CN218586766U - High tower section of thick bamboo cable laying device - Google Patents

Abstract

The utility model discloses a high tower tube cable laying device, which comprises an unreeling component, a clamping and conveying component, a cable guiding component and a winch, wherein the clamping and conveying component is positioned on the wall of a tower tube close to the bottom end, the clamping and conveying component comprises two clamping wheels which synchronously rotate reversely, and a cable is arranged between the two clamping wheels; the cable guide assembly is arranged on the inner wall of the tower barrel and comprises a cable guide wheel, the cable guide wheel is rotatably arranged on a horizontally arranged fixed shaft, two sides of the cable guide wheel are respectively provided with an adjusting screw rod which is vertically arranged with the fixed shaft, the adjusting screw rods are arranged in the fixed shaft in a penetrating way, the penetrating parts are fixed by double nuts, and one end of each adjusting screw rod is fixedly connected to the inner wall of the tower barrel; a fixing block is arranged between the cable guide wheel and the inner wall of the tower barrel. The utility model discloses will pull and carry with the centre gripping and combine together, realize that the cable from high efficiency from bottom to top lays to it is firm fixed to make the cable realize, reaches quick installation and reduces intensity of labour's purpose.

Description

High tower section of thick bamboo cable laying device

Technical Field

The utility model relates to a high tower section of thick bamboo cable laying device belongs to cable installation technical field.

Background

At present, a high-power wind generating set is installed in a plain area with a slightly lower annual average wind speed, the wind generating set is developed towards a high tower barrel and large blades, and the tower barrel is developed towards light weight, namely the wind generating set with the flexible tower is called. The tower barrel of the flexible tower wