CN212127354U - Mining endless rope holds in palm rope wheelset with automatically regulated tension - Google Patents

Abstract

The utility model discloses a mining electrodeless rope holds in palm rope wheelset with automatically regulated tension, including main wire rope, vice wire rope and pressure rope wheelset, pressure rope wheelset is installed on orbital slope top, main wire rope and vice wire rope pass the pressure rope wheelset, the rope inlet end symmetry of pressure rope wheelset is provided with the support rope wheelset that is located main wire rope and vice wire rope below, be provided with tension monitoring device between the support rope wheelset, the support rope wheelset includes the motor, elevating system and gyro wheel, motor drive elevating system work, the gyro wheel passes through the mount pad and rotates and install on elevating system, main wire rope and vice wire rope are by the gyro wheel tensioning, tension monitoring device monitors main wire rope and vice wire rope's height, tension monitoring device is connected with the motor. Can simple efficient adjust wire rope, make things convenient for wire rope to provide traction force for the operation of shuttle car, prevent that wire rope from falling ground or rubbing the track and causing wearing and tearing, guarantee the smooth progress and the safety of its work.

Description

Mining endless rope holds in palm rope wheelset with automatically regulated tension

Technical Field

The utility model relates to a mining transportation equipment technical field, concretely relates to mining endless rope holds in palm rope wheelset with automatically regulated tension.

Background

The endless rope winch is suitable for the direct transportation of materials and equipment without transshipment, such as working face crossheading, mining area upper (lower) mountains, centralized track lane and the like under the working condition of long distance, large inclination angle, multiple variable slopes and large tonnage; the device is an ideal device for replacing the traditional small winch relay and opposite pulling transportation mode and realizing the transportation of the whole hydraulic support and various devices of the mine; the device can also be used for underground roadways and ground of metal mines, the track transportation with small gradient and fluctuation change is realized, and the maximum adaptive inclination angle is not more than 20 degrees.

Because a transportation roadway cannot be an ideal smooth straight line all the time, the track of the endless rope winch can turn, climb and descend in the transportation roadway, the steel wire rope of the endless rope winch needs to be correspondingly changed when passing through the track under the conditions, and when the track climbs and descends, the steel wire rope of the endless rope winch needs to be adjusted in height so as to achieve the state of tensioning and releasing the steel wire rope, so as to adapt to the operation of a shuttle car at the track climbing and descending positions and prevent the steel wire rope from being collected by the shuttle car and contacting the track or the bottom surface to cause abrasion. Need staff real time monitoring, send the regulation instruction through the personnel, loaded down with trivial details clumsy, efficiency is very low, and work load is great, can not make things convenient for the staff to know the size behind the wire rope tension regulation in real time in addition, and easy overshooting is not convenient for the progress and the work safety of work.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mining electrodeless rope holds in palm rope wheelset with automatically regulated tension to the operation of wire rope is adjusted to the rope supporting wheelset of solving the endless rope winch, loaded down with trivial details clumsy, efficiency is very low, and work load is great, and inconvenient real-time knowledge wire rope adjusts tension and easily overshoots, the progress of the work of being not convenient for and the problem of work safety.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a mining electrodeless rope holds in palm rope wheelset with automatically regulated tension, includes main wire rope, vice wire rope and pressure rope wheelset, pressure rope wheelset installs on orbital hillside top, main wire rope with vice wire rope passes pressure rope wheelset, the rope inlet end symmetry of pressure rope wheelset is provided with and is located main wire rope with the support rope wheelset of vice wire rope below, be provided with tension monitoring devices between the support rope wheelset, the support rope wheelset includes motor, elevating system and gyro wheel, motor drive elevating system work, the gyro wheel passes through the mount pad and rotates to be installed elevating system is last, main wire rope with vice wire rope quilt the gyro wheel tensioning, tension monitoring devices control main wire rope with vice wire rope's height, tension monitoring devices with the motor is connected.

The further technical scheme is as follows: elevating system includes quick-witted case, axis of rotation, gear, lifting column, rack and lifter plate, lifting column symmetry and vertical installation are in quick-witted incasement portion's the mounting groove, the top of lifting column is worn out the upper surface of quick-witted case, lifter plate horizontal installation the top of lifting column, the rack is vertical to be installed on the lateral wall of lifting column, the axis of rotation is installed along the horizontal direction the inside of quick-witted case, the gear is installed in the axis of rotation, the gear with rack toothing, the axis of rotation is located quick-witted outer one end of case with the output of motor is connected.

