CN116427247A - Full-automatic suspension type track engraving machine device for road construction - Google Patents

Abstract

The invention relates to the technical field of road construction, in particular to a full-automatic suspension type track embossing machine device for road construction. The invention provides a full-automatic suspension type track sculpturing machine device for road construction, which is used for carrying out adaptive extension according to road width and keeping sculpturing stable. A full-automatic suspension type track carving machine device for road construction, including first mounting bracket, connecting plate, carving mechanism and reciprocating mechanism etc. about the first mounting bracket both sides all be connected with the connecting plate, be equipped with carving mechanism on the first mounting bracket, be equipped with reciprocating mechanism on the first mounting bracket. According to the invention, the first mounting frame is extended through the connecting plate, so that the movable mounting frame can slide in a manner of adapting to the road width under the guide of the first mounting frame, and meanwhile, in the sliding process, the second mounting frame is supported through adjusting the movable assembly, so that the situation that the embossing blade is inclined sideways, and cannot be parallel to the ground, and the embossing depth is inconsistent is avoided.

Description

Full-automatic suspension type track engraving machine device for road construction

Technical Field

The invention relates to the technical field of road construction, in particular to a full-automatic suspension type track embossing machine device for road construction.

Background

The concrete road surface can provide a fast and stable travelling route for vehicles, and in order to increase the friction force between vehicle tires and the concrete road surface, the concrete road surface needs to be subjected to embossing treatment, and the embossing of the concrete road surface is a key process for forming a macroscopic anti-skid structure of the road surface.

When carrying out the embossing treatment to concrete pavement, can generally use the embossing machine to cut ground, form anti-skidding line, current device needs constructor control machine to remove, carries out track positioning, needs the steady form of paying attention to the embossing machine constantly simultaneously, avoids the embossing machine slope to lead to the embossing degree of depth inconsistent, but above-mentioned processing operation can very big increase efficiency of construction to make constructor intensity of labour promote, be difficult to the adaptation is carried out to different road widths in the use simultaneously.

A fully automatic suspended rail corrugator device for road construction, which is adapted to the road width and keeps the embossing stable, has thus been developed against the above problems.

Disclosure of Invention

In order to overcome the defects that the existing device can greatly increase the construction efficiency in the operation process, improve the labor intensity of constructors and adapt to different road widths in the use process, the invention provides a full-automatic suspension type track engraving machine device for road construction, which adapts and extends according to the road widths and keeps engraving stable.

The technical proposal is as follows:

a full-automatic suspension type track carving machine device for road construction, including first mounting bracket, connecting plate, remove round, universal wheel, carving mechanism and reciprocating mechanism, both sides all are connected with the connecting plate about the first mounting bracket, and the rotation of first mounting bracket rear portion downside is connected with bilateral symmetry removes the round, and the rotation of first mounting bracket front portion downside is connected with bilateral symmetry's universal wheel, is equipped with carving mechanism on the first mounting bracket, is equipped with reciprocating mechanism on the first mounting bracket.

As a further preferred scheme, the embossing mechanism comprises a mobile mounting frame, guide wheels, a second mounting frame, a first driving motor, a belt pulley assembly, an embossing blade and a moving assembly, wherein the four guide wheels are rotationally connected to the upper sides of the front portion and the rear portion of the first mounting frame, the guide wheels are rotationally connected with the first mounting frame in a sliding mode, the lower sides of the mobile mounting frame are rotationally connected with the second mounting frame, the top of the second mounting frame is rotationally connected with the first driving motor through bolts, the lower sides of the left portions of the second mounting frame are rotationally connected with the embossing blade, the belt pulley assembly is connected between the rear sides of the embossing blade and the output shafts of the first driving motor, and the moving assembly is connected to the front side and the rear side of the left lower portion of the second mounting frame.

As a further preferable scheme, the reciprocating mechanism comprises a second driving motor, a rotating roller, a first steel rope, a first wire guide wheel and a hook claw, wherein the upper side of the rear part of the first mounting frame is connected with the second driving motor through a bolt, the rotating roller is connected to an output shaft of the second driving motor, the first steel rope is wound on the rotating roller, the first wire guide wheel is connected to the left side and the right side of the first mounting frame in a rotating mode, and the hook claw is connected to the right side of the first steel rope.

