CN217781645U - Highway road construction is with flat device that shakes - Google Patents

Abstract

The application relates to the technical field of road construction, in particular to a leveling device for highway road construction, which comprises a handle, a damping mechanism and a leveling mechanism; the damping mechanism comprises a damping box, a sliding plate and a plurality of damping springs; the vibration damping box is connected with the vibration leveling mechanism, and the sliding plate is connected with the vibration damping box in a sliding manner; one end of the damping spring is connected with the bottom wall of the sliding plate, and the other end of the damping spring is connected with the vibrating flat-bed mechanism; the handle passes through the extension section of the damping box and is connected with the sliding plate, and the handle is movably connected with the damping box; the highway road construction of design is with flat device that shakes, be convenient for drive through the handle and shake flat-bed machine and construct the motion, be convenient for shake the concrete top layer flat through shaking flat-bed machine and construct, the cooperation through shock attenuation box, sliding plate and damping spring is convenient for absorb the vibration that shakes the flat-bed machine and construct the production, and then the staff of being convenient for is to grabbing of handle and is held, reduces the risk that leads to staff and handle to break away from and lead to because of the vibration, improves the safety in utilization of highway road construction with flat device that shakes.

Description

Highway road construction is with flat device that shakes

Technical Field

The application relates to the technical field of road construction, in particular to a leveling device for highway road construction.

Background

The road is constructed according to the national technical standard and approved by the acceptance of a road administration department, and the road engineering refers to the whole process of planning, designing, constructing, maintaining and managing work which is carried out by taking the road as an object and the engineering entity engaged in the whole process.

Patent document 2019224546443.2 discloses a rapid leveling device for highway engineering construction, which comprises a main body, a mounting groove, a fixing piece, a connecting plate, a control groove, a moving piece, a limiting plate, a bottom piece and an inner groove; the main body is of a rectangular plate-shaped structure, and the top end of the main body is provided with a vibrating flat machine; the connecting plate is arranged at the bottom of the main body, and the clamping plate at the top end of the connecting plate is inserted into the mounting groove; the moving piece is inserted into the control groove, and the upper end and the lower end of the limiting plate are in contact with the connecting plate; the bottom end of the connecting plate is embedded in the inner groove at the top end of the bottom piece, and the top end of the spring in the inner groove is in contact with the bottom end of the connecting plate.

In view of the above-mentioned related technologies, the inventor believes that the designed rapid leveling device for highway engineering construction is rigidly connected to the main body, and during leveling operation, when a constructor holds the handle on the main body to control the leveling path of the leveling device, the leveling device transmits vibration to the handle, which affects the holding stability of the constructor on the handle, and further affects the use safety of the leveling device.

SUMMERY OF THE UTILITY MODEL

In order to improve highway road construction with the safety in utilization of shake paper-back edition device, this application provides a highway road construction is with shaking paper-back edition device, adopts following technical scheme:

a vibration leveling device for highway road construction comprises a handle, a damping mechanism and a vibration leveling mechanism for vibrating a concrete surface layer;

the damping mechanism comprises a damping box, a sliding plate and a plurality of damping springs;

the shock absorption box is connected with the vibration leveling mechanism, the sliding plate is positioned in an inner cavity of the shock absorption box, and the sliding plate is connected with the shock absorption box in a sliding manner;

the damping springs are distributed along the length direction of the sliding plate, one end of each damping spring is connected with the bottom wall of the sliding plate, and the other end of each damping spring is connected with the vibrating flat mechanism;

the handle passes through the extension section of the top wall of the shock absorption box and is connected with the top wall of the sliding plate, and the handle is movably connected with the shock absorption box.

By adopting the technical scheme, the vibration leveling mechanism is adjusted, the vibration leveling mechanism starts to perform vibration leveling operation on the concrete surface layer, the vibration leveling mechanism transmits vibration to the damping box and the damping spring, the damping spring absorbs the vibration of the vibration leveling mechanism and applies force to the sliding plate, the sliding plate slides along the inner side wall of the damping box, the sliding plate transmits the vibration to the handle, and the handle transmits the vibration to workers; the highway road construction of design is with flat device that shakes, be convenient for drive through the handle and shake flat-bed machine and construct the motion, be convenient for shake the concrete top layer flat through shaking flat-bed machine and construct, the cooperation through shock attenuation box, sliding plate and damping spring is convenient for absorb the vibration that shakes the flat-bed machine and construct the production, and then the staff of being convenient for is to grabbing of handle and is held, reduces the risk that leads to staff and handle to break away from and lead to because of the vibration, improves the safety in utilization of highway road construction with flat device that shakes.

