CN212893270U - Cable removes strutting arrangement - Google Patents

Abstract

The application discloses cable removes strutting arrangement includes: the telescopic mobile system, its stiff end and removal end are provided with the cable junction portion that is used for the connecting cable both ends respectively, and telescopic mobile system is movably as for ground through running gear, and telescopic mobile system is provided with a plurality of cable support frames that are used for bearing the cable of arranging along its flexible direction, and cable support frame moves along the flexible direction along the flexible of telescopic mobile system, and the length of cable is more than or equal to telescopic mobile system's the biggest extension distance. During operation, the cable bearing is on cable support frame, and the both ends of cable are connected with telescopic moving system's stiff end and the cable junction portion who removes the end respectively, connect power supply unit and consumer respectively through two cable junction portions, and cable support frame moves along the flexible direction that stretches out and draws back along telescopic moving system's flexible, and the cable also extends and the bending is packed up, through the removal that has realized the cable, does not need the manual work to draw the cable, has improved work efficiency.

Description

Cable removes strutting arrangement

Technical Field

The utility model relates to a drilling equipment technical field, in particular to cable removes strutting arrangement.

Background

In order to improve the exploration and development progress and reduce the cost investment, a cluster well drilling method of drilling a plurality of wells on a platform by using a drilling machine is widely adopted at present. Land cluster wells are typically a platform with 3-6 wells, typically 5m apart. In drilling construction, in order to make the main equipment of drilling machine implement translation in every well, the derrick and base, drilling platform equipment, power machine and base are mounted on the translation guide rail, and the power generation room, silicon controlled room, drilling pump, mud circulating tank and its equipment which do not make translation with the derrick base can be directly placed on the well site ground. When a well is drilled, equipment needs to be translated to a lower well, normal operation of the electric equipment needs to be guaranteed, the electric equipment needs to be connected and extended to a connecting cable of power supply equipment, and the electric equipment is pulled one by one and placed neatly.

The existing cable treatment mode is that the cables are scattered on a transport vehicle in bulk, transported to a platform to be constructed, transported from the transport vehicle according to needs, connected with electric equipment and power supply equipment, and when one platform is constructed and moved to a new platform, the cables are detached from the electric equipment and the power supply equipment, coiled one by one and loaded into the transport vehicle. The cable is at the transport dismouting in-process, because the drilling cable has many to the specification differs, and the diameter is big, the quality is heavy, and manual connection is drawn and is dragged, and is fast, and the ageing is low, and intensity of labour is big, seriously reduces the operation ageing. In addition, the cables which are scattered on the transport vehicle in bulk can not be well protected during transportation, so that the insulation protection rubber outside the cables is damaged, and the safety accident that people are injured by electric shock is very easy to happen after the cables are used again.

In summary, how to reduce the labor intensity in the process of moving the cable and improve the working efficiency becomes a problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a cable removes strutting arrangement to reduce the intensity of labour who removes the cable in-process, improve work efficiency.

In order to achieve the above purpose, the utility model provides the following technical scheme:

a cable movement support device comprising:

the telescopic mobile system, telescopic mobile system's stiff end and removal end are provided with the cable junction portion that is used for connecting the cable both ends respectively, telescopic mobile system is movably as for ground through running gear, telescopic mobile system is provided with a plurality of cable support frames that are used for bearing the cable of arranging along its flexible direction, the cable support frame follows telescopic mobile system's flexible and move along the flexible direction, the length of cable is more than or equal to telescopic mobile system's the biggest distance that stretches out.

Preferably, in the above cable moving support apparatus, the telescopic moving system includes:

the moving frames are arranged along the extending direction and provided with the travelling mechanisms;

the cable support frame is fixed on the movable frame;

the movable frames are connected in series through the telescopic mechanisms;

and the power mechanism drives the movable frame to move along the telescopic direction through the travelling mechanism.

Preferably, in the above cable moving and supporting device, the cable supporting frame is provided with a plurality of limiting grooves for limiting the movement of the cable on the cable supporting frame along a direction perpendicular to the stretching direction.

