CN216335880U

CN216335880U - Hydraulic disc cable device

Info

Publication number: CN216335880U
Application number: CN202122944123.9U
Authority: CN
Inventors: 段成军; 胡兴涛; 罗跃勇; 陈铁亮; 朱涛; 许俊恒; 王庆华; 郑光辉; 袁小浩; 张国玉; 邢旭东; 陈栋栋; 李现虎
Original assignee: Beijing Tiandi Huatai Mining Management Co Ltd
Current assignee: Beijing Tiandi Huatai Mining Management Co Ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-04-19
Anticipated expiration: 2031-11-29

Abstract

The utility model discloses a hydraulic disc cable device, which comprises a gantry frame formed by connecting H-shaped steel upright posts and top beams on two sides, wherein cantilevers are arranged at the upper ends of the upright posts on the two sides in a forward extending manner, hydraulic oil cylinders are fixedly arranged at the front ends of the cantilevers on the two sides downwards respectively, the front ends of telescopic arms of the two hydraulic oil cylinders are connected with sliding plates respectively, the sliding plates are horizontally and transversely provided with holding arms, the holding arms are buckled with sliding rails formed by linear plates on one sides of the H-shaped steel upright posts through pulleys, the sliding plates are driven by the telescopic arms to slide up and down along the sliding rails through the pulleys, rotating shafts are arranged on the sliding plates opposite to the upright posts on the two sides respectively through bearing seats, the rotating shafts are connecting rotating shafts with rectangular grooves, the rectangular grooves are used for being connected with square shaft rollers, and the square shaft rollers are used for inserting cables into the cable winding rollers to drive the cable winding rollers to rotate; according to the utility model, the hydraulic telescopic arm fixed on the gantry frame is used for lifting and lowering the cable winding roller, and the hydraulic motor is used for driving the cable winding roller to rotate so as to realize the arrangement of the scattered cables in the storehouse.

Description

Hydraulic disc cable device

Technical Field

The utility model relates to a cable storage device, in particular to a hydraulic disc cable device.

Background

At present, cables recovered under a mine are usually coiled manually in a storehouse, the occupied area is large, the cables are inconvenient to stack, stack and take, the mining cables are thick and heavy, the cables are large in storage occupied area due to the fact that the cables are coiled manually on the ground and are different in type and length, the cables are inconvenient to stack and store, and the cables are pulled far away from the cables due to the fact that the cables are large in storage area. Manual storage and extraction are troublesome, and if the cables of more than 70m are met, about 10 persons are needed to load the vehicle. If cables of the same type are stacked, a plurality of cables above the cables may need to be removed when the cables with specific lengths are taken, unnecessary manual labor is caused, potential safety hazards such as foot hitting, hand touching, waist flashing and the like easily occur when the cables are coiled manually, and the current situation needs to be changed urgently.

Disclosure of Invention

The utility model aims to provide a hydraulic disc cable device, which is convenient to operate, time-saving and labor-saving, and can realize the arrangement of scattered cables in a storehouse by lifting a cable shaft roller down through a hydraulic telescopic arm fixed on a gantry frame and driving a cable winding roller to rotate by using a hydraulic motor.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a hydraulic disc cable device comprises a gantry frame formed by connecting two side upright posts and a top beam, wherein the two side upright posts are I-shaped steel upright posts, cantilevers are arranged at the upper ends of the two side upright posts in a forward extending mode, hydraulic cylinders are fixedly arranged at the front ends of the cantilevers at the two sides downwards and are perpendicular to the ground respectively, the front ends of telescopic arms of the two hydraulic cylinders are connected with sliding plates respectively, the sliding plates are horizontally and transversely provided with holding arms, the holding arms are buckled with sliding rails formed by a straight plate at one side of the I-shaped steel upright posts through pulleys, the telescopic arms of the hydraulic cylinders drive the sliding plates to slide up and down along the sliding rails through the pulleys, rotating shafts are arranged on the sliding plates opposite to the two side upright posts respectively through bearing seats, the rotating shafts are connecting rotating shafts with rectangular grooves, the rectangular grooves are used for being connected with square shaft rollers, the square shaft rollers are used for inserting cables to drive the cables to rotate around the drums, and locking blocks capable of sliding back and forth are arranged on the rotating shafts, the locking block is used for locking or releasing the square shaft roller, when the rectangular groove of the rotating shaft is sleeved in the end part of the square shaft roller, the end part of the square shaft roller is buckled in the rectangular groove and locked and fixed by the sliding locking block, a hydraulic motor is arranged on one sliding plate, an output shaft of the hydraulic motor is connected with the rotating shaft, the hydraulic cylinders of the stand columns on two sides are connected with a hydraulic pump station through a first hydraulic reversing controller, the hydraulic motor is connected with the hydraulic pump station through a second hydraulic reversing controller, and the first hydraulic reversing controller controls the telescopic arms of the hydraulic cylinders to extend and retract; the second hydraulic reversing controller controls the forward rotation and the reverse rotation of the hydraulic motor.