The further technical scheme is as follows: the lifting column is a square column.

The further technical scheme is as follows: the tension monitoring device comprises a first infrared transmitter, a first infrared receiver, a second infrared transmitter and a second infrared receiver, wherein the first infrared transmitter and the first infrared receiver are correspondingly arranged on two sides of the track and used for monitoring the lowest point of the main steel wire rope and the auxiliary steel wire rope, the second infrared transmitter and the second infrared receiver are correspondingly arranged on two sides of the track and used for monitoring the highest point of the main steel wire rope and the auxiliary steel wire rope.

The further technical scheme is as follows: and the working ends of the first infrared transmitter, the first infrared receiver, the second infrared transmitter and the second infrared receiver are all provided with a protective cover.

The further technical scheme is as follows: the idler wheel is a concave wheel with two high sides and a low middle part, and the radian of the concave wheel is larger than the diameters of the main steel wire rope and the auxiliary steel wire rope.

Compared with the prior art, the utility model discloses can reach one of following beneficial effect at least:

1. the utility model provides a mining electrodeless rope holds in palm rope wheelset with automatically regulated tension, hold in the palm the rope wheelset through setting up the symmetry on the top in ramp, hold in the palm the rope wheelset and be used for adjusting wire rope's height, make it reach the tensioning or the state of relaxing, set up tension monitoring device between holding in the palm the rope wheelset, height that can real-time supervision wire rope, highly know wire rope's tension through after wire rope tightens, tension monitoring device feedback signal gives holding in the palm the rope wheelset, hold in the palm the rope wheelset and adjust the height that wire rope tightened, both mutually support, can simple efficient adjust wire rope, make things convenient for wire rope to provide traction force for shuttle car operation, prevent that wire rope from falling ground or rubbing the track and cause wearing and tearing, guarantee the smooth progress and the safety.

2. The height of a main steel wire rope and the height of an auxiliary steel wire rope of the steel wire rope can be synchronously adjusted through a lifting mechanism which coaxially controls lifting, the adjustment precision is accurate and convenient to control through gear and rack meshing, the tension monitoring device is provided with two groups of infrared sensors which are distributed in height and can measure the highest point and the lowest point which can be accepted by the steel wire rope, and the height of the steel wire rope can be conveniently adjusted through real-time monitoring and matching with the rope supporting wheel set.

Drawings

Fig. 1 is the utility model relates to a mining endless rope holds in palm rope wheelset's structural schematic with automatically regulated tension.

Fig. 2 is a schematic structural diagram of the lifting mechanism of the present invention.

Reference numerals: 1. a main wire rope; 2. an auxiliary wire rope; 3. a rope pressing wheel set; 4. a track; 6. a rope supporting wheel set; 61. an electric motor; 62. a lifting mechanism; 621. a chassis; 6211. mounting grooves; 622. a rotating shaft; 623. a gear; 624. a lifting column; 625. a rack; 626. a lifting plate; 63. a roller; 7. a tension monitoring device; 8. a shield.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

embodiment 1 referring to an embodiment shown in fig. 1, a mining endless rope supporting pulley set with an automatic tension adjusting function includes a main steel wire rope 1, an auxiliary steel wire rope 2 and a rope pressing pulley set 3, the rope pressing pulley set 3 is installed on a slope top of a track 4, the main steel wire rope 1 and the auxiliary steel wire rope 2 penetrate through the rope pressing pulley set 3, rope supporting pulley sets 6 located below the main steel wire rope 1 and the auxiliary steel wire rope 2 are symmetrically arranged at a rope inlet end of the rope pressing pulley set 1, a tension monitoring device 7 is arranged between the rope supporting pulley sets 6, each rope supporting pulley set includes a motor 61, a lifting mechanism 62 and a roller 63, the motor 61 drives the lifting mechanism 62 to work, the roller 63 is rotatably installed on the lifting mechanism 62 through a mounting seat, the main steel wire rope 1 and the auxiliary steel wire rope 2 are tensioned by the roller 63, the tension monitoring device 7 monitors heights of the main steel wire rope 1 and the auxiliary steel wire rope 2, the tension monitoring device 7 is connected to the motor 61.