As a further preferred scheme, the wire winding device further comprises a lifting mechanism, wherein the lifting mechanism comprises a second steel rope, a rotating rod, a fluted disc, a pressing rod, second wire wheels and clamping pieces, the rotating rod is connected to the upper portion of the movable mounting frame, the second steel rope is wound around the front side and the rear side of the rotating rod, the bottom of the second steel rope is connected with the upper side of the left portion of the second mounting frame, the front end of the rotating rod is connected with the fluted disc, the pressing rod is connected to the front side of the fluted disc, the left upper portion of the movable mounting frame is rotationally connected with two second wire wheels which are symmetrical around, the second steel rope is wound around the adjacent second wire wheels, and the front side of the left portion of the movable mounting frame is rotationally connected with the clamping pieces.

As a further preferred scheme, the novel dust-proof device comprises a dust-proof mechanism, wherein the dust-proof mechanism comprises a water guide pipe, mounting pieces, torsion springs and dust-proof covers, the top of a second mounting frame is connected with the water guide pipe, the mounting pieces are connected between the front side and the rear side of the left and the right parts of the second mounting frame through bolts, the dust-proof covers are connected between the front and the rear adjacent mounting pieces in a rotary mode, and the torsion springs are connected between the dust-proof covers and the adjacent mounting pieces.

As a further preferable scheme, the novel mounting rack further comprises a positioning piece, and the front parts of the left and right parts of the first mounting rack are connected with the positioning piece in a sliding mode.

As a further preferable scheme, the cable guide device further comprises a wire guide piece, and the first cable is connected with the wire guide piece in a sliding mode.

As a further preferable scheme, the belt pulley assembly comprises belt pulleys and a transmission belt, the belt pulleys are connected to the output shaft of the first driving motor and the rear side of the embossing blade, and the transmission belt is wound between the belt pulleys.

The invention has the following advantages:

1. according to the invention, the first mounting frame is extended through the connecting plate, so that the movable mounting frame can slide in a manner of adapting to the road width under the guide of the first mounting frame, and meanwhile, in the sliding process, the second mounting frame is supported through adjusting the movable assembly, so that the situation that the embossing blade is inclined sideways, and cannot be parallel to the ground, and the embossing depth is inconsistent is avoided.

2. According to the invention, the driving roller is driven to reciprocate by the output shaft of the second driving motor, so that the first steel rope pulls the movable mounting frame to slide left and right in a reciprocating manner, and the embossing efficiency is improved.

3. According to the invention, the second steel rope pulls the second mounting frame to be lifted by controlling the pressing rod to rotate the rotating rod, so that the embossing blade is protected, and meanwhile, the rotating clamping piece is used for locking and fixing the fluted disc, so that the second mounting frame is prevented from being overturned and reset accidentally.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the embossing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the reciprocating mechanism of the present invention.

Fig. 4 is a schematic structural view of the reciprocating mechanism of the present invention.

Fig. 5 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 6 is a schematic perspective view of a dustproof mechanism according to the present invention.

Fig. 7 is a schematic view of a partial perspective structure of the present invention.

Wherein: the device comprises a first mounting frame, a 2-connecting plate, a 3-moving wheel, a 4-universal wheel, a 5-embossing mechanism, a 51-moving mounting frame, a 52-guide wheel, a 53-second mounting frame, a 54-first driving motor, a 55-belt pulley assembly, a 56-embossing blade, a 57-moving assembly, a 6-reciprocating mechanism, a 61-second driving motor, a 62-rotating roller, a 63-first steel rope, a 64-first wire wheel, a 65-claw, a 7-lifting mechanism, a 71-second steel rope, a 72-rotating rod, a 73-fluted disc, a 74-pressing rod, a 75-second wire wheel, a 76-clamping piece, an 8-dustproof mechanism, a 81-water guide pipe, an 82-mounting piece, a 83-torsion spring, a 84-dustproof cover, a 9-positioning piece and a 10-wire piece.

Detailed Description

The following describes the technical scheme with reference to specific embodiments, and it should be noted that: terms indicating orientations, such as up, down, left, right, etc., are used herein only with respect to the position of the illustrated structure in the corresponding drawings. The parts themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. And the application is said to be as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

A full-automatic suspension type track carving machine device for road construction, as shown in fig. 1, including first mounting bracket 1, connecting plate 2, remove round 3, universal wheel 4, carving mechanism 5 and reciprocating mechanism 6, two parts all are connected with the connecting plate 2 that is used for extending the extension about first mounting bracket 1, the rear portion downside rotation type of first mounting bracket 1 is connected with bilateral symmetry's removal round 3, the front portion downside rotation type of first mounting bracket 1 is connected with bilateral symmetry's universal wheel 4, be equipped with on the first mounting bracket 1 and be used for carrying out the carving mechanism 5 of carving to road surface, be equipped with the reciprocating mechanism 6 that supplementary carving mechanism 5 carries out reciprocating motion on the first mounting bracket 1.