The scheme is further as follows: set up the cover on the square beam barrel and have the rod dish of holding back, be provided with two relative cylinders on the rod dish of holding back, when the cylinder skidded with the cable winding cylinder as square beam barrel, the cylinder on the rod dish of holding back inserts between the cable winding cylinder curb plate spoke, prevents that the cable from winding the cylinder and rotate by oneself.

The scheme is further as follows: and a balance regulating valve is arranged between the first hydraulic reversing controller and the two side upright post hydraulic cylinders and is used for regulating the two hydraulic cylinders to act in the same direction.

The scheme is further as follows: the two embracing arms are respectively arranged at the upper end and the lower end of the sliding plate.

The scheme is further as follows: the connecting position of the telescopic arm of the hydraulic oil cylinder and the sliding plate is that the axis of the telescopic arm is mutually perpendicular and intersected with the axis of the connecting rotating shaft.

The scheme is further as follows: the I-steel stand welded fastening is on the bed plate, the bed plate passes through the fastening stock to be fixed on concrete pier ground, and the length of fastening stock is 1000mm at least.

The utility model has the beneficial effects that: the hydraulic telescopic arm fixed on the gantry frame is used for lifting and lowering the cable winding roller, the hydraulic motor is used for driving the cable winding roller to rotate so as to realize the arrangement of the cables scattered in the storehouse, the operation is convenient, the time and the labor are saved, the occupation amount of the cables in the storehouse is reduced, and the use area of the storehouse is greatly increased. The problem of storehouse area not enough is solved, workman's work load has been saved.

The utility model can sort and stack all cables and can integrally store and take the cables by using a forklift, thereby greatly reducing the working time of the cables in and out of a warehouse. The working efficiency of workers is improved.

Drawings

FIG. 1 is a schematic view of the front side of the structure of the utility model;

FIG. 2 is a schematic side view of the structure of the present invention;

FIG. 3 is a schematic view of the guide rail structure of the present invention, the view of FIG. 2 being taken along the line A;

FIG. 4 is a schematic view of a slot structure on an end face of a rotating shaft according to the present invention, and a view from the direction B of FIG. 1;

fig. 5 is a schematic view of the state of the cable roll supporting device of the present invention.

Detailed Description

A hydraulic disc cable device is shown in figures 1, 2, 3 and 4 and comprises a gantry frame formed by connecting two side upright posts 1 and a top beam 2, wherein the two side upright posts are I-shaped steel upright posts which are welded and fixed on a base plate 3, the base plate is fixed on the concrete pier ground through fastening anchor rods, and the length of each fastening anchor rod is at least 1000 mm; as shown in fig. 2, the upper ends of the two side columns are provided with cantilevers 4 by extending forwards, the front ends of the cantilevers at the two sides are respectively and fixedly provided with a hydraulic cylinder 5 by being perpendicular to the ground downwards, the front ends of telescopic arms 501 of the two hydraulic cylinders are respectively connected with a sliding plate 6, the sliding plate is horizontally and transversely provided with a holding arm 601, as shown in fig. 3, the front ends of the two sides of the holding arm are of a bending structure, a pulley 603 is fixed in the bending structure through a shaft pin 602, the holding arm is buckled with a sliding rail formed by a straight plate 101 at one side of the i-shaped steel column through the pulleys at the two sides, the two holding arms 601 are provided at the upper end and the lower end of the sliding plate 6 respectively. The telescopic arm 501 of the hydraulic cylinder 5 drives the sliding plate 6 to slide up and down along the sliding rail through the pulley 603, the sliding plates 6 opposite to the two side columns are respectively provided with a rotating shaft 8 through a bearing seat 7, as shown in fig. 4, the rotating shaft 8 is a connecting rotating shaft with a rectangular groove 801, the rectangular groove 801 is used for being connected with a square shaft roller 9, the square shaft roller 9 is used for being inserted into a cable coiling roller 10 to drive a cable coiling roller 10 to rotate around the roller 10, the rotating shaft is provided with a lock block 11 capable of sliding back and forth, the lock block 11 is used for locking or releasing the square shaft roller 9, as shown in fig. 5, when the rectangular groove 801 of the rotating shaft 8 is sleeved into the end part of the square shaft roller 9, the lock block 11 is used for locking and fixing the end part of the square shaft roller 9 in the rectangular groove 801, one of the sliding plates is provided with a hydraulic motor 12, the output shaft of the hydraulic motor 12 is connected with the rotating shaft 8, the two side columns 5 are connected with a hydraulic pump station 14 through a first hydraulic reversing controller 13, the hydraulic motor 12 is connected with a hydraulic pump station 14 through a second hydraulic reversing controller 15, and the first hydraulic reversing controller 13 controls the extension and contraction of the telescopic arm of the hydraulic oil cylinder; the second hydraulic directional controller 15 controls the forward rotation and the reverse rotation of the hydraulic motor 12. Wherein: and a balance adjusting valve 16 is arranged between the first hydraulic reversing controller 13 and the two side upright post hydraulic cylinders 5, and the balance adjusting valve 16 is used for adjusting the two hydraulic cylinders 5 to act in the same direction.

