CN220317220U - Endless rope continuous traction winch tail wheel fixing device - Google Patents

Abstract

The tail wheel fixing device of the endless rope continuous traction winch is characterized in that a first small pull rod circular ring is arranged at the top end of a pull rod I, a first large pull rod circular ring is arranged at the bottom end of the pull rod I, and the first small pull rod circular ring and the first large pull rod circular ring are arranged on the same horizontal plane; the top end of the pull rod II is provided with a second small pull rod ring, the bottom end of the pull rod II is provided with a second large pull rod ring, and the second small pull rod ring and the second large pull rod ring are arranged on mutually perpendicular planes; the beam I and the beam II are I-steel; the cross beam II is perpendicular to the endless rope continuous traction winch track, and the cross beams I are parallel to the endless rope continuous traction winch track, are perpendicular to the cross beam I and are arranged at the lower end of the cross beam II; the first large pull rod circular ring is sleeved with a beam I, and the second large pull rod circular ring is sleeved with a beam II; the first small pull rod ring and the second small pull rod ring are respectively connected with a steel wire rope and a rope clamp. The pull rod is stressed to form a stable triangle, so that the safety of large equipment is ensured, and the transportation efficiency is improved.

Description

Endless rope continuous traction winch tail wheel fixing device

Technical Field

The utility model relates to the technical field of coal mine rail transportation, in particular to a tail wheel fixing device of an endless rope continuous traction winch.

Background

The endless rope continuous traction winch is a common rail transportation device which is towed by a steel wire rope in a coal mine underground crossheading and is used for transporting equipment materials such as the working face crossheading and the like under the working conditions of long distance, large inclination angle, multiple slope changes and large tonnage. The endless rope continuously pulls the winch tail wheel to be fixed at the terminal of the distance of transportation, bears the reaction force of the whole system operation, and meanwhile, the endless rope can be conveniently moved along with the propulsion of the working surface, so that the transportation at different distances can be realized. The prior art needs to irrigate the cement foundation in order to fix endless rope and pull the winch tail pulley continuously, and the fixed mode of the prior art is: and 4M 20 x 2800 anchor rods are injected into the roadway floor, and two phi 18 x 64mm round-link chains or steel wire ropes with the diameters not smaller than 18.5mm are adopted to firmly connect the tail wheels with the 4 ground anchors. However, the fixing mode is not suitable for equipment for transporting large pieces by using endless rope continuous traction winches, such as a hydraulic support, a reversed loader and the like, and is not suitable for people to fix tail wheels of the endless rope continuous traction winches.

Therefore, an endless rope continuous traction winch tail wheel fixing device is hoped to solve the problems in the prior art.

Disclosure of Invention

First, the technical problem to be solved

In view of the defects and shortcomings of the prior art, the utility model provides a tail wheel fixing device of an endless rope continuous traction winch, which solves the safety problems when the endless rope continuous traction winch transports large pieces of equipment in production practice.

(II) technical scheme

In order to achieve the above purpose, the endless rope continuous traction winch tail wheel fixing device adopted by the utility model comprises: the device comprises an endless rope tail wheel foundation pit, a pull rod I, a pull rod II, a cross beam I, a cross beam II, a steel wire rope and a rope clip, wherein the endless rope tail wheel foundation pit is dug and arranged in a working face gateway; the whole pull rod I is made of round steel, a first small pull rod ring is arranged at the top end of the pull rod I, a first large pull rod ring is arranged at the bottom end of the pull rod I, the first small pull rod ring and the first large pull rod ring are arranged on the same horizontal plane, and the number of the pull rods I is two; the whole of the pull rod II is made of round steel, a second small pull rod ring is arranged at the top end of the pull rod II, a second large pull rod ring is arranged at the bottom end of the pull rod II, the second small pull rod ring and the second large pull rod ring are arranged on mutually perpendicular planes, and the pull rod II is provided with one pull rod; the cross beam I is I-steel and is provided with two cross beams; the beam II is I-steel and is provided with one beam; the cross beam II is perpendicular to the endless rope continuous traction winch track and is arranged in the endless rope tail wheel foundation pit; the transverse beams I are parallel to endless rope continuous traction winch tracks at intervals of 300mm and are arranged in an endless rope tail wheel foundation pit, and the transverse beams II are perpendicular to the transverse beams I and are arranged at the lower ends of the transverse beams I; the first large pull rod circular ring of the pull rod I is sleeved with the cross beam I and is arranged in the middle of the cross beam I, and the second large pull rod circular ring of the pull rod II is sleeved with the cross beam II and is arranged in the middle of the cross beam II; c20 concrete is poured into the foundation pit of the endless rope tail wheel; the second small pull rod circular ring of the pull rod II and the track center line are positioned on the same plane, the first small pull rod circular ring of the pull rod I and the second small pull rod circular ring of the pull rod II form a triangular stress structure, and the first small pull rod circular ring of the pull rod I and the second small pull rod circular ring of the pull rod II are respectively connected with the steel wire rope and the rope clamp and are connected with a tail wheel seat of the endless rope continuous traction winch.

