CN218319774U - Mining machinery belt swift current puts car - Google Patents

Abstract

A mining machinery belt sliding vehicle relates to the field of mining machinery devices, and comprises a clamping part, a profile frame, a balance beam and a traction hoist, wherein the clamping part comprises an upper layer of clamp, a lower layer of clamp and a penetrating screw jack, each clamp is prevented by two I-shaped steels in parallel, and steel plates are welded outside an upper flange and a lower flange; the penetrating screw jack penetrates through the two clamps to connect the two clamps, a crack is reserved between the two clamps, the section frame is provided with wheels, the clamping part is arranged in the middle of the section frame, and the balance beam and the traction hoist are connected by a chain. The conveying belt coil is unfolded, installed and laid by the aid of the sliding trolley which moves forwards in a sliding mode, traditional manual dragging is replaced, and labor is saved; and because the chute car advances on the footpath of conveyer belt support both sides, can ensure that the belt can not be cheap in the position of chute in-process, provide the installation operating efficiency.

Description

Mining machinery belt swift current puts car

Technical Field

The utility model relates to a mining machinery device field specifically is a swift current of mining machinery transportation belt is put car.

Background

When mine carries out transportation mineral production, all can use mechanical conveyer, utilizes the conveyer belt to convey the mineral production to other places and continue processing, and conveyer generally includes conveyer belt, conveyer belt support and the pavement of support both sides, installs earlier usually and accomplishes the conveyer support, lays conveyer belt again. Transport belt not installed is the belt roll usually, need expand it and lay on transportation support, however this transport belt is bulky, the quality is heavy, if use traditional manpower to pull not only waste time and energy, pull the in-process and also make the belt position skew easily, increase the degree of difficulty of laying the operation.

Disclosure of Invention

For the efficiency of the operation of laying of improvement belt, the utility model provides a mining machinery belt swift current puts car.

A mining machinery belt sliding vehicle is characterized by comprising a clamping part, a profile frame, a balance beam and a traction hoist;

the clamping component consists of an upper layer clamp, a lower layer clamp and a penetrating screw jack, the upper layer clamp and the lower layer clamp are consistent in structure and both consist of I-shaped steel and steel plates, the two I-shaped steel are arranged in parallel, the upper flange and the lower flange of the two I-shaped steel are parallel, and the steel plates are welded outside the upper flange and the lower flange of the I-shaped steel; through holes are formed in two sides of each clamp, the distance between the through holes is larger than the width of a belt to be transported, the two clamps are arranged in a vertically opposite mode, the penetrating screw jacks penetrate through the through holes in the two clamps to connect the two clamps, and a gap is reserved between the two clamps;

the section bar frame is composed of a frame, frame legs, reinforcing rib plates and wheels, wherein the frame is rectangular, the frame legs are vertically welded at the bottoms of four corners of the frame, the reinforcing rib plates are used for reinforcing the joints of the frame legs, the wheels are installed at the bottoms of the frame legs, and the rotation direction of the wheels is consistent with the transportation direction of the transportation device;

arranging H-shaped steel on two sides of a section frame, wherein the H-shaped steel is parallel to the conveying direction of a mechanical conveying belt, and two ends of the H-shaped steel are welded on frame legs; square columns are welded at two ends of the upper-layer fixture, the square columns are parallel to the upper-layer fixture and located on the same plane, and two ends of each square column are fixed in the middle of the H-shaped steel.

And respectively welding plates in the I-shaped steel at the same side of the upper-layer clamp and the lower-layer clamp, forming hanging holes in the plates, hanging one ends of the chains in corresponding quantity in the hanging holes, concentrating the other ends of the chains to converge on the balance beam, and connecting the traction hoist through the balance beam.

The number of the plates is two, and the two plates are respectively arranged at the middle line positions of the upper clamp and the lower clamp.

The number of the plates is four or six, and the plates are symmetrically arranged on two sides of the upper-layer clamp and the lower-layer clamp.

The square column is fixed on the H-shaped steel in a bolt fixing or welding mode.

And the wheels are provided with brake devices.

The width of the frame is matched with the distance between footpaths at two sides of the conveyer belt bracket.

The beneficial effects of the utility model are that: the conveying belt coil is unfolded, installed and laid by utilizing the sliding forward movement of the sliding vehicle, the traditional manual dragging is replaced, and the labor is saved; and because the sliding vehicle advances on the footpaths at two sides of the conveyor belt bracket, the position of the belt can not be cheap in the sliding process, and the installation operation efficiency is improved.

Drawings

FIG. 1 is a side view of example 1;

FIG. 2 is a front view of embodiment 1;

FIG. 3 is a schematic view of a clamping member;

the steel plate material lifting device comprises a clamping component 1, an upper clamp 11, a lower clamp 12, a penetrating screw jack 13, a profile frame 2, a frame 21, a frame 22, a frame leg 23, a reinforcing rib plate 3, a wheel 4, H-shaped steel 5, a square column 6, a plate 7, a chain 7, a balance beam 8 and a traction hoist 9.

Detailed Description

Example 1: in the process of mining copper ores, a mining machine transmission belt needs to be installed, a belt needs to be laid after the transmission belt support is built, and a mining machine belt slipping vehicle needs to be used for unfolding a belt roll and transporting the belt roll to move forward for laying.

