CN220886792U - Hydraulic lifting vehicle for mine construction hanging scaffold - Google Patents

Abstract

The application relates to the technical field of shaft equipment installation, in particular to a hydraulic lifting vehicle for a mine construction hanging scaffold, which comprises a mounting seat, wherein the mounting seat is fixedly arranged at the upper end of a top hanging scaffold, a supporting rod is rotatably arranged at the upper end of the mounting seat, a driving motor is fixedly arranged at the upper end of the supporting rod, a lifting arm is rotatably arranged at the upper end of the supporting rod, a driving hydraulic cylinder is arranged between the lifting arm and the supporting rod, a lifting pulley is arranged at one end, far away from the supporting rod, of the lifting arm, a first lifting machine is fixedly arranged at the mounting seat, a steel rope is arranged at the output end of the first lifting machine, guide pulleys are fixedly connected at the two ends of each layer of channel scaffold, a traction arm is rotatably arranged on a connecting upright post of the hanging scaffold, and a traction hook is arranged at one end, far away from the connecting upright post, of the traction arm. According to the application, the lifting assembly is arranged on the top layer, and the traction arm is arranged on the lower layer, so that the lifting plate is convenient for transferring goods between different layers, the waiting time is reduced, and the construction efficiency is improved.

Description

Hydraulic lifting vehicle for mine construction hanging scaffold

Technical Field

The application relates to the technical field of shaft equipment installation, in particular to a hydraulic lifting vehicle for a mine construction hanging scaffold.

Background

After the vertical mine installation is completed, wellbore equipment including the laying of personnel channels, water lines, cabling, gas lines, etc. of the ladder room needs to be installed in the well. In the process of installing shaft equipment, a hanging disc needs to be used as an installation platform, and the hanging disc is controlled to be lifted by a lifting machine arranged at a wellhead.

For accelerating work efficiency, can use multilayer hanging scaffold during the construction generally, for the construction transportation consumptive material of being convenient for and constructor, be provided with circular shape passageway section of thick bamboo on the hanging scaffold and be provided with the hanging scaffold on the lifting machine of well head generally, but sometimes need transfer tool between multilayer hanging scaffold, need wait for the hanging scaffold through the hanging scaffold transfer, and some mine degree of depth is exceeded kilometer, and latency is longer, reduces work efficiency, influences the work progress.

Disclosure of Invention

Aiming at the defects existing in the prior art, the application aims to provide a hydraulic lifting vehicle for a mine construction hanging scaffold.

The above-mentioned application purpose of the application is realized through the following technical scheme:

a hydraulic lift truck for a mine construction hoist plate, comprising:

the mounting seat is fixedly arranged at the upper end of the top-layer hanging scaffold;

The support rod is rotatably arranged at the upper end of the mounting seat, the mounting seat is fixedly provided with a driving motor, and the driving motor drives the support rod to rotate;

The lifting arm is rotatably arranged at the upper end of the supporting rod, a driving hydraulic cylinder is arranged between the lifting arm and the supporting rod, and one end, far away from the supporting rod, of the lifting arm is provided with a lifting pulley;

The first lifting machine is fixedly arranged on the mounting seat, a steel cable is arranged at the output end of the first lifting machine, and the steel cable bypasses the lifting pulley;

The guide pulleys are respectively arranged at two ends of each layer of channel barrel;

The traction arm is a telescopic arm, the traction arm is also provided with the driving hydraulic cylinder for driving the telescopic arm, the first end of the traction arm is rotatably connected with the hanging scaffold connecting upright post, and the second end of the traction arm is provided with a traction hook;

wherein, each layer of hanging scaffold below the top layer hanging scaffold is provided with one traction arm.

Optionally, the guide pulley rope groove depth is not less than the wire rope diameter.

Optionally, a traction seat is fixedly connected to the connecting upright post, the traction arm is rotatably installed on the traction seat, and the traction seat is also fixedly connected with the driving motor to drive the traction arm to rotate.

Optionally, a second lifter is arranged on the traction seat, a steel cable is also arranged at the output end of the second lifter, a traction pulley is arranged at one end, close to the traction hook, of the traction arm, and the steel cable bypasses the traction pulley to be connected with the traction hook.

Optionally, two traction pulleys are provided, and a steel cable at the traction pulley position passes between the two traction pulleys.

Optionally, the lifting arm downside fixedly connected with straight arm assists the pole, the drive pneumatic cylinder output connect in straight arm assists the pole lower extreme.

Optionally, the towing hook is connected one end of the steel cable is a cylindrical end, and when the cylindrical end is positioned between the traction pulleys, two sides of the cylindrical end are attached to two rope grooves of the traction pulleys.