The mining endless rope supporting rope wheel set with the automatic tension adjusting function is characterized in that a rope pressing wheel set 3 is installed on the top of a slope of a track 4, a main steel wire rope 1 and an auxiliary steel wire rope 2 penetrate through the rope pressing wheel set 3, the main steel wire rope 1 and the auxiliary steel wire rope 2 easily fall on the track 4 on the slope to cause abrasion and influence the operation of a shuttle car, rope supporting wheel sets 6 located below the main steel wire rope 1 and the auxiliary steel wire rope 2 are symmetrically arranged at the rope inlet end of the rope pressing wheel set 1, the rope supporting wheel sets 6 are used for adjusting the height of the steel wire ropes to enable the steel wire ropes to reach a tensioning or loosening state and prevent the steel wire ropes from falling on the track 4, a tension monitoring device 7 is arranged between the rope supporting wheel sets 6 and can monitor the height of the steel wire ropes in real time, the tension of the steel wire ropes is known through the height after the steel wire ropes are tensioned, the gyro wheel 63 passes through the mount pad rotation to be installed on elevating system 62, main wire rope 1 and vice wire rope 2 are by the tensioning of gyro wheel 63, and the height that the wire rope was tightened is adjusted to the rope supporting wheelset 6, and both cooperate each other, can simply the efficient adjust wire rope, make things convenient for wire rope to provide traction force for the shuttle car operation, prevent that wire rope from falling ground or rubbing track 4 and causing wearing and tearing, guarantee the smooth progress and the safety of its work.

Example 2:

on the basis of the foregoing embodiment 1, in embodiment 2, referring to fig. 2, as an embodiment, the lifting mechanism 62 includes a case 621, a rotating shaft 622, a gear 623, a lifting column 624, a rack 625, and a lifting plate 626, the lifting column 624 is symmetrically and vertically installed in an installation groove 6211 inside the case 624, a top of the lifting column 624 penetrates through an upper surface of the case 621, the lifting plate 626 is horizontally installed at a top end of the lifting column 624, the rack 625 is vertically installed on a side wall of the lifting column 624, the rotating shaft 622 is installed inside the case 621 along a horizontal direction, the gear 623 is installed on the rotating shaft 622, the gear 623 is engaged with the rack 625, and one end of the rotating shaft 622, which is located outside the case 621, is connected to an output end of the motor 61.

The machine case 621 is installed (buried) on the ground, the lifting column 624 slides and is vertically installed in an installation groove 6211 in the machine case 624, the top of the lifting column 624 penetrates out of the upper surface of the machine case 621, the lifting plate 626 is horizontally installed at the top end of the lifting column 624, the rack 625 is vertically welded or screwed on the side wall of the lifting column 624, the rotating shaft 622 is installed in the machine case 621 along the horizontal direction, the gear 623 is installed on the rotating shaft 622, the gear 623 is meshed with the rack 625, one end of the rotating shaft 622, which is located outside the machine case 621, is connected with the output end of the motor 61, the rope supporting wheel set 6 coaxially controls the two lifting columns 624 to synchronously lift through the rotating shaft 622, the heights of the main steel wire rope and the auxiliary steel wire rope can be synchronously adjusted, and the adjustment precision is accurate.

Further, the lifting column 624 is a square column.

The lifting column 624 is a square column to facilitate mounting of the rack 625 on the side wall of the lifting column 624.

Example 3:

on the basis of the above embodiment, embodiment 3 shows an embodiment, where the tension monitoring device 7 includes a first infrared transmitter, a first infrared receiver, a second infrared transmitter, and a second infrared receiver, where the first infrared transmitter and the first infrared receiver are correspondingly disposed on two sides of the track 4 and monitor the lowest points of the main steel wire rope 1 and the auxiliary steel wire rope 2, and the second infrared transmitter and the second infrared receiver are correspondingly disposed on two sides of the track 4 and monitor the highest points of the main steel wire rope 1 and the auxiliary steel wire rope 2.

