bevel gear;

the fourth driving wheel is rotatably connected with the main frame, and the outer ring surface of the fourth driving wheel is in transmission connection with the third driving wheel through a belt;

the special-shaped gear is rotationally connected with the main frame and synchronously rotates with the fourth transmission wheel through a rotating shaft;

the first toothed plate is meshed with the special-shaped gear;

the transmission ring is fixedly connected with the first toothed plate;

the second toothed plate is fixedly connected with the transmission ring;

the first sliding block is fixedly connected with the transmission ring;

the second sliding block is fixedly connected with the transmission ring;

the second connecting plate is fixedly connected with the first sliding block and the second sliding block in sequence;

the first telescopic spring column is fixedly connected with the second connecting plate;

the second telescopic spring column is fixedly connected with the second connecting plate;

the first convex plate is fixedly connected with the main frame;

the second convex plate is fixedly connected with the first telescopic spring column and the second telescopic spring column in sequence;

the third telescopic spring column is fixedly connected with the second convex plate;

the pressing block is fixedly connected with the third telescopic spring column;

the two sides of the linear slide rail are fixedly connected with the main frame, and the linear slide rail is sequentially connected with the first slide block and the second slide block in a sliding manner;

leveling the subassembly including:

the bidirectional screw rod is fixedly connected with the second transmission wheel;

the connecting frame is fixedly connected with the main frame and is rotationally connected with the bidirectional screw rod;

the first transmission plate is in transmission connection with the bidirectional screw rod;

the second transmission plate is in transmission connection with the bidirectional screw rod;

the two sides of the polish rod are fixedly connected with the connecting frame, and the polish rod is sequentially connected with the first transmission plate and the second transmission plate in a sliding manner;

the leveling plate is fixedly connected with the first transmission plate;

the semicircular slide rail is in sliding connection with the leveling plate and is fixedly connected with the connecting frame;

the first spring is fixedly connected with the semicircular slide rail;

the first limiting transmission plate is in transmission connection with the semicircular slide rail and is fixedly connected with the first spring;

the first limiting plate is fixedly connected with the semicircular slide rail, and the first limiting plate is contacted with the first limiting transmission plate;

the second spring is fixedly connected with the semicircular slide rail;

the second limiting transmission plate is in transmission connection with the semicircular slide rail and is fixedly connected with the second spring;

and the second limiting plate is fixedly connected with the semicircular slide rail, and the second limiting plate is contacted with the second limiting transmission plate.

2. A road patching device capable of increasing the coefficient of friction as claimed in claim 1, wherein: the high temperature heater is provided with four groups, and the high temperature heaters are arranged in the heating cabin at equal intervals.

3. A road patching device capable of increasing the coefficient of friction as claimed in claim 2, wherein: five groups of convex blocks are equidistantly arranged below the first convex plate, and five groups of convex blocks are equidistantly arranged above the second convex plate.

4. A road patching device capable of increasing the coefficient of friction as claimed in claim 3, wherein: the third telescopic spring columns and the pressing blocks are provided with five groups, the five groups are arranged below the second convex plate at equal intervals, and irregular teeth are arranged below the pressing blocks.

5. The apparatus for repairing a road having an increased coefficient of friction according to claim 4, wherein: the leveling plate, the semicircular slide rail, the first spring, the first limiting transmission plate, the first limiting plate, the second spring, the second limiting transmission plate and the second limiting plate are provided with two groups, and the two groups are symmetrically distributed in the middle of the polish rod.

6. A road patching device capable of increasing a coefficient of friction as claimed in claim 5, wherein: the upper half part of the leveling plate is provided with a telescopic plate, and the lower half part of the leveling plate is provided with an inclined push plate.

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