Optionally, the cylindrical end is in a circular tube shape, and the steel cable is inserted and fixedly connected to the cylindrical end.

In summary, the present application includes at least one of the following beneficial technical effects:

The lifting assembly is arranged on the top layer, the traction arm is arranged on the lower layer, different layers of cargoes are lifted through the lifting assembly, and the steel rope is pulled away from the upper part of the channel barrel through the traction arm so as to be convenient for unloading, and meanwhile, when cargoes are lifted, the cargoes can be pulled through the traction arm, so that the probability that the cargoes collide with the channel barrel is reduced. Through installing the hoisting assembly on the top layer and installing the traction arm on the lower layer, the lifting disc is convenient for transferring goods between different layers, the waiting time is reduced, and the construction efficiency is improved;

The traction arm is used for traction of the goods on a straight line, the range is narrow, and after the goods are put down, the goods can be transferred to other positions of the layer through the traction arm, so that the heavy goods can be conveniently carried;

when the channel cylinder is needed, the lifting arm needs to be rotated to other positions, the space of the hanging scaffold is limited, the lifting arm can be erected at the upper end of the supporting rod by arranging the straight arm auxiliary rod and driving the hydraulic cylinder, and the space occupation is reduced.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the structure of a support rod portion according to an embodiment of the present application;

Fig. 3 is a schematic structural view of a trailing arm portion of an embodiment of the application.

Reference numerals: 01. a hanging scaffold; 02. a channel barrel; 03. connecting the upright posts;

1. A mounting base;

2. a support rod; 21. a drive motor;

3. A lifting arm; 31. driving a hydraulic cylinder; 32. lifting the pulley; 33. a straight arm auxiliary rod;

4. A first elevator;

51. a guide pulley;

6. A traction arm; 61. a traction hook; 611. a cylindrical end; 62. a traction seat; 621. a bottom ring; 622. a connecting cylinder; 623. an upper circular ring;

7. A second elevator; 71. a traction sheave.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-3, a hydraulic lifting vehicle for a mine construction hanging scaffold disclosed in the embodiment of the application comprises a mounting seat 1, wherein the mounting seat 1 is fixedly mounted at the upper end of a top hanging scaffold 01, a supporting rod 2 is rotatably mounted at the upper end of the mounting seat 1, a driving motor 21 is fixedly mounted on the mounting seat 1, the driving motor 21 drives the supporting rod 2 to rotate, a lifting arm 3 is rotatably mounted at the upper end of the supporting rod 2, a driving hydraulic cylinder 31 is arranged between the lifting arm 3 and the supporting rod 2, a lifting pulley 32 is arranged at one end of the lifting arm 3 far from the supporting rod 2, a first lifting machine 4 is fixedly mounted on the mounting seat 1, a steel rope is arranged at the output end of the first lifting machine 4, the steel rope bypasses the lifting pulley 32, guide pulleys 51 are fixedly connected at two ends of each layer of channel drums 02, a traction arm 6 is rotatably mounted on a connecting upright 03 of the hanging scaffold 01, the traction arm 6 is a telescopic arm is also arranged on the traction arm 6 to drive the telescopic arm 31, a traction hook 61 is mounted at one end of the traction arm 6 far from the connecting upright 03, and a traction arm 6 is arranged on each layer of hanging scaffold below the top hanging scaffold 01.

Specifically, a hoisting assembly composed of a mounting seat 1, a supporting rod 2, a hoisting arm 3 and the like is arranged on one side of a channel cylinder 02 of a top layer hanging scaffold 01, a traction arm 6 is arranged on one connecting upright post 03 of each layer, and a steel cable of which the top layer is lowered through the channel cylinder 02 is pulled by a traction hook 61.

Like this, at top layer installation hoist and mount subassembly and at below layer installation trailing arm 6, accomplish the different interlaminar handling of goods through hoist and mount subassembly to pull the cable wire through trailing arm 6 and leave passageway section of thick bamboo 02 top, so that the discharge, when lifting the goods simultaneously, also accessible trailing arm 6 pulls, reduces the possibility that the goods collided passageway section of thick bamboo 02. Through installing hoist and mount subassembly at the top layer and installing the trailing arm 6 at the lower floor, be convenient for hanging scaffold 01 different interlaminar goods of transporting, reduced latency, improved the efficiency of construction.