Preferably, in the above cable moving support apparatus, the telescoping mechanism is a parallelogram multi-link mechanism, and the cross-hinged portion of the parallelogram multi-link mechanism is connected to the moving frame.

Preferably, in the above cable moving support apparatus, the power mechanism includes:

the frame is connected with the moving end of the telescopic mechanism or a moving frame positioned at the moving end of the telescopic moving system;

the motor is arranged on the frame;

the power wheel is in transmission connection with the motor through a transmission component, and the motor drives the power wheel to walk on the ground.

Preferably, in the above cable moving support apparatus, the cable connecting portion is provided with a plurality of bidirectional quick-connect plugs.

Preferably, in the above cable moving and supporting device, the cable supporting frame is provided at intervals of one or more moving frames.

Preferably, in the above cable moving and supporting device, a storage room is further included for storing the telescopic moving system and the cable in a collapsed state.

Preferably, in the above cable moving support apparatus, the storage room includes:

the house body is placed on the ground, an accommodating and guiding groove for accommodating and guiding the lower part of the telescopic moving system is formed in the bottom surface of the house body, and a structure for hoisting is arranged outside the house body;

the first door body is arranged at the rear end of the house body and is provided with one cable connecting part;

and the second door body is arranged at the front end of the house body.

Preferably, in the above cable moving and supporting device, the storage room further includes a blocking rod disposed in the room body and close to the second door body, and the blocking rod is rotatably erected above the accommodating guide groove and is used for limiting the extension of the telescopic moving system.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a cable removes strutting arrangement includes telescopic moving system, telescopic moving system's stiff end is provided with the cable junction portion who is used for the connecting cable both ends respectively with removing the end, telescopic moving system passes through the movably as for ground of running gear, telescopic moving system is provided with a plurality of cable support frames that are used for bearing cable of arranging along its flexible direction, cable support frame removes along the flexible direction along flexible moving system along flexible, the length of cable is more than or equal to telescopic moving system's the biggest extension distance.

This cable removes strutting arrangement during operation, the cable bearing is on cable support frame, the both ends of cable are connected with telescopic moving system's stiff end and the cable junction portion who removes the end respectively, connect power supply unit and consumer respectively through two cable junction portions, along with telescopic moving system's flexible, telescopic moving system passes through running gear and removes subaerial, change telescopic moving system's length, cable support frame also removes along the direction that stretches out and draws back, the cable is followed telescopic moving system and is extended and crooked and pack up, the length of cable is greater than or equal to telescopic moving system's the biggest extension distance, therefore, telescopic moving system's removal end removes to any position, the cable all can realize being connected with the equipment of different positions. The cable moving and supporting device facilitates the moving of the cable, the cable does not need to be pulled manually, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a cable moving support device according to an embodiment of the present invention;

fig. 2 is a schematic side view of a cable moving support device according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a schematic structural diagram of a telescopic moving system of a cable moving support device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a power mechanism of a telescopic moving system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a cable support frame of a telescopic mobile system according to an embodiment of the present invention.

Wherein, 1 is a telescopic moving system, 11 is a fixed end, 12 is a moving frame, 121 is a cross bar, 122 is a walking wheel shaft, 123 is a frame body, 124 is a walking mechanism, 13 is a cable support frame, 131 is a limit column, 14 is a telescopic mechanism, 15 is a moving end cable connecting part, 16 is a power mechanism, 161 is a frame, 162 is a motor, 163 is an intermediate shaft, 164 is a wheel shaft, 165 is a power wheel, 166 is a walking chain wheel, 167 is an intermediate transmission chain wheel, 168 is a motor chain wheel, 2 is a storage room, 21 is a room body, 22 is a first door body, 23 is a fixed end cable connecting part, 24 is a second door body, 25 is a containing guide groove, 26 is an ear plate, 27 is a stop lever, 28 is a hoisting structure, 29 is a reinforcing rib, and 3 is a cable.