According to the utility model, the cross beam is arranged on the large pull rod ring of the pull rods, so that the three pull rods are stressed to form a stable triangle, the safety of the pulling force of the tail wheel of the endless rope continuous traction winch is ensured, and the safety problem of the endless rope continuous traction winch in the actual production process of transporting large pieces of equipment is solved.

Preferably, the distance from the center of the first small pull rod ring of the pull rod I to the center of the first large pull rod ring is 1060mm.

Preferably, the distance from the center of the second small pull rod ring of the pull rod II to the center of the second large pull rod ring is 900mm.

Preferably, the inner diameter radius of the first small pull rod circular ring and the second small pull rod circular ring is R33mm, and the inner diameter radius of the first large pull rod circular ring and the second large pull rod circular ring is R80mm.

Preferably, the cross beam I is 11-numbered mining I-steel, and the length of the cross beam I is 1600mm; the cross beam II is 11-number mining I-steel, and the length of the cross beam II is 900mm.

Preferably, the length, width and height of the foundation pit of the endless rope tail wheel are respectively as follows: 2000mm long, 1100mm wide and 1200mm high.

Preferably, the distance between the center of the second large pull rod ring of the pull rod II and the foundation pit of the endless rope tail wheel is 600mm, and the distance between the center of the first large pull rod ring of the pull rod I and the foundation pit of the endless rope tail wheel is 1000mm.

Preferably, the length of the first large pull rod circular bending part of the pull rod I is 120mm, the length of the first small pull rod circular bending part of the pull rod I is 160mm, and the first small pull rod circular bending part of the pull rod I are fixed in a welding mode.

Preferably, the length of the second large pull rod circular bending part of the pull rod II is 120mm, the length of the second small pull rod circular bending part of the pull rod II is 160mm, and the second small pull rod circular bending part of the pull rod II is fixed with the pull rod II in a welding mode.

(III) beneficial effects

According to the utility model, the cross beam I is arranged in the first large pull rod ring of the pull rod I, and the cross beam II is arranged in the second large pull rod ring of the pull rod II, so that the three pull rods are stressed to form a stable triangle, the safety of the continuous traction winch tail wheel pulling force of the endless rope is ensured, the safety and the like of the continuous traction winch transporting large equipment of the endless rope in actual production are solved, the safety of the continuous traction winch transporting large equipment of the endless rope is ensured, and the transporting efficiency of the large equipment is improved.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a tail wheel fixing device of an endless rope continuous traction winch;

FIG. 2 is a top view of the overall structure of the endless rope continuous traction winch tail wheel fixing device of the utility model;

FIG. 3 is a schematic drawing of a pull rod I structure of the endless rope continuous traction winch tail wheel fixing device;

FIG. 4 is a schematic drawing of a pull rod II structure of the endless rope continuous traction winch tail wheel fixing device;

FIG. 5 is a schematic diagram of a cross beam I of the endless rope continuous traction winch tail wheel fixing device;

FIG. 6 is a schematic diagram of a cross beam II structure of the endless rope continuous traction winch tail wheel fixing device;

fig. 7 is a schematic diagram of a continuous traction winch with endless ropes.

Detailed Description

The utility model will be better explained by the following detailed description of the embodiments with reference to the drawings.

In order that the above-described aspects may be better understood, exemplary embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present utility model are shown in the drawings, it should be understood that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.