In some feasible modes, the mounting seat 1 is cylindrical and comprises a bottom plate and an upper cover which are rotationally connected, the supporting rod 2 and the lifting arm 3 are rectangular, the bottom plate of the mounting seat 1 is fixedly connected with a fluted disc, the supporting rod 2 is fixedly connected with the upper cover of the mounting seat 1, the driving motor 21 is fixedly mounted on the upper cover of the mounting seat 1, the output end of the driving motor 21 is connected with a driving gear which is meshed with the fluted disc, the upper cover of the mounting seat 1 is driven to rotate by the driving motor 21, and the first lifting machine 4 is fixedly mounted on the upper cover of the mounting seat 1;

When the traction arm 6 is in traction, friction is generated when the steel rope is attached to the channel cylinder 02 to influence the service life of the steel rope, guide pulleys 51 are arranged at two ends of the channel cylinder 02, the steel rope moves along the guide pulleys 51, the lifting arm 3 is rotatably connected with the support rod 2 for attaching the steel rope to the guide pulleys 51, and the angle is changed by driving the hydraulic cylinder 31, so that the position of the steel rope is changed;

the traction arm 6 comprises two sleeved square tubes, and a driving hydraulic cylinder 31 for driving the traction arm 6 is arranged in the square tubes.

Further description will be provided below in connection with specific use cases.

When the lifting device is used, the supporting rod 2 is rotated, the lifting arm 3 is close to a cargo, the cargo is lifted by the first lifting machine 4, the cargo is lifted to the upper end of the channel barrel 02, the cargo is lowered to a proper lifting disc 01 layer by the channel barrel 02, the traction arm 6 is extended, the traction hook 61 is hooked on a steel cable and pulled out of the direction of the channel barrel 02 by rotating the traction arm 6, and then the cargo is lowered.

As a concrete implementation mode of the hydraulic lifting vehicle for the mine construction hanging scaffold, the depth of a rope groove of the guide pulley 51 is not smaller than the diameter of a steel rope.

As a whole, the trailing arm 6 is a rotating member, which may slightly rotate during the pulling process, and by providing the guide pulley 51 with a deeper rope groove, the possibility of the wire rope coming off the guide pulley 51 is reduced.

As another embodiment of the hydraulic lifting vehicle for a mine construction hanging scaffold provided in the application, referring to fig. 3, a traction seat 62 is fixedly connected to a connecting upright 03, a traction arm 6 is rotatably mounted on the traction seat 62, and a driving motor 21 is fixedly connected to the traction seat 62 to drive the traction arm 6 to rotate.

In combination with a specific use scene, the traction arm 6 is driven by the driving motor 21, so that the traction arm 6 is driven to rotate in a controlled manner, and the control of the traction hook 61 to hook and pull the steel rope is facilitated.

In some possible ways, the traction seat 62 includes a bottom ring 621, the bottom ring 621 is fixedly mounted on the connecting upright 03, the bottom ring 621 is fixedly connected with the driving motor 21, the upper end of the bottom ring 621 is rotationally connected with the connecting cylinder 622, the traction arm 6 is fixedly mounted on the connecting cylinder 622, the bottom of the connecting cylinder 622 is fixedly connected with a half ring gear, the inner side of the bottom ring 621 is provided with a track groove, the half ring gear rotates in the track groove, the output end of the driving motor 21 is fixedly connected with a driving gear, the driving gear is meshed with the half ring gear, and the traction arm 6 is driven to rotate within a certain range.

Further, a second lifter 7 is arranged on the traction seat 62, a steel rope is also arranged at the output end of the second lifter 7, a traction pulley 71 is arranged at one end of the traction arm 6 close to the traction hook 61, and the steel rope bypasses the traction pulley 71 to be connected with the traction hook 61.

In combination with a specific use scene, the traction arm 6 is used for traction of cargoes on a straight line, the range is narrow, the second lifting machine 7 is arranged, after the cargoes are put down, the cargoes can be transferred to other positions of the layer where the cargoes are located through the traction arm 6, and the carrying of heavier cargoes is facilitated.

In some possible ways, the upper end of the connecting cylinder 622 is fixedly provided with an upper ring 623, and the second hoisting machine 7 is fixedly connected to the upper ring 623.

Further, there are two traction sheaves 71, and a wire rope at the position of the traction sheave 71 passes between the two traction sheaves 71.

It will be appreciated that the traction hook 61 is adapted to the condition of use of the rope of the traction hook 61 by providing two traction pulleys 71, in the opposite direction to the end of the traction arm 6 when lifting the load.

Further, one end of the traction hook 61 connected with the steel rope is a cylindrical end 611, and when the cylindrical end 611 is positioned between the traction pulleys 71, two rope grooves of the traction pulleys 71 are attached to two sides of the cylindrical end 611.