Detailed Description

The core of the utility model is to provide a cable removes strutting arrangement can reduce the intensity of labour of removal cable in-process, improves work efficiency.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 3-4, an embodiment of the present invention provides a cable moving support device, including a telescopic moving system 1, where the telescopic moving system 1 has a fixed end 11 and a moving end, the fixed end 11 is fixed, and the telescopic moving system 1 is extended and retracted by moving the moving end, the fixed end 11 and the moving end of the telescopic moving system 1 are respectively provided with a cable connecting portion for connecting two ends of a cable 3, where the cable connecting portion at the fixed end 11 is a fixed end cable connecting portion 23, and the cable connecting portion at the moving end is a moving end cable connecting portion 15; telescopic moving system 1 is movably as for ground through running gear 124, realize light flexible removal through running gear 124, telescopic moving system 1 is provided with a plurality of cable support frames 13 that are used for bearing cable 3 of arranging along its flexible direction, the part that cable 3 is located between stiff end and the removal end is supported by cable support frame 13 bearing, cable support frame 13 moves along the direction of stretching out and drawing back along flexible moving system 1, realize interval grow and change between the adjacent cable support frame 13, the length of cable 3 is greater than or equal to telescopic moving system 1's the biggest distance that stretches out.

When the cable moving and supporting device works, the cable 3 is supported on the cable supporting frame 13, two ends of the cable 3 are respectively connected with the cable connecting parts of the fixed end 11 and the moving end of the telescopic moving system 1, the power supply equipment and the electric equipment are respectively connected through the two cable connecting parts, along with the expansion and contraction of the telescopic moving system 1, the telescopic moving system 1 moves on the ground through the walking mechanism 124, the length of the telescopic moving system 1 is changed, the cable supporting frame 13 also moves along the expansion and contraction direction, the cable 3 is always supported, the cable 3 extends and bends and folds along with the expansion and contraction of the telescopic moving system 1, the length of the cable 3 is larger than or equal to the maximum extending distance of the telescopic moving system 1, the minimum length of the telescopic moving system 1 is 7 m-8 m, the maximum length of the telescopic moving system 1 is 23 m-25 m, therefore, the moving end of the telescopic moving system 1 moves, cables at the mobile end can be connected with equipment at different positions. The cable 3 can be easily moved on different platforms through the cable moving and supporting device, the cable 3 does not need to be pulled manually, the labor intensity of workers is reduced, the cable coiling process is omitted, and the working efficiency is improved.

As shown in fig. 4, the present embodiment provides a specific telescopic moving system 1, which includes a plurality of moving frames 12, a cable support frame 13, a telescopic mechanism 14 and a power mechanism 16; wherein, a plurality of mobile frames 12 are arranged along the telescopic direction, and the mobile frames 12 are provided with a running gear 124. Preferably, the movable frame 12 includes a frame body 123, a cross rod 121, a traveling wheel shaft 122 and a traveling mechanism 124, wherein the traveling mechanism 124 is preferably a traveling wheel, the frame body 123 is an inverted U-shaped frame, two ends of the cross rod 121 are respectively and fixedly connected with two vertical rods of the inverted U-shaped frame, the traveling wheel shaft 122 is fixed at the bottom of the inverted U-shaped frame, the traveling wheel is rotatably connected to the traveling wheel shaft 122, specifically, the traveling wheel is rotatably connected through a bearing, pin holes are formed at two ends of the traveling wheel shaft 122, a wheel blocking pin is inserted into the pin hole, the traveling wheel is limited on the traveling wheel shaft 122 through the wheel blocking pin.

The cable support frame 13 is fixed on the movable frame 12, and is specifically fixed on the top of the movable frame 12; the movable frame 12 is connected in series through a telescopic mechanism 14; the power mechanism 16 drives the moving frame 12 to move in the telescopic direction through the traveling mechanism 124.

When the cable drawing device works, the power mechanism 16 drives the moving frames 12 to move along the stretching direction, the distance between the adjacent moving frames 12 is changed, and the cable support frames 13 are fixed on the moving frames 12, so that the distance between the adjacent cable support frames 13 is changed, the cable support frames 13 support the cable 3 to stretch and bend, and the movement of the cable 3 is realized.

