CN215513110U - Mining antistatic tire capable of automatically arranging stones between wheel seams - Google Patents

Abstract

The utility model relates to the technical field of tires, in particular to a mining antistatic tire capable of clamping stones between self-arranging wheel seams, which comprises a tire body, wherein the outer surface of the tire body is provided with a tire groove for increasing friction force, the center of the tire body is provided with a connecting part connected with a vehicle wheel shaft, two sides of the connecting part are provided with rotating disks with holes, the width of the tire groove is half of the width of the tire body, the tire groove is distributed at two sides of the tire body in a staggered way, one side of the tire body corresponding to the tire groove is provided with an installation hole, a stone removing block is arranged in the installation hole, the stone removing block is fixedly connected with the inner wall of the installation hole through a spring, the bottom of the tire groove and the side wall of the tire body are provided with sliding grooves, connecting cables are arranged in the sliding grooves, one end of each connecting cable is fixedly connected with the bottom of the stone removing block, and the other end of each connecting cable is fixedly connected with the rotating disk, the purpose of cleaning stones in the tire groove along with the vehicle is achieved.

Description

Mining antistatic tire capable of automatically arranging stones between wheel seams

Technical Field

The utility model relates to the technical field of tires, in particular to a mining antistatic tire capable of clamping stones between self-arranging wheel seams.

Background

At present, with the improvement of the loading requirement of automobiles, more and more freight vehicles adopt double-row wheels, such as engineering machinery vehicles, mine transport vehicles, construction engineering vehicles and the like, in order to improve the support property and the stability, the double-row wheels are arranged in front or behind the freight vehicles, because the road condition on the use site is rugged and more gravels are broken, and by combining the structure of the double tires, wider sunken gaps are easily formed at the splicing joints of the tires, a large amount of stones are mixed on the road while the road is rugged in the construction site, the cracks of the double tires are easily rolled to the stones during the running process, the stones are clamped on the double tires, the severe abrasion of the tires is caused, the stable running of the trucks is influenced, and the tires are extruded during the running process, so that the tires are burst, and safety accidents are caused.

Chinese patent CN210822166U discloses a patent with the name of stone clamping preventing mechanism between two wheels of engineering vehicle, which has the technical key points that: a stone clamping preventing mechanism between double-row wheel wheels of an engineering vehicle comprises a fixing seat, a screw hole, a connecting lug, an adjusting cap, a roller, a stone discharging rod, a rubber sleeve, a limiting rod, a bolt, a supporting frame, a hinged shaft and a torsion spring, wherein a group of fixing lugs are vertically arranged on the bottom surface of the fixing seat, the two fixing lugs are parallel to each other, the fixing seat is provided with a plurality of screw holes, the screw holes penetrate through the fixing seat, the stone discharging rod is suspended on the connecting lug through the hinged shaft, one end of the hinged shaft is provided with the adjusting cap, the other end of the hinged shaft is sleeved with the torsion spring, one end of the torsion spring is fixedly arranged on the connecting lug, the other end of the torsion spring is connected and arranged on the stone discharging rod, the inner side of the stone discharging rod is provided with a row of rollers, the supporting frame is arranged at the bottom of the fixing seat, one end of the limiting rod is arranged on the supporting frame through the bolt, the other end of the limiting rod is attached to the outer arc surface of the stone discharging rod through the rubber sleeve and can be arranged on a tire, so as to prevent the problem of stone clamping between the tire and the tire at any time, but the stones in the tyre cannot be cleaned on the vehicle.

SUMMERY OF THE UTILITY MODEL

The utility model provides an antistatic tire for a mine, which can automatically arrange stones between wheel seams, aiming at the problem that stones clamped in tire threads cannot be cleaned along with a vehicle.