The tension monitoring device 7 is provided with two groups of infrared sensors distributed in height, the sensing end penetrates through the track 4 to sense the steel wire rope, the highest point and the lowest point which can be accepted by the steel wire rope can be measured, and the height of the steel wire rope can be conveniently monitored in real time and adjusted by matching with the rope supporting wheel group 6.

Example 4:

on the basis of the above embodiment, embodiment 4 shows an embodiment in which the working ends of the first infrared transmitter, the first infrared receiver, the second infrared transmitter, and the second infrared receiver are each provided with a protective cover 8.

Protection casing 8 is all installed to first infrared transmitter, first infrared receiver, second infrared transmitter and second infrared receiver's work end, prevents falling rocks etc. in the tunnel, damages the inductor.

Example 4:

on the basis of the above embodiment, embodiment 4 shows an embodiment in which the roller 63 is a concave wheel with two high sides and a low middle, and the radian of the concave wheel is larger than the diameters of the main rope 1 and the auxiliary rope 2.

The idler wheel 63 is a concave wheel with two high sides and a low middle part, the radian of the concave wheel is larger than the diameters of the main steel wire rope 1 and the auxiliary steel wire rope 2, and the concave wheel plays a limiting role on the steel wire ropes.

The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the scope of the invention to effect such feature, structure, or characteristic in connection with other embodiments.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a mining electrodeless rope holds in palm rope wheelset with automatically regulated tension, includes main wire rope (1), vice wire rope (2) and pressure rope wheelset (3), install on the hillside top of track (4) pressure rope wheelset (3), main wire rope (1) with vice wire rope (2) pass pressure rope wheelset (3), its characterized in that: the rope inlet end symmetry of pressing rope wheelset (3) is provided with and is located main wire rope (1) with rope supporting wheelset (6) of vice wire rope (2) below, be provided with tension monitoring device (7) between rope supporting wheelset (6), rope supporting wheelset includes motor (61), elevating system (62) and gyro wheel (63), motor (61) drive elevating system (62) work, gyro wheel (63) rotate through the mount pad and install on elevating system (62), main wire rope (1) with vice wire rope (2) quilt gyro wheel (63) tensioning, tension monitoring device (7) control main wire rope (1) with the height of vice wire rope (2), tension monitoring device (7) with motor (61) are connected.

2. The mining endless rope supporting rope wheel set capable of automatically adjusting tension according to claim 1, is characterized in that: the lifting mechanism (62) comprises a case (621), a rotating shaft (622), a gear (623), a lifting column (624), a rack (625) and a lifting plate (626), the lifting columns (624) are symmetrically and vertically arranged in mounting grooves (6211) inside the case (621), the top of the lifting column (624) penetrates out of the upper surface of the case (621), the lifting plate (626) is horizontally arranged at the top end of the lifting column (624), the rack (625) is vertically arranged on the side wall of the lifting column (624), the rotating shaft (622) is installed inside the cabinet (621) in a horizontal direction, the gear (623) is mounted on the rotating shaft (622), the gear (623) is engaged with the rack (625), one end of the rotating shaft (622) positioned outside the case (621) is connected with the output end of the motor (61).

3. The mining endless rope supporting rope wheel set capable of automatically adjusting tension according to claim 2, is characterized in that: the lifting column (624) is a square column.

4. The mining endless rope supporting rope wheel set capable of automatically adjusting tension according to claim 1, is characterized in that: tension monitoring devices (7) include first infrared emitter, first infrared receiver, second infrared emitter and second infrared receiver, first infrared emitter corresponds the setting with first infrared receiver and is in the both sides of track (4), and monitors main wire rope (1) with the minimum of vice wire rope (2), second infrared emitter corresponds the setting with second infrared receiver and is in the both sides of track (4), and monitors main wire rope (1) with the maximum of vice wire rope (2).

5. The mining endless rope supporting rope wheel set capable of automatically adjusting tension according to claim 4, is characterized in that: and the working ends of the first infrared transmitter, the first infrared receiver, the second infrared transmitter and the second infrared receiver are all provided with a protective cover (8).

6. The mining endless rope supporting rope wheel set capable of automatically adjusting tension according to claim 1, is characterized in that: the idler wheels (63) are concave wheels with two high sides and a low middle part, and the radian of each concave wheel is larger than the diameters of the main steel wire rope (1) and the auxiliary steel wire rope (2).

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