Further, in this embodiment, the cross bars 121 are circular steel pipes or steel bars, the number of the cross bars 121 of each moving frame 12 is 1 to 3, and the length is 500 to 1000 mm; the frame body 123 is prefabricated by square steel pipes and has the height of 1500-2000 mm; the walking wheel is nylon or hard rubber, and the diameter is 100 ~ 300mm, and the outer circumference processing of walking wheel has the bar slot that increases frictional force, improves the walking wheel and grabs the land fertility when removing.

As shown in fig. 4 and 6, in the present embodiment, the cable support frame 13 is provided with a plurality of limiting grooves for limiting the movement of the cable 3 on the cable support frame 13 in the direction perpendicular to the telescopic direction. The spacing groove is formed through two spacing posts 131 that arrange adjacently, and every cable 3 is spacing in the spacing groove that two spacing posts 131 formed, and every spacing groove corresponds bracketing a cable 3 to the whole row of many cables 3 has been realized hanging.

Preferably, the cable support frame 13 is made of inverted concave steel, the shape of the cable support frame is consistent with that of the top of the movable frame 12, the cable support frame is buckled on a square pipe at the top of the movable frame 12 through a groove, and the cable support frame is positioned and fixed through a positioning bolt. In order to orderly hang and arrange the drilling cables and fix the drilling cables on the cable support frame 13, the upper ends of the straight brackets at the left and right ends of the drilling cables are welded with limiting columns 131, the limiting columns 131 are evenly distributed, and the distance is 10-100 mm.

In this embodiment, the telescopic mechanism 14 is a parallelogram multi-link mechanism, and the cross-hinged portion of the parallelogram multi-link mechanism is connected to the moving frame 12. The telescopic mechanism 14 is composed of a plurality of groups of parallelogram connecting rods, each group is 4 connecting rods with equal length, each connecting rod is 300-500 mm long, and every two connecting rods are hinged to form a parallelogram. The two symmetrical points of the quadrangle are respectively connected with two adjacent moving frames, and are particularly inserted into the cross bar 121 of the moving frame 12 to connect the moving frames 12 together, so that the moving frame 12 can be stretched and retracted forward. In order to ensure the stable connection of the movable frames 12, 1-3 sets of the telescopic mechanisms 14 are arranged between the two movable frames 12.

Of course, the telescopic mechanism 14 may also be a telescopic cylinder mechanism, and the telescopic cylinder mechanism is connected between two adjacent moving frames 12. The forward stretching and the retraction folding of the movable frame 12 can be realized, and the movement of the cable 3 can be realized.

As shown in fig. 4 and 5, the present embodiment provides a specific power mechanism 16, which includes a frame 161, a motor 162, a transmission member, and a power wheel 165; the mobile end cable connection part 15 is arranged at the top of the rack 161, and the rack 161 is connected with the mobile end of the telescopic mechanism 14 or the mobile frame 12 at the mobile end of the telescopic mobile system 1; the motor 162 is arranged on the frame 161; the power wheel 165 is in transmission connection with the motor 162 through a transmission component, and the motor 162 drives the power wheel 165 to walk on the ground.

When the telescopic device works, the motor 162 drives the power wheel 165 to rotate, the power wheel 165 runs on the ground, the whole power mechanism 16 moves, the power mechanism 16 drives the telescopic mechanism 14 to extend and retract, and the movable frame 12 is driven to advance, stretch and retract.

Specifically, the frame 161 is surrounded by a box plate, the transmission component includes a motor sprocket 168, an intermediate shaft 163, an intermediate transmission sprocket 167, a wheel shaft 164 and a walking sprocket 166, wherein the motor sprocket 168 is fixed on the motor shaft, the intermediate shaft 163 is disposed on the frame 161, the intermediate shaft 163, the motor shaft and the wheel shaft 164 are arranged in parallel, the intermediate transmission sprocket 167 is rotatably connected to the intermediate shaft 163, the wheel shaft 164 is rotatably connected to the frame 161, the walking sprocket 166 is fixed on the wheel shaft 164, the power wheel 165 is fixed on two ends of the wheel shaft 164, the intermediate transmission sprocket 167 has a large sprocket and a small sprocket which are coaxially fixed, the large sprocket is connected with the motor sprocket 168 through chain transmission, and the small sprocket is connected with the.