A mining machinery belt sliding vehicle comprises a clamping part 1, a section frame 2, a balance beam 8 and a traction hoist 9;

the clamping component 1 comprises an upper layer clamp 11, a lower layer clamp 12 and a penetrating screw jack 13, wherein the upper layer clamp 11 and the lower layer clamp 12 are consistent in structure and are both composed of I-shaped steel and steel plates, the two I-shaped steel are arranged in parallel, the upper flange and the lower flange of the two I-shaped steel are parallel, and one steel plate is welded outside the upper flange and the lower flange of the I-shaped steel; through holes are formed in two sides of the clamps, the distance between the through holes is larger than the width of a belt to be transported, the two clamps are arranged in a vertically opposite mode, the penetrating screw jacks 13 penetrate through the through holes in the two clamps to connect the two clamps, and a crack is reserved between the two clamps;

the section frame 2 is composed of a frame 21, frame legs 22, reinforcing rib plates 23 and wheels 3, wherein the frame 21 is rectangular, the width of the frame 21 is 3000mm, the frame legs are consistent with the space between footpaths on two sides of a transportation support, the frame legs 22 are vertically welded at the bottoms of four corners of the frame 21, the reinforcing rib plates 23 are welded at the joints for reinforcement, the wheels 3 are installed at the bottoms of the frame legs 22, the rotation direction of the wheels 3 is consistent with the transportation direction of a transportation device, and brake devices are arranged on the wheels;

h-shaped steel 4 is arranged on two sides of the section frame 2, the conveying direction of the H-shaped steel 4 is parallel to that of the mechanical conveying belt, and two ends of the H-shaped steel 4 are welded on the frame legs 22; the square columns 5 are welded at the two ends of the upper-layer clamp 11, the square columns 5 are parallel to the upper-layer clamp 11 and located on the same plane, and the two ends of each square column 5 are welded at the middle point of the top of the H-shaped steel 4.

Two plates 6 are welded in the I-steel on the same side of the upper-layer clamp 11 and the lower-layer clamp 12 respectively, the plates 6 are symmetrically distributed along the center lines of the upper-layer clamp 11 and the lower-layer clamp 12, and four plates 6 are arranged. The plate 6 is provided with hanging holes, one ends of four chains 7 are hung in the hanging holes, the other ends of the four chains are gathered on the balance beam 8, and the balance beam 8 is connected to a traction hoist 9.

During the use, earlier prevent the swift current and put the car on mechanical transportation device's pavement, pass the crack in the middle of upper anchor clamps 11 and lower floor's anchor clamps 12 on centre gripping part 1 with the belt end, through adjusting the nut of penetrating screw jack 13 lower extreme, make lower floor's anchor clamps 12 shift up gradually and press from both sides tight belt, open the brake equipment on wheel 3 after, use and pull 9 pulling devices of calabash and slide forward to the pulling belt advances, can lay the operation after the belt is dragged corresponding position.

Claims (6)

1. A mining machinery belt sliding vehicle is characterized by comprising a clamping part, a profile frame, a balance beam and a traction hoist;

the clamping component consists of an upper layer clamp, a lower layer clamp and a through screw jack, the upper layer clamp and the lower layer clamp are consistent in structure and both consist of I-shaped steel and steel plates, the two I-shaped steel are arranged in parallel, so that the upper flange and the lower flange of the two I-shaped steel are parallel, and the steel plates are welded outside the upper flange and the lower flange of the I-shaped steel; through holes are formed in two sides of each clamp, the distance between the through holes is larger than the width of a belt to be transported, the two clamps are arranged in a vertically opposite mode, the penetrating screw jacks penetrate through the through holes in the two clamps to connect the two clamps, and a gap is reserved between the two clamps;

the section bar frame is composed of a frame, frame legs, reinforcing rib plates and wheels, wherein the frame is rectangular, the frame legs are vertically welded at the bottoms of four corners of the frame, the reinforcing rib plates are used for reinforcing the joints of the frame legs, the wheels are installed at the bottoms of the frame legs, and the rotation direction of the wheels is consistent with the transportation direction of the transportation device;

arranging H-shaped steel on two sides of a section frame, wherein the H-shaped steel is parallel to the conveying direction of a mechanical conveying belt, and two ends of the H-shaped steel are welded on frame legs; square columns are welded at two ends of the upper layer fixture, the square columns are parallel to the upper layer fixture and are positioned on the same plane, two ends of each square column are fixed at the middle point of the top of the H-shaped steel,

plates are welded in the I-shaped steel on the same side of the upper-layer clamp and the lower-layer clamp respectively, hanging holes are formed in the plates, one ends of the chains in corresponding quantity are hung in the hanging holes, the other ends of the chains are gathered on the balance beam, and the balance beam is connected with the traction hoist.

2. The mining machine belt chute as in claim 1 wherein the number of sheets is two and the sheets are respectively disposed at the center line of the upper and lower clamps.

3. The mining machine belt chute as in claim 1 wherein the number of sheets is four or six and symmetrically disposed on both sides of the upper and lower clamps.

4. The mining machine belt scraper loader of claim 1, wherein the square column is fixed to the H-shaped steel by bolting or welding.

5. The mining machine belt scraper loader of claim 1, wherein the wheels are provided with braking devices.

6. The mining machine belt scraper according to claim 1, wherein the width of the frame is adapted to the track pitch on both sides of the conveyor belt support.

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