The utility model will be described in detail with reference to fig. 1-7 of the accompanying drawings. The utility model discloses a tail wheel fixing device of a endless rope continuous traction winch, which comprises the following components: the device comprises an endless rope tail wheel foundation pit, a pull rod I1, a pull rod II 2, a cross beam I3, a cross beam II 4, a steel wire rope and a rope clip, wherein the endless rope tail wheel foundation pit is dug in a working face gateway; the whole pull rod I1 is made of round steel, a first small pull rod circular ring 1-1 is arranged at the top end of the pull rod I, a first large pull rod circular ring 1-2 is arranged at the bottom end of the pull rod I, the first small pull rod circular ring 1-1 and the first large pull rod circular ring 1-2 are arranged on the same horizontal plane, and the number of the pull rods I1 is two; the whole pull rod II 2 is made of round steel, a second small pull rod circular ring 2-1 is arranged at the top end of the pull rod II, a second large pull rod circular ring 2-2 is arranged at the bottom end of the pull rod II, the second small pull rod circular ring 2-1 and the second large pull rod circular ring 2-2 are arranged on mutually perpendicular planes, and the pull rod II 2 is provided with one pull rod; the cross beam I3 is I-steel and is provided with two cross beams; the beam II 4 is I-steel and is provided with one beam; the cross beam II 4 is perpendicular to the endless rope continuous traction winch track and is arranged in the endless rope tail wheel foundation pit; the cross beam I3 is parallel to endless rope continuous traction winch tracks at intervals of 300mm, is arranged in an endless rope tail wheel foundation pit, and the cross beam II 4 is perpendicular to the cross beam I3 and is arranged at the lower end of the cross beam I3; the first large pull rod circular ring 1-2 of the pull rod I1 is sleeved with the cross beam I3 and is arranged in the middle of the cross beam I3, and the second large pull rod circular ring 2-2 of the pull rod II 2 is sleeved with the cross beam II 4 and is arranged in the middle of the cross beam II 4; c20 concrete is poured into the foundation pit of the endless rope tail wheel; the second small pull rod circular ring 2-1 of the pull rod II 2 and the track center line are arranged on the same plane, the first small pull rod circular ring 1-1 of the pull rod I1 and the second small pull rod circular ring 2-1 of the pull rod II 2 form a triangular stress structure, and the first small pull rod circular ring 1-1 of the pull rod I1 and the second small pull rod circular ring 2-1 of the pull rod II 2 are respectively connected with the steel wire rope and the rope clamp and are connected with a tail wheel seat of the endless rope continuous traction winch.

The distance from the center of the first small pull rod circular ring 1-1 of the pull rod I1 to the center of the first large pull rod circular ring 1-2 is 1060mm.

The distance from the center of the second small pull rod circular ring 2-1 of the pull rod II 2 to the center of the second large pull rod circular ring 2-2 is 900mm.

The inner diameter radius of the first small pull rod circular ring 1-1 and the second small pull rod circular ring 2-1 is R33mm, and the inner diameter radius of the first large pull rod circular ring 1-2 and the second large pull rod circular ring 2-2 is R80mm.

The beam I3 is 11-number mining I-steel, and the length of the beam I3 is 1600mm; the cross beam II 4 is 11-number mining I-steel, and the length of the cross beam II is 900mm.

The length, width and height of the foundation pit of the electrodeless rope tail wheel are respectively as follows: 2000mm long, 1100mm wide and 1200mm high.

The distance between the center of the second large pull rod ring 2-2 of the pull rod II 2 and the base pit width of the endless rope tail wheel is 600mm, and the distance between the center of the first large pull rod ring 1-2 of the pull rod I1 and the base pit width of the endless rope tail wheel is 1000mm.

The length of the return bending part of the first large pull rod circular ring 1-2 of the pull rod I1 is 120mm, and the length of the return bending part of the first small pull rod circular ring 1-1 of the pull rod I1 is 160mm, and the first small pull rod circular ring 1-2 of the pull rod I1 is fixed with the pull rod I1 in a welding mode.

The length of the return bending part of the second large pull rod circular ring 2-2 of the pull rod II 2 is 120mm, and the length of the return bending part of the second small pull rod circular ring 2-1 of the pull rod II 2 is 160mm, and the second large pull rod circular ring 2-2 and the second small pull rod circular ring 2 are fixed with the pull rod II 2 in a welding mode.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, the present utility model should also include such modifications and variations provided that they come within the scope of the following claims and their equivalents.