During operation, the motor 162 drives the motor shaft to rotate, the motor shaft drives the motor chain wheel 168 to rotate, the motor chain wheel 168 drives the middle transmission chain wheel 167 to rotate, and then drives the walking chain wheel 166 to rotate, and the walking chain wheel 166 and the power wheel 165 are both fixed with the wheel shaft 164, so that the walking chain wheel 166 drives the wheel shaft 164 and the power wheel 165 to rotate, and the movement of the power mechanism 16 is realized.

Of course, the transmission member may be a gear set, a pulley set, or the like, as long as power transmission between the motor 162 and the power wheel 165 is achieved.

Further, the frame 161 is made of four steel plates, and the left and right box plates are symmetrically provided with shaft holes for mounting the intermediate shaft 163 and the wheel axle 164; the motor 162 is a low-speed motor with the power of 1-3 kilowatts, and the motor 162 is started or stopped remotely through a remote control device.

The power mechanism 16 may be other than the above-mentioned mechanism, for example, the running mechanism 124 of each moving frame 12 is directly driven by the motor 162, and the telescopic movement of the telescopic moving system 1 can be realized.

As shown in fig. 1-4, in this embodiment, the cable connection portion is provided with a plurality of bidirectional quick connectors, one end of each of the bidirectional quick connectors is connected to one end of a cable 3, and the other end of each of the bidirectional quick connectors is connected to the power supply device or the electric device, so that the cables can be quickly detached from the power supply device and the electric device, and the cables 3 are integrally connected to the cable connection portion, thereby preventing the cable connectors from being scattered, and facilitating and speeding operation.

Further, in this embodiment, the cable support frame 13 is disposed at intervals of one or more moving frames 12, so as to support a longer cable 3 and provide a folding space for folding the cable 3.

As shown in fig. 1 and 2, the cable moving and supporting device is further optimized, and in this embodiment, the cable moving and supporting device further comprises a storage room 2 for storing the telescopic moving system 1 and the cable 3 in a folded state.

During the use, open and accomodate room 2, telescopic moving system 1 bearing cable 3 shifts out and accomodates room 2, when not using, with telescopic moving system 1 bearing cable 3 move into accomodate room 2, close accomodate room 2 to protect cable 3 and telescopic moving system 1, wholly will accomodate the room and load up the transport vechicle and transport, avoid cable 3 to expose outdoors, prevent that the insulating protection rubber of cable 3 outside is damaged, avoid taking place to electrocute and hinder people's incident.

Specifically, in the present embodiment, the storage room 2 includes a room body 21, a first door body 22, and a second door body 24; wherein, the room body 21 is placed on ground, and the bottom surface of the room body 21 is provided with the direction recess 25 that holds that is used for the holding and leads the lower part of telescopic moving system 1, and the inside bottom surface of the room body 21 is the spill, and groove top floor and tank bottom floor difference in height 300 ~ 500 mm. A hoisting structure 28 is arranged outside the house body 21, the house body 21 is hoisted through the hoisting structure 28, and the hoisting structure 28 can be a hanging bar or a lifting lug; the first door body 22 is arranged at the rear end of the house body 21 and is close to the fixed end 11 of the telescopic mobile system 1, and the first door body 22 is provided with a cable connecting part, namely a fixed-end cable connecting part 23; the second door 24 is provided at the front end of the body 21, near the moving end of the telescopic moving system 1.