Optionally, the handle comprises a handheld rod and two connecting rods;

the two connecting rods are respectively positioned on two opposite sides of the handheld rod and are connected with the handheld rod;

the vertical section of the connecting rod is rotatably connected with the top wall of the sliding plate;

two adjusting grooves for the connecting rods to move are formed in the top wall of the damping box, the length direction of each adjusting groove is perpendicular to the length direction of the corresponding sliding plate, and the length direction of each adjusting groove is parallel to the plane where the rotating direction of the corresponding connecting rod is located.

By adopting the technical scheme, a worker applies force to the handheld rod, the handheld rod applies force to the connecting rod, and the connecting rod is rotatably connected with the top wall of the sliding plate, so that the height of the handheld rod is adjusted; the handle of design is convenient for the staff through handheld pole and is controlled, rotates through connecting rod and sliding plate to be connected, is convenient for realize the regulation of handheld pole height with the adjustment tank cooperation, and then adapts to the staff of different heights.

Optionally, the handheld rod is sleeved with a sleeve, the sleeve is provided with a plurality of damping rings between the handheld rod, the damping rings are distributed along the length direction of the sleeve, the damping rings are sleeved on the handheld rod, and the damping rings are connected with the inner side wall of the sleeve.

By adopting the technical scheme, the vibration leveling mechanism transmits vibration to the vibration absorption box and the vibration absorption spring, the vibration absorption spring applies force to the sliding plate while absorbing the vibration of the vibration leveling mechanism, the sliding plate slides along the inner side wall of the vibration absorption box, the sliding plate transmits the vibration to the connecting rod, the connecting rod transmits the vibration to the handheld rod, the handheld rod transmits the vibration to the vibration absorption ring, and the vibration absorption ring transmits the vibration to the sleeve after secondary absorption; the designed sleeve is convenient to be matched with the damping ring to further reduce the vibration of the vibration leveling mechanism to be transmitted to the hands of workers.

Optionally, the sleeve is connected with a plurality of anti-slip lines on the outer side.

Through adopting above-mentioned technical scheme, the antiskid line of design can further improve the stability of holding of staff to the handheld pole.

Optionally, the vibrating flat mechanism comprises a vibrating flat plate and a vibrating assembly for driving the vibrating flat plate to vibrate;

the vibration plate is used for scraping the concrete surface layer and is connected with the damping box.

Through adopting above-mentioned technical scheme, the flat mechanism that shakes of design is convenient for drive through the vibration subassembly and shakes dull and stereotyped vibration, is convenient for shake flat concrete top layer through shaking the dull and stereotyped, and then improves the roughness on road surface.

Optionally, the vibrating plate includes a straight section and an arc section;

the length direction of segmental arc with the length direction parallel arrangement of straight section, the segmental arc with straight section is connected, the segmental arc is close to handheld pole one side and sets up, just the segmental arc is by being close to straight section one side is to being close to handheld pole one side is by low to high slope setting.

Through adopting above-mentioned technical scheme, the dull and stereotyped that shakes of design is convenient for shake the tie to the concrete top layer through straight section, is convenient for prevent shaking dull and stereotyped the unevenness that the concrete top layer of being convenient for rub caused the concrete top layer through the segmental arc.

Optionally, the vibration assembly includes two vibration motors, two vibration motors are located on two opposite sides of the damping box, and the vibration motor base is connected with the top wall of the vibration plate.

By adopting the technical scheme, the external power supply provides electric energy for the work of the vibration motor, and the vibration motor transmits vibration to the vibration flat plate; the designed vibration component is convenient for driving the vibration plate to vibrate through the vibration motor.

Optionally, the vibration plate is connected with two protective covers, and the two vibration motors are respectively located in the inner cavities of the two protective covers.

Through adopting above-mentioned technical scheme, the protection casing of design can reduce the concrete and splash to vibrating motor at the in-process of shaking flat, and then can prolong vibrating motor's life.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the designed leveling device for the highway road construction, the handle is convenient for driving the leveling mechanism to move, the leveling mechanism is convenient for leveling the concrete surface layer, the vibration box, the sliding plate and the damping spring are matched to absorb the vibration generated by the leveling mechanism, so that a worker can conveniently hold the handle, the risk caused by the separation of the worker and the handle due to the vibration is reduced, and the use safety of the leveling device for the highway road construction is improved;

2. the designed leveling device for highway road construction is convenient to be matched with the damping ring through the sleeve so as to further reduce the vibration of the leveling mechanism from being transmitted to the hands of workers;

3. the designed vibration leveling device for the road construction can further improve the holding stability of a worker on the holding rod through the anti-skidding lines.

Drawings

Fig. 1 is a schematic structural view of an overall leveling device for highway road construction according to an embodiment of the present application;

FIG. 2 is an enlarged schematic view of section A of FIG. 1;

fig. 3 is a partial structural schematic view of a leveling device for highway road construction according to an embodiment of the present application.