Claims (10)

1. The utility model provides a endless rope pulls winch tailwheel fixing device in succession which characterized in that: comprising the following steps: the device comprises an endless rope tail wheel foundation pit, a pull rod I, a pull rod II, a cross beam I, a cross beam II, a steel wire rope and a rope clip, wherein the endless rope tail wheel foundation pit is dug and arranged in a working face gateway; the whole pull rod I is made of round steel, a first small pull rod ring is arranged at the top end of the pull rod I, a first large pull rod ring is arranged at the bottom end of the pull rod I, the first small pull rod ring and the first large pull rod ring are arranged on the same horizontal plane, and the number of the pull rods I is two; the whole of the pull rod II is made of round steel, a second small pull rod ring is arranged at the top end of the pull rod II, a second large pull rod ring is arranged at the bottom end of the pull rod II, the second small pull rod ring and the second large pull rod ring are arranged on mutually perpendicular planes, and the pull rod II is provided with one pull rod; the cross beam I is I-steel and is provided with two cross beams; the beam II is I-steel and is provided with one beam; the cross beam II is perpendicular to the endless rope continuous traction winch track and is arranged in the endless rope tail wheel foundation pit; the transverse beams I are arranged in the endless rope tail wheel foundation pit at intervals of 300mm and are parallel to endless rope continuous traction winch tracks, and the transverse beams II are perpendicular to the transverse beams I and are arranged at the lower ends of the transverse beams I.

2. The endless rope continuous traction winch tail wheel fixing device according to claim 1, wherein: the first large pull rod circular ring of the pull rod I is sleeved with the cross beam I and is arranged in the middle of the cross beam I, and the second large pull rod circular ring of the pull rod II is sleeved with the cross beam II and is arranged in the middle of the cross beam II; the second small pull rod circular ring of the pull rod II and the track center line are positioned on the same plane, the first small pull rod circular ring of the pull rod I and the second small pull rod circular ring of the pull rod II form a triangular stress structure, and the first small pull rod circular ring of the pull rod I and the second small pull rod circular ring of the pull rod II are respectively connected with the steel wire rope and the rope clamp and are connected with a tail wheel seat of the endless rope continuous traction winch.

3. The endless rope continuous traction winch tail wheel fixing device according to claim 2, wherein: the distance from the center of the first small pull rod circular ring to the center of the first large pull rod circular ring of the pull rod I is 1060mm.

4. A endless rope continuous haulage winch tail pulley fixing device according to claim 3, characterized in that: the distance from the center of the second small pull rod circular ring to the center of the second large pull rod circular ring of the pull rod II is 900mm.

5. The endless rope continuous traction winch tail wheel fixing device according to claim 4, wherein: the inner diameter radius of the first small pull rod circular ring and the second small pull rod circular ring is R33mm, and the inner diameter radius of the first large pull rod circular ring and the second large pull rod circular ring is R80mm.

6. The endless rope continuous traction winch tail wheel fixing device according to claim 5, wherein: the beam I is 11-number mining I-steel, and the length of the beam I is 1600mm; the cross beam II is 11-number mining I-steel, and the length of the cross beam II is 900mm.

7. The endless rope continuous haulage winch tail wheel fixing device according to claim 6, wherein: the length, width and height of the foundation pit of the electrodeless rope tail wheel are respectively as follows: 2000mm long, 1100mm wide and 1200mm high.

8. The endless rope continuous haulage winch tail wheel fixing device according to claim 7, wherein: the width distance between the center of the second large pull rod ring of the pull rod II and the foundation pit of the endless rope tail wheel is 600mm, and the width distance between the center of the first large pull rod ring of the pull rod I and the foundation pit of the endless rope tail wheel is 1000mm.

9. The endless rope continuous haulage winch tail wheel fixing device according to claim 8, wherein: the length of the first large pull rod circular ring bending part of the pull rod I is 120mm, the length of the first small pull rod circular ring bending part of the pull rod I is 160mm, and the first small pull rod circular ring bending part of the pull rod I is fixed with the pull rod I in a welding mode.

10. The endless rope continuous haulage winch tail wheel fixing device according to claim 9, wherein: the length of the second large pull rod circular ring bending part of the pull rod II is 120mm, the length of the second small pull rod circular ring bending part of the pull rod II is 160mm, and the second small pull rod circular ring bending part of the pull rod II is fixed with the pull rod II in a welding mode.