During operation, the room body 21 is hoisted through hoisting structure 28, and place in ground, remove telescopic moving system 1 to the room body 21 in, the stiff end 11 of telescopic moving system 1 is fixed in the door frame of the first door body 22 of the room body 21, cable 3 is with "U" type state, hang the row, the card is fixed between the spacing post 131 of every cable support frame 13, connect the stiff end of cable 3 in the fixed end cable connecting portion 23 that is located on the first door body 22 again, the removal end of cable 3 is connected on being located the removal end cable connecting portion 15 on power unit 16, specifically, be connected the both ends of cable 3 with two-way quick connector respectively. When the second door body 24 is opened, the lower traveling mechanism 124 of the telescopic moving system 1 moves in the bottom-surface-receiving guide groove 25 of the housing 21 and moves out of the housing 21. The furled cables 3 and the telescopic moving system 1 are protected by the house body 21.

Further, the storage room 2 further includes a blocking rod 27 disposed in the room body 21 and close to the second door 24, and the blocking rod 27 is pivotally erected above the accommodating guide groove 25 for limiting the extension of the telescopic moving system 1. Specifically, the blocking rod 27 is mounted and fixed on an ear plate 26 at the front end of the top plate of the accommodating guide groove 25 in a reversible manner through a fixing pin, the ear plate 26 is preferably a double-ear plate, when the blocking rod 27 is turned over from a position transversely above the accommodating guide groove 25, the moving end of the telescopic moving system 1 can be moved out of the accommodating guide groove 25, and when the telescopic moving system 1 is retracted and folded in the room body 21, the blocking rod 27 is turned transversely above the accommodating guide groove 25 to block the moving end of the telescopic moving system 1, so that the telescopic moving system 1 is prevented from moving in the room body 21.

Specifically, the house body 21 is a train house processed by steel, and has a length of 8-10 m, a width of 2.5-3 m and a height of 2-3 m. The bottom outside the house body 21 is provided with a reinforcing rib 29, and the reinforcing rib 29 is perpendicular to the length direction of the accommodating guide groove 25 for reinforcing the structural strength of the accommodating guide groove 25. The reinforcing ribs 29 are reinforcing ribs welded to the outer bottom of the house body 21.

Further, in order to facilitate the telescopic moving system 1 to conveniently go in and out of the storage room 2 and freely advance and retract on the ground, the accommodating guide groove 25 is 20-40 mm wider than the traveling mechanism 124 of the telescopic moving system 1, the distance between the bottom surface of the accommodating guide groove 25 and the ground is 30-50 mm, and the front end surface is a slope surface of 15-30 degrees.

In this embodiment, the stop bar 27 is a square tube type formed by butt welding channel steel, in order to ensure strength, the width of four sides is not less than 100-200 mm, and the two ends of the stop bar are welded with single lug plates matched with the double lug plates.

When the drilling machine is moved to a new platform, the cable moving and supporting device is conveyed to a construction site along with the drilling machine, the cable moving and supporting device is parallelly placed on the site in front of a machine room base and under a drill floor deflection room, a cable of power supply equipment is connected with a bidirectional quick-plugging connector of a fixed end cable connecting part 23 of a first door body 22 of a storage room 2, a second door body 24 and a stop lever 27 are opened, and a cable of electric equipment is connected with a bidirectional quick-plugging connector of a moving end cable connecting part 15 on a power mechanism 16 of a telescopic moving system 1, namely, the quick connection of a power supply line is completed, so that the device is in a use state. After the first well is drilled, when the drilling machine needs to be moved forwards to a second well for construction, the motor 162 of the power mechanism 16 is started only by remote control to drive the power wheel 165 to rotate, so that the power mechanism 16 drives the telescopic mechanism 14 to stretch, further drives the travelling wheels of the movable frame 12 to travel, and drives the movable frame 12 and the cable support frame 13 to move forwards, so that the cable 3 is stretched and extended, and the automatic stretching and extension of the cable 3 to a proper position can be completed. When the second well construction is finished and the second well construction needs to be translated to a third well construction, the motor 162 of the power mechanism 16 is remotely controlled to be started again, and the automatic stretching and extension of the cable 3 can be achieved. If the drilling machine needs to be translated again, the extension requirement of the cable 3 can be met only by remote control operation again, so that the procedures of connecting the cable 3 midway, pulling and placing and the like are omitted, and the purpose of remotely controlling and mechanically and automatically stretching the cable 3 is achieved. When all wells on the platform are constructed and need to be moved, only power supply equipment cables and power consumption equipment cables need to be detached, a motor 162 of the power mechanism 16 is started in a remote control mode, the power wheel 165 rotates reversely, the power mechanism 16 is made to move backwards, the moving frame 12 is pushed to move backwards, all the telescopic mechanisms 14 are made to be completely compressed, the telescopic moving system 1 and the cables 3 are all retracted and folded into the containing room 2, the stop rods 27 are put down and locked, the first door body 22 and the second door body 24 are closed, and the hoisting structure 28 is hung by a crane and a hoisting belt and is loaded into a transport vehicle, so that manual folding, cable coiling and loading are avoided, stretching, folding automation and integral moving are achieved, and damage of the cables in transportation is effectively avoided.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A cable movement support device, comprising:

telescopic moving system (1), stiff end (11) and the removal end of telescopic moving system (1) are provided with the cable junction portion who is used for connecting cable (3) both ends respectively, telescopic moving system (1) is movably as for ground through running gear (124), telescopic moving system (1) is provided with a plurality of cable support frame (13) that are used for bearing cable (3) of arranging along its flexible direction, cable support frame (13) are followed telescopic moving system (1) is flexible and is followed the direction of stretching out and drawing back and remove, the length of cable (3) is greater than or equal to the biggest extension distance of telescopic moving system (1).

2. The cable movement support device according to claim 1, characterized in that said telescopic movement system (1) comprises:

the moving frames (12) are arranged along the extending direction, and the moving frames (12) are provided with the travelling mechanisms (124);

the cable support frame (13) is fixed on the moving frame (12);

the telescopic mechanism (14) is used for connecting the movable frame (12) in series through the telescopic mechanism (14);

and the power mechanism (16) drives the moving frame (12) to move along the extension direction through the traveling mechanism (124).

3. The cable movement support device according to claim 2, characterized in that the cable support frame (13) is provided with a plurality of limiting grooves for limiting the movement of the cable (3) on the cable support frame (13) in a direction perpendicular to the telescoping direction.

4. The cable movement support device according to claim 2, characterized in that the telescopic mechanism (14) is a parallelogram multi-link mechanism, the cross-hinged portion of which is connected to the moving frame (12).

5. The cable movement support device according to claim 2, characterized in that said power mechanism (16) comprises:

a frame (161) connected to a moving end of the telescoping mechanism (14) or a moving frame (12) located at a moving end of the telescoping moving system (1);

a motor (162) provided to the frame (161);

the power wheel (165) is in transmission connection with the motor (162) through a transmission component, and the motor (162) drives the power wheel (165) to walk on the ground.

6. The cable movement support apparatus of claim 1, wherein the cable connection portion is provided with a plurality of bi-directional quick-connect connectors.

7. The cable movement support device according to claim 2, characterized in that the cable support frame (13) is provided one or more apart from each other of the movement frames (12).

8. Cable movement support device according to any one of claims 1 to 7, further comprising a housing (2) for housing the telescopic movement system (1) and the cable (3) in a collapsed state.

9. Cable movement support device according to claim 8, characterized in that said housing (2) comprises:

the house body (21), the house body (21) is placed on the ground, a containing and guiding groove (25) used for containing and guiding the lower part of the telescopic moving system (1) is formed in the bottom surface of the house body (21), and a hoisting structure (28) is arranged outside the house body (21);

the first door body (22) is arranged at the rear end of the house body (21), and the first door body (22) is provided with one cable connecting part;

and a second door body (24) arranged at the front end of the house body (21).

10. The cable movement support device according to claim 9, wherein the housing (2) further comprises a stop lever (27) disposed in the housing (21) and adjacent to the second door (24), the stop lever (27) being pivotally mounted above the receiving guide groove (25) for limiting the extension of the retractable movement system (1).

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