Reference numerals are as follows: 1. a handle; 11. a hand-held lever; 12. a connecting rod; 2. a damping mechanism; 21. a shock-absorbing box; 211. an adjustment groove; 22. a sliding plate; 23. a damping spring; 3. a vibration leveling mechanism; 31. vibrating the flat plate; 311. a straight section; 312. an arc-shaped section; 32. a vibrating assembly; 321. a vibration motor; 4. a sleeve; 41. anti-skid lines; 5. a shock-absorbing ring; 6. a shield.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses highway construction is with shaking flat device.

Referring to fig. 1, 2 and 3, a leveling device for road construction includes a handle 1, a damping mechanism 2 and a leveling mechanism 3 for leveling a concrete surface; the damper mechanism 2 includes a damper box 21, a slide plate 22, and a plurality of damper springs 23; the damping box 21 is connected with the vibrating mechanism 3, the sliding plate 22 is positioned in the inner cavity of the damping box 21, and the sliding plate 22 is connected with the inner side wall of the damping box 21 in a sliding manner.

Referring to fig. 3, a plurality of damping springs 23 are distributed along the length direction of the sliding plate 22, one end of each damping spring 23 is welded to the bottom wall of the sliding plate 22, and one side of each damping spring 23, which is far away from the bottom wall of the sliding plate 22, is connected with the leveling mechanism 3; in this embodiment, the number of the damping springs 23 is three, the three damping springs 23 are uniformly distributed along the length direction of the sliding plate 22, and the axial direction of the damping springs 23 is perpendicular to the plane of the sliding plate 22.

Referring to fig. 1, the handle 1 is connected with the top wall of the sliding plate 22 through the extension section of the top wall of the damping box 21, and the handle 1 is movably connected with the damping box 21; the handle 1 comprises a handheld rod 11 and two connecting rods 12, the axial direction of the handheld rod 11 is parallel to the length direction of the sliding plate 22, the two connecting rods 12 are respectively located on two opposite sides of the handheld rod 11, and two ends of the handheld rod 11 are respectively welded with connecting sections of the two connecting rods 12.

Referring to fig. 3, the vertical section of the connecting rod 12 is hinged to the top wall of the sliding plate 22, the plane of the rotating direction of the connecting rod 12 is perpendicular to the length direction of the sliding plate 22, two adjusting slots 211 for allowing the vertical sections of the two connecting rods 12 to move are disposed on the top wall of the damping box 21, the two adjusting slots 211 are distributed along the length direction of the damping box 21, and the length direction of the adjusting slots 211 is parallel to the plane of the rotating direction of the connecting rod 12.

Referring to fig. 1 and 2, in order to further reduce the vibration felt by the worker, a sleeve 4 is sleeved on a handheld rod 11, a plurality of damping rings 5 are arranged between the sleeve 4 and the handheld rod 11, the damping rings 5 are distributed along the length direction of the sleeve 4, the damping rings 5 are sleeved on the handheld rod 11, the damping rings 5 are bonded with the inner side wall of the sleeve 4, and one side of the damping ring 5, which is far away from the sleeve 4, is abutted against the handheld rod 11; in this embodiment, the number of the damping rings 5 is three, the three damping rings 5 are uniformly distributed along the length direction of the sleeve 4, and the damping rings 5 are made of rubber.

Referring to fig. 2, in order to improve the holding stability of the sleeve by the worker, a plurality of anti-slip threads 41 are integrally connected to the outer side of the sleeve 4; the number of the anti-slip patterns 41 in this embodiment is eight, the eight anti-slip patterns 41 are uniformly distributed along the circumferential direction of the sleeve 4, and the length direction of the anti-slip patterns 41 is parallel to the length direction of the sleeve 4.

Referring to fig. 1 and 3, the shake-out mechanism 3 includes a shake-out plate 31 and a vibration assembly 32 for driving the shake-out plate 31 to vibrate, the shake-out plate 31 is used for scraping off the concrete surface, and the top wall of the shake-out plate 31 is connected with the damping box 21; the vibration plate 31 comprises a straight section 311 and an arc section 312, the plane of the straight section 311 is parallel to the plane of the sliding plate 22, the length direction of the straight section 311 is parallel to the length direction of the sliding plate 22, the damping box 21 is welded with the top wall of the straight section 311, and the damping box 21 is arranged near the middle position of the straight section 311 in the length direction; the length direction of arc section 312 and the length direction parallel arrangement of straight section 311, arc section 312 is close to handheld pole 11 one side and sets up, and arc section 312 welds with straight section 311, and arc section 312 is by being close to straight section 311 one side to being close to handheld pole 11 one side from low to high slope setting.

Referring to fig. 1 and 3, the vibration assembly 32 includes two vibration motors 321, the two vibration motors 321 are respectively located at two opposite sides of the damping box 21, the two vibration motors 321 are distributed along the length direction of the straight section 311, and the base of the vibration motor 321 is connected with the top wall of the straight section 311 by a bolt; in order to prevent the concrete from sputtering the vibration motor 321 during the vibration leveling operation, two protection covers 6 are connected to the straight section 311 through bolts, and the two protection covers 6 are respectively covered on the peripheries of the two vibration motors 321.

The implementation principle of a highway is levelled with shaking device for road construction of this application embodiment does: external power supply provides the electric energy for vibrating motor 321 work, vibrating motor 321 drives straight section 311 vibration, straight section 311 drives segmental arc 312 vibration, straight section 311 shakes the concrete top layer flat to the concrete application of force, the staff is to sleeve 4 application of force, sleeve 4 is to the 5 application of force of shock attenuation ring, shock attenuation ring 5 is to the 11 application of force of handheld pole, handheld pole 11 is to connecting rod 12 application of force, connecting rod 12 is articulated with sliding plate 22, connecting rod 12 drives the motion of sliding plate 22, sliding plate 22 passes through damping spring 23 and shock attenuation box 21 to straight section 311 application of force, make straight section 311 along the concrete top layer motion, shake flat operation on the concrete top layer.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A vibration leveling device for highway road construction is characterized by comprising a handle (1), a damping mechanism (2) and a vibration leveling mechanism (3) for vibrating a concrete surface layer;

the damping mechanism (2) comprises a damping box (21), a sliding plate (22) and a plurality of damping springs (23);

the shock absorption box (21) is connected with the vibration leveling mechanism (3), the sliding plate (22) is positioned in an inner cavity of the shock absorption box (21), and the sliding plate (22) is connected with the shock absorption box (21) in a sliding manner;

the damping springs (23) are distributed along the length direction of the sliding plate (22), one end of each damping spring (23) is connected with the bottom wall of the sliding plate (22), and the other end of each damping spring (23) is connected with the vibrating and leveling mechanism (3);

the handle (1) penetrates through the extension section of the top wall of the shock absorption box (21) to be connected with the top wall of the sliding plate (22), and the handle (1) is movably connected with the shock absorption box (21).

2. The device for levelling off for road construction according to claim 1, characterized in that the handle (1) comprises a hand-held lever (11) and two connecting rods (12);

the two connecting rods (12) are respectively positioned at two opposite sides of the handheld rod (11), and the connecting rods (12) are connected with the handheld rod (11);

the vertical section of the connecting rod (12) is rotationally connected with the top wall of the sliding plate (22);

two adjusting grooves (211) used for allowing the connecting rod (12) to move are formed in the top wall of the shock absorption box (21), the length direction of each adjusting groove (211) is perpendicular to the length direction of the corresponding sliding plate (22), and the length direction of each adjusting groove (211) is parallel to the plane of the rotating direction of the corresponding connecting rod (12).

3. The vibration leveling device for the road construction according to claim 2, wherein a sleeve (4) is sleeved on the handheld rod (11), a plurality of damping rings (5) are arranged between the sleeve (4) and the handheld rod (11), the plurality of damping rings (5) are distributed along the length direction of the sleeve (4), the damping rings (5) are sleeved on the handheld rod (11), and the damping rings (5) are connected with the inner side wall of the sleeve (4).

4. The device for levelling off for road construction according to claim 3, characterized in that a plurality of non-slip threads (41) are attached to the outside of the sleeve (4).

5. The vibration leveling device for road construction according to claim 2, wherein the vibration leveling mechanism (3) comprises a vibration leveling plate (31) and a vibration assembly (32) for driving the vibration leveling plate (31) to vibrate;

the vibration plate (31) is used for scraping the concrete surface layer, and the vibration plate (31) is connected with the damping box (21).

6. The vibration leveling device for road construction according to claim 5, wherein the vibration leveling plate (31) comprises a straight section (311) and an arc-shaped section (312);

the length direction of segmental arc (312) with the length direction parallel arrangement of straight section (311), segmental arc (312) with straight section (311) are connected, segmental arc (312) are close to handheld pole (11) one side and set up, just segmental arc (312) by being close to straight section (311) one side is extremely close to handheld pole (11) one side is by low to high slope setting.

7. The device for leveling by vibration according to claim 5, wherein the vibration assembly (32) comprises two vibration motors (321), the two vibration motors (321) are positioned at two opposite sides of the shock absorption box (21), and the base of the vibration motor (321) is connected with the top wall of the vibration plate (31).

8. The device for leveling by vibration according to claim 7, wherein two protective covers (6) are connected to the vibration plate (31), and the two vibration motors (321) are respectively located in the inner cavities of the two protective covers (6).

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