In order to solve the technical problem, the utility model is solved by the following technical scheme:

the utility model provides a can be from arranging mining antistatic tire of wheel crack interlayer stone, including the matrix, the surface of matrix is provided with the child line groove that increases frictional force, matrix center department is provided with the connecting portion of being connected with vehicle wheel axle, the both sides of connecting portion are provided with foraminiferous rotary disk, the width in child line groove is half of matrix width, the crisscross both sides at the matrix that distribute in child line groove, one side that the matrix corresponds child line groove is provided with the mounting hole, be provided with row stone in the mounting hole, arrange the inner wall fixed connection that stone piece passes through spring and mounting hole, the bottom in child line groove and the lateral wall of matrix all are provided with the spout, be provided with the connecting cable in the spout, the one end of connecting cable and the bottom fixed connection who arranges the stone piece, the other end and rotary disk fixed connection.

Preferably, the hole shape of the mounting hole is set to be trapezoidal.

Preferably, one side of the stone discharging block, which is close to the spring, extends outwards to form a limiting plate, and a stop ring capable of limiting the limiting plate in the mounting hole is arranged at the opening of the mounting hole.

Preferably, the connecting cable is a steel cable, has rigidity and flexibility, and ensures the connecting strength.

Preferably, the height that the stone discharging block is close to the one end of the tyre groove is less than the height that the stone discharging block is far away from the one end of the tyre groove, so that the stone discharging is more convenient and effective.

Preferably, the holes of the rotating disc are hexagonal, so that the rotating disc can be rotated conveniently to discharge the clamped stones.

Preferably, an antistatic conductive yarn is wound inside the connecting cable to prevent static electricity from invading the tire and causing accidents.

Due to the adoption of the technical scheme, the utility model has the remarkable technical effects that:

according to the utility model, the stone removing block, the rotating disk and the connecting cable are additionally arranged on the original mining tire, the connecting cable connects the stone removing block with the rotating disk, the connecting cable is pulled when the rotating disk rotates, and the stone removing block is moved through the connecting cable, so that the clamped stones in the tire groove are discharged.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention.

Fig. 2 is a front view of embodiment 1 of the present invention.

Fig. 3 is a schematic cross-sectional view a-a of fig. 2.

The names of the parts indicated by the numerical references in the drawings are as follows: the tire comprises a tire body 1, a tire groove 2, a connecting part 3, a rotating disc 4, a mounting hole 5, a row of stones 6, a spring 7, a sliding groove 8, a connecting cable 9, a limiting plate 10 and a retaining ring 11.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

As shown in figures 1 to 3, the mining antistatic tire capable of clamping stones between wheel seams in a self-arranging manner comprises a tire body 1, tire groove 2 for increasing friction force is arranged on the outer surface of the tire body 1, a connecting part 3 connected with a vehicle wheel shaft is arranged at the center of the tire body 1, rotating disks 4 with holes are arranged on two sides of the connecting part 3, the width of the tire groove 2 is half of the width of the tire body 1, the tire groove 2 is distributed on two sides of the tire body 1 in a staggered manner, an installation hole 5 is arranged on one side of the tire body 1 corresponding to the tire groove 2, the hole shape of the installation hole 5 is trapezoidal, stone removing blocks 6 with the same shape as the hole shape of the installation hole 5 are arranged in the installation hole 5, the stone removing blocks 6 are fixedly connected with the inner wall of the installation hole 5 through springs 7, sliding grooves 8 are arranged at the bottom of the tire groove 2 and the side wall of the tire body 1, a connecting cable 9 is arranged in the sliding grooves 8, the connecting cable 9 is arranged as a steel cable, one end of the connecting cable 9 is fixedly connected with the bottom of the stone removing blocks 6, the other end is fixedly connected with the rotating disc 4.

Wherein, the stone discharging block 6 is close to one side of the spring 7 and extends outwards to form a limiting plate 10, a stop ring 11 capable of limiting the limiting plate 10 in the mounting hole 5 is arranged at the orifice of the mounting hole 5, and the material of the stone discharging block 6 is consistent with that of the tire body 1.