It will be appreciated that by providing the cylindrical end 611, the towing hook 61 can be pulled by a wire rope to be clamped between the two towing pulleys 71, thereby reducing the swing of the cargo when the towing arm 6 rotates and improving the handling safety.

Further, the cylindrical end 611 is in a circular tube shape, and the steel cable is inserted into and fixedly connected to the cylindrical end 611.

It will be appreciated that by means of the insertion connection, the cylindrical end 611 is facilitated to be pulled between the two traction pulleys 71.

In some possible ways, the steel cord is inserted into the cylindrical end 611 and welded to the cylindrical end 611.

As a specific embodiment of the hydraulic lifting vehicle for a mine construction hanging scaffold provided in the application, referring to fig. 2, a straight arm auxiliary rod 33 is fixedly connected to the lower side of a lifting arm 3, and the output end of a driving hydraulic cylinder 31 is connected to the lower end of the straight arm auxiliary rod 33.

It should be understood that when the channel cylinder 02 is needed, the lifting arm 3 needs to be rotated to other positions, the space of the lifting disc 01 is limited, the lifting arm 3 can be erected on the upper end of the supporting rod 2 by arranging the straight arm auxiliary rod 33 and driving the hydraulic cylinder 31, and the space occupation is reduced.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The utility model provides a mine construction hydraulic lifting car for hanging scaffold which characterized in that includes:

the mounting seat (1), the said mounting seat (1) is fixedly mounted on the upper end of the top layer hanging scaffold;

The support rod (2) is rotatably arranged at the upper end of the mounting seat (1), the mounting seat (1) is fixedly provided with a driving motor (21), and the driving motor (21) drives the support rod (2) to rotate;

The lifting arm (3) is rotatably arranged at the upper end of the supporting rod (2), a driving hydraulic cylinder (31) is arranged between the lifting arm (3) and the supporting rod (2), and a lifting pulley (32) is arranged at one end, far away from the supporting rod (2), of the lifting arm (3);

The first lifting machine (4), the first lifting machine (4) is fixedly arranged on the mounting seat (1), a steel cable is arranged at the output end of the first lifting machine (4), and the steel cable bypasses the lifting pulley (32);

The guide pulleys (51) are respectively arranged at two ends of each layer of channel barrel;

The traction arm (6), the traction arm (6) is a telescopic arm, the traction arm (6) is also provided with the driving hydraulic cylinder (31) for driving the telescopic arm, the first end of the traction arm (6) is rotatably connected with the hanging scaffold connecting upright post, and the second end of the traction arm is provided with a traction hook (61);

Wherein each layer of hanging scaffold below the top layer hanging scaffold is provided with one traction arm (6).

2. The hydraulic lifting vehicle for a mine construction hanging scaffold according to claim 1, wherein: the rope groove depth of the guide pulley (51) is not smaller than the diameter of the steel rope.

3. The hydraulic lifting vehicle for a mine construction hanging scaffold according to claim 2, wherein: the connecting upright post is fixedly connected with a traction seat (62), the traction arm (6) is rotatably arranged on the traction seat (62), and the traction seat (62) is also fixedly connected with the driving motor (21) to drive the traction arm (6) to rotate.

4. The hydraulic lifting vehicle for a mine construction hanging scaffold according to claim 1, wherein: the traction device is characterized in that a second lifting machine (7) is arranged on the traction seat (62), a steel cable is also arranged at the output end of the second lifting machine (7), a traction pulley (71) is arranged at one end, close to the traction hook (61), of the traction arm (6), and the steel cable bypasses the traction pulley (71) to be connected with the traction hook (61).

5. The hydraulic lifting vehicle for a mine construction hanging scaffold of claim 4, wherein: the traction pulleys (71) are provided with two, and a steel rope at the position of the traction pulleys (71) passes through the space between the two traction pulleys (71).

6. The hydraulic lifting vehicle for a mine construction hanging scaffold according to claim 1, wherein: the lower side of the lifting arm (3) is fixedly connected with a straight arm auxiliary rod (33), and the output end of the driving hydraulic cylinder (31) is connected to the lower end of the straight arm auxiliary rod (33).

7. The hydraulic lifting vehicle for a mine construction hanging scaffold of claim 5, wherein: the traction hook (61) is connected with one end of the steel cable to form a cylindrical end (611), and when the cylindrical end (611) is positioned between the traction pulleys (71), two rope grooves of the traction pulleys (71) are attached to two sides of the cylindrical end (611).

8. The hydraulic lifting vehicle for a mine construction hanging scaffold of claim 7, wherein: the cylindrical end (611) is in a circular tube shape, and the steel cable is inserted into and fixedly connected with the cylindrical end (611).