It should be noted that, in the road construction process, the road surface needs to be engraved, at this moment, the constructor can be assisted to carry out road surface engraving by using the device, firstly, through the cooperation between the movable wheel 3 and the universal wheel 4, the first mounting frame 1 is moved to the appointed position, then according to the road width, the first mounting frame 1 is extended through the connecting plate 2, then the engraving mechanism 5 and the reciprocating mechanism 6 are started, the road surface is engraved in a reciprocating way, and the engraving efficiency is improved.

As shown in fig. 1 and 2, the embossing mechanism 5 comprises a movable mounting frame 51, a guide wheel 52, a second mounting frame 53, a first driving motor 54, a belt pulley assembly 55, an embossing blade 56 and a movable assembly 57, wherein the front and rear upper sides of the first mounting frame 1 are respectively and rotatably connected with four guide wheels 52 used for moving and guiding, the guide wheels 52 are respectively and slidably connected with the first mounting frame 1, the lower side of the movable mounting frame 51 is rotatably connected with the second mounting frame 53, the top of the second mounting frame 53 is connected with the first driving motor 54 through bolts, the output shaft of the first driving motor 54 is arranged in a rear direction, the left lower side of the second mounting frame 53 is rotatably connected with an embossing blade 56 used for embossing the pavement, the rear side of the embossing blade 56 is connected with the belt pulley assembly 55 between the output shaft of the first driving motor 54, the belt pulley assembly 55 is respectively connected with a belt pulley and a driving belt, the front and rear sides of the left lower side of the second mounting frame 53 are respectively connected with an auxiliary embossing blade 56, and the movable assembly 57 capable of adjusting the supporting height simultaneously.

It should be noted that, when carrying out the embossing treatment to the road surface, directly start first driving motor 54, first driving motor 54 output shaft drives drive assembly and runs, thereby make embossing blade 56 start high-speed rotation, simultaneously remove the movable mounting frame 51, make movable mounting frame 51 move along the direction of the first mounting frame 1 after extending according to the road width, can assist movable mounting frame 51 to carry out stable motion at the motion in-process leading wheel 52, it is required that, move along with movable mounting frame 51, can drive second mounting frame 53 and remove, thereby make movable component 57 adjust with ground contact height, supplementary second mounting frame 53 stably removes, avoid embossing blade 56 to roll, lead to embossing blade 56 unable to be parallel with the ground, make embossing depth inconsistent, after the road surface embossing is finished, close first driving motor 54 can, extend first mounting frame 1 through connecting plate 2, make movable mounting frame 51 can slide under the direction of first mounting frame 1 adaptation road width, simultaneously in the in-process of sliding, support second mounting frame 53 through adjusting movable component 57, avoid the embossing blade 56 to roll, unable to make the parallel with the embossing depth inconsistent with the ground.

As shown in fig. 1, 3 and 4, the reciprocating mechanism 6 includes a second driving motor 61, a rotating roller 62, a first steel rope 63, a first wire guiding wheel 64 and a hook claw 65, the upper side of the rear portion of the first mounting frame 1 is connected with the second driving motor 61 through a bolt, the output shaft of the second driving motor 61 is arranged in the front direction, the output shaft of the second driving motor 61 is connected with the rotating roller 62, the rotating roller 62 is wound with the first steel rope 63, the left and right lower sides of the first mounting frame 1 are both rotationally connected with the first wire guiding wheel 64 for guiding the first steel rope 63, and the right portion of the first steel rope 63 is connected with the hook claw 65 which can be clamped with the movable mounting frame 51.

It should be noted that, in order to improve the efficiency of the road surface embossing, the second driving motor 61 can be started during embossing, the output shaft of the second driving motor 61 drives the driving roller to rotate, thereby wind the first steel rope 63, it is particularly required to say that, when the driving roller rotates clockwise, the right part of the first steel rope 63 is pulled, the left part is loosened, thereby the hook claw 65 drives the movable mounting frame 51 to slide rightwards, when the driving roller rotates anticlockwise, the left part of the first steel rope 63 is pulled, the right part is loosened, thereby the movable mounting frame 51 slides leftwards, the driving roller continuously rotates anticlockwise repeatedly along with the driving roller, thereby the movable mounting frame 51 is driven to reciprocate leftwards and rightwards, the embossing efficiency is improved, in sum, the driving roller is driven by the output shaft of the second driving motor 61, thereby the movable mounting frame 51 is pulled to reciprocate leftwards and rightwards, and the embossing efficiency is improved.