In addition, the connecting cable 9 is wound with antistatic conductive yarn to prevent static from invading the tire and causing accidents.

When the device is used, a rotary power supply device (not shown) is arranged inside the rotary disk 4 to supply power to the rotary disk 4, when the rotary disk 4 rotates, the connecting cable 9 fixed on the rotary disk 4 can be pulled, because the connecting cable 9 is soft and is a flexible cable, the connecting cable 9 positioned in the sliding groove 8 cannot slide away from the sliding groove 8, one end close to the rotary disk 4 can be straightened along with the rotary disk 4, after straightening, the other end of the connecting cable 9 can pull the discharged stone blocks 6 out of the mounting hole 5, the clamped stone blocks can be discharged as long as the displacement of the discharged stone blocks 6 is enough, the other side of the discharged stone blocks 6 is provided with the spring 7, the spring 7 is fixedly connected with the inner wall of the mounting hole 5, when the clamped stone blocks are discharged, the power supply to the rotary disk 4 is cancelled, and the spring 7 can pull back the clamped stone blocks, so that the connecting cable 9 and the rotary disk 4 return.

The rotary power supply device can be a screwdriver-shaped device, and a rotary motor can be arranged at the center of the rotary disk 4 and drives the rotary disk 4 through the rotary motor.

Example 2

This embodiment is different from embodiment 1 in that: the holes of the rotating disc 4 are arranged hexagonal.

Example 3

This embodiment is different from embodiment 1 in that: the height of the stone expulsion block 6 at the end close to the thread groove 2 is less than the height of the stone expulsion block 6 at the end far from the thread groove 2.

Claims (7)

1. The utility model provides a can arrange mining antistatic tire of wheel seam intervalve stone certainly, includes matrix (1), and the surface of matrix (1) is provided with child line groove (2) that increase frictional force, and matrix (1) center department is provided with connecting portion (3) of being connected with the vehicle wheel axle, and the both sides of connecting portion (3) are provided with foraminiferous rotary disk (4), its characterized in that: the width of child line groove (2) is half of matrix (1) width, the crisscross distribution in both sides of matrix (1) of child line groove (2), one side that matrix (1) corresponds child line groove (2) is provided with mounting hole (5), be provided with in mounting hole (5) and arrange stone (6), arrange stone (6) inner wall fixed connection through spring (7) and mounting hole (5), the bottom of child line groove (2) and the lateral wall of matrix (1) all are provided with spout (8), be provided with in spout (8) connecting cable (9), the one end of connecting cable (9) and the bottom fixed connection of arranging stone (6), the other end and rotary disk (4) fixed connection.

2. The mining antistatic tire capable of clamping stones between the wheel gaps in the self-arranging manner according to claim 1, is characterized in that: the hole shape of the mounting hole (5) is trapezoidal.

3. The mining antistatic tire capable of clamping stones between the wheel gaps in the self-arranging manner according to claim 1, is characterized in that: one side of the stone discharging block (6) close to the spring (7) extends outwards to form a limiting plate (10), and a blocking ring (11) capable of limiting the limiting plate (10) in the mounting hole (5) is arranged at the orifice of the mounting hole (5).

4. The mining antistatic tire capable of clamping stones between the wheel gaps in the self-arranging manner according to claim 1, is characterized in that: the connecting cable (9) is a steel cable.

5. The mining antistatic tire capable of clamping stones between the wheel gaps in the self-arranging manner according to claim 1, is characterized in that: the height of one end of the stone discharging block (6) close to the tire groove (2) is smaller than the height of one end of the stone discharging block (6) far away from the tire groove (2).

6. The mining antistatic tire capable of clamping stones between the wheel gaps in the self-arranging manner according to claim 1, is characterized in that: the holes of the rotating disc (4) are arranged in a hexagon shape.

7. The mining antistatic tire capable of clamping stones between the wheel gaps in the self-arranging manner according to claim 1, is characterized in that: the connecting cable (9) is internally wound with antistatic conductive yarn.

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