Usually, a square hole matched with the square shaft roller 9 is formed in the center of the baffle plates 10-1 on two sides of the cable coiling drum 10, the cable coiling drum 10 is very heavy after a cable is coiled on the cable, a rod holding-back plate 17 is sleeved on the square shaft roller 9 for assisting in skid resistance, two opposite cylinder bodies 17-1 are arranged on the rod holding-back plate 17, and when the square shaft roller 9 and the cable coiling drum skid, the cylinder bodies 17-1 on the rod holding-back plate 17 are inserted between side plate spokes of the cable coiling drum 10 to prevent the cable coiling drum from rotating automatically.

In order to make the cable coiling drum 10 rotate smoothly, the connection position of the telescopic arm 501 of the hydraulic oil cylinder 5 and the sliding plate 6 is that the axis of the telescopic arm 501 and the axis of the connecting rotating shaft 8 are mutually perpendicular and intersect.

According to the embodiment of the hydraulic disc cable device, the hydraulic telescopic arm fixed on the gantry frame is used for lifting the cable shaft roller, the hydraulic motor is used for driving the cable winding roller to rotate so as to realize the arrangement of the cables scattered in the storehouse, the operation is convenient, the time and the labor are saved, the occupation amount of the cables in the storehouse is reduced, and the use area of the storehouse is greatly increased. The problem of storehouse area not enough is solved, workman's work load has been saved. The cable sorting and stacking device can sort and stack all cables and can be stored and taken by a forklift, so that the working time of putting cables in and out of a warehouse is greatly reduced, and the working efficiency of workers is improved.

Claims

1. A hydraulic disc cable device comprises a gantry frame formed by connecting two side upright posts and a top beam, and is characterized in that the two side upright posts are I-shaped steel upright posts, cantilevers are arranged at the upper ends of the two side upright posts in a forward extending manner, hydraulic cylinders are respectively and fixedly arranged at the front ends of the cantilevers at the two sides downwards and are perpendicular to the ground, the front ends of telescopic arms of the two hydraulic cylinders are respectively connected with a sliding plate, the sliding plate is horizontally and transversely provided with a holding arm, the holding arm is buckled with a sliding rail formed by a straight plate at one side of the I-shaped steel upright posts through a pulley, the telescopic arms of the hydraulic cylinders drive the sliding plate to slide up and down along the sliding rail through the pulley, rotating shafts are respectively arranged on the sliding plates opposite to the two side upright posts through bearing seats, the rotating shafts are connecting rotating shafts with rectangular grooves, the rectangular grooves are used for being connected with square shaft rollers, the square shaft rollers are used for inserting into the cable winding rollers to drive the cable winding rollers to rotate, and lock blocks capable of sliding back and forth are arranged on the rotating shafts, the locking block is used for locking or releasing the square shaft roller, when the rectangular groove of the rotating shaft is sleeved in the end part of the square shaft roller, the end part of the square shaft roller is buckled in the rectangular groove and locked and fixed by the sliding locking block, a hydraulic motor is arranged on one sliding plate, an output shaft of the hydraulic motor is connected with the rotating shaft, the hydraulic cylinders of the stand columns on two sides are connected with a hydraulic pump station through a first hydraulic reversing controller, the hydraulic motor is connected with the hydraulic pump station through a second hydraulic reversing controller, and the first hydraulic reversing controller controls the telescopic arms of the hydraulic cylinders to extend and retract; the second hydraulic reversing controller controls the forward rotation and the reverse rotation of the hydraulic motor.

2. The hydraulic disc cable device according to claim 1, wherein a bar holding disc is sleeved on the square shaft roller, two opposite cylinders are arranged on the bar holding disc, and when the square shaft roller and the cable winding drum slip, the cylinders on the bar holding disc are inserted between side plate spokes of the cable winding drum to prevent the cable winding drum from rotating by itself.

3. The hydraulic disc cable device according to claim 1, wherein a balance adjusting valve is arranged between the first hydraulic reversing controller and the two side upright hydraulic cylinders, and the balance adjusting valve is used for adjusting the two hydraulic cylinders to act in unison.

4. The hydraulic disc cable assembly according to claim 1, wherein there are two embracing arms, and the two embracing arms are respectively disposed at upper and lower ends of the sliding plate.

5. The hydraulic disc cabling arrangement of claim 1, wherein the telescoping arm of the hydraulic ram is connected to the sled at a position such that the axis of the telescoping arm intersects the axis of the connecting shaft perpendicularly.

6. The hydraulic disc cable assembly of claim 1, wherein the i-steel studs are welded to a base plate, the base plate being secured to the concrete pier floor by fastening anchors, the fastening anchors having a length of at least 1000 mm.