As shown in fig. 1 and 5, the lifting mechanism 7 is further included, the lifting mechanism 7 includes a second steel rope 71, a rotating rod 72, a toothed disc 73, a pressing rod 74, second wire guide wheels 75 and clamping pieces 76, the rotating rod 72 is rotatably connected to the upper portion of the moving mounting frame 51, the second steel rope 71 is wound around the front and rear sides of the rotating rod 72, the bottom of the second steel rope 71 is connected to the left upper side of the second mounting frame 53, the front end of the rotating rod 72 is connected to the toothed disc 73, the front side of the toothed disc 73 is connected to an L-shaped pressing rod 74 which is convenient to control and pull, the left upper portion of the moving mounting frame 51 is rotatably connected to the two second wire guide wheels 75 which are symmetrical front and rear, the second steel rope 71 is wound around the adjacent second wire guide wheels 75, and the front side of the left portion of the moving mounting frame 51 is rotatably connected to the clamping pieces 76 which are used for locking and fixing the toothed disc 73.

It should be noted that, in order to avoid the abrasion of the embossing blade 56 and the ground caused by the friction of the first mounting frame 1 in the moving process, the toothed disc 73 can start to rotate through the control pressure rod 74, so that the rotating rod 72 starts to wind the second steel rope 71, in the steel rope winding process, the second steel rope 71 is guided by the second wire guide wheel 75, so that the second steel rope 71 pulls the second mounting frame 53 to rotate and lift clockwise, the embossing blade 56 is further lifted, the embossing blade 56 is prevented from contacting the ground, the clamping piece 76 is finally rotated anticlockwise, the clamping piece 76 is clamped with the toothed disc 73, the locking and fixing of the toothed disc 73 are realized, the anticlockwise rotation and resetting of the second mounting frame 53 are avoided, in summary, the rotating rod 72 is controlled to rotate the rotating rod 74, so that the second steel rope 71 pulls the second mounting frame 53 to lift, the embossing blade 56 is protected, and meanwhile, the clamping piece 76 is rotated to lock and fix the toothed disc 73, and the accidental overturning and resetting of the second mounting frame 53 are avoided.

As shown in fig. 1 and 6, the dust-proof device further comprises a dust-proof mechanism 8, the dust-proof mechanism 8 comprises a water guide pipe 81, mounting pieces 82, torsion springs 83 and dust-proof covers 84, the top of the second mounting frame 53 is connected with the water guide pipe 81 for guiding water flow, the mounting pieces 82 are connected between the front side and the rear side of the left and the right sides of the second mounting frame 53 through bolts, the dust-proof covers 84 for preventing dust from being raised are all rotationally connected between the front and the rear adjacent mounting pieces 82, the torsion springs 83 are all connected between the dust-proof covers 84 and the adjacent mounting pieces 82, and the torsion springs 83 are all wound on the dust-proof covers 84.

It should be noted that, when carrying out the embossing treatment to the road surface, raise a large amount of dust when cutting the ground in order to avoid embossing blade 56, can be connected through aqueduct 81 and external equipment, constantly carry out rivers and spray to the cutting position, avoid dust oxygen, cool down for embossing blade 56 simultaneously, dust cover 84 can avoid the piece to splash in the cutting process, further avoid the dust to raise simultaneously, improve dustproof effect, in conclusion, be connected with external equipment through aqueduct 81, constantly carry out rivers and spray to the cutting position and simultaneously cool down embossing blade 56 to avoid the piece to splash through dust cover 84, further avoid the dust to raise, improve dustproof effect.

As shown in fig. 1 and 7, the positioning device 9 is further included, and the front parts of the left and right parts of the first mounting frame 1 are both connected with the positioning device 9 for positioning the engraved positions in a sliding manner.

In order to avoid repeated graining, the road surface after the graining is cut again by the graining blade 56, and the positioning piece 9 is pulled to position the position of the graining, so that repeated graining on the road surface is avoided.

As shown in fig. 4 and 7, the wire guide 10 is further included, and the wire guide 10 for wire-drawing the control wire is slidably connected to the first wire rope.

In order to avoid scattering the control lines of the device and falling on the ground, the control lines may be bundled by the wire member 10, so as to avoid scattering the control lines on the ground and affecting the road texture.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (8)

1. A full-automatic suspension type track carving machine device for road construction, including first mounting bracket (1), connecting plate (2), removal wheel (3) and universal wheel (4), both sides all are connected with connecting plate (2) about first mounting bracket (1), and first mounting bracket (1) rear portion downside rotation is connected with bilateral symmetry's removal wheel (3), and first mounting bracket (1) front portion downside rotation is connected with bilateral symmetry's universal wheel (4), its characterized in that: the novel embossing machine further comprises an embossing mechanism (5) and a reciprocating mechanism (6), the embossing mechanism (5) is arranged on the first mounting frame (1), and the reciprocating mechanism (6) is arranged on the first mounting frame (1).

2. A fully automatic suspended rail embosser apparatus for road construction as claimed in claim 1, wherein: the utility model provides a pattern engraving mechanism (5) including mobile mounting frame (51), leading wheel (52), second mounting frame (53), first driving motor (54), belt pulley subassembly (55), pattern engraving blade (56) and remove subassembly (57), both sides all rotate around first mounting frame (1) are connected with four leading wheels (52), leading wheel (52) all are connected with first mounting frame (1) slidingtype, mobile mounting frame (51) downside rotation is connected with second mounting frame (53), second mounting frame (53) top is connected with first driving motor (54) through the bolted connection, second mounting frame (53) left side downside rotation is connected with pattern engraving blade (56), be connected with belt pulley subassembly (55) between pattern engraving blade (56) rear side and first driving motor (54) output shaft, both sides all are connected with remove subassembly (57) around second mounting frame (53) lower part.

3. A fully automatic suspended rail embosser apparatus for road construction as claimed in claim 2, wherein: the reciprocating mechanism (6) comprises a second driving motor (61), a rotating roller (62), a first steel rope (63), a first wire guide wheel (64) and a hook claw (65), wherein the second driving motor (61) is connected to the upper side of the rear portion of the first mounting frame (1) through bolts, the rotating roller (62) is connected to an output shaft of the second driving motor (61), the first steel rope (63) is wound on the rotating roller (62), the first wire guide wheel (64) is connected to the left lower side and the right lower side of the first mounting frame (1) in a rotating mode, and the hook claw (65) is connected to the right portion of the first steel rope (63).

4. A fully automatic suspended rail embosser apparatus for road construction as claimed in claim 3, wherein: still including lifting mechanism (7), lifting mechanism (7) are including second steel cable (71), bull stick (72), take fluted disc (73), depression bar (74), second wire wheel (75) and fastener (76), mobile mounting frame (51) upper portion rotation is connected with bull stick (72), both sides all around book have second steel cable (71) around bull stick (72), second steel cable (71) bottom all is connected with second mounting frame (53) left part upside, bull stick (72) front end is connected with takes fluted disc (73), take fluted disc (73) front side to be connected with depression bar (74), mobile mounting frame (51) left upper portion rotation is connected with two second wire wheels (75) of fore-and-aft symmetry, second steel cable (71) all winds on adjacent second wire wheel (75), mobile mounting frame (51) left part front side rotation is connected with fastener (76).

5. The fully automatic suspended rail embosser apparatus for road construction as claimed in claim 4, wherein: still including dustproof mechanism (8), dustproof mechanism (8) are including aqueduct (81), installed part (82), torsional spring (83) and shield (84), and second mounting bracket (53) top is connected with aqueduct (81), all has installed part (82) through bolted connection between the front and back both sides of second mounting bracket (53) left and right sides, all is connected with shield (84) between the adjacent installed part (82) around, all is connected with torsional spring (83) between shield (84) and the adjacent installed part (82).

6. The fully automatic suspended rail router apparatus for road construction of claim 5, wherein: the device also comprises a positioning piece (9), and the front parts of the left part and the right part of the first mounting frame (1) are both connected with the positioning piece (9) in a sliding mode.

7. The fully automatic suspended rail router apparatus for road construction of claim 6, wherein: the cable further comprises a wire guide (10), and the wire guide (10) is connected to the first cable in a sliding manner.

8. A fully automatic suspended rail embosser apparatus for road construction as claimed in claim 2, wherein: the belt pulley assembly (55) comprises belt pulleys and a transmission belt, the belt pulleys are connected to the output shaft of the first driving motor (54) and the rear side of the embossing blade (56), and the transmission belt is wound between the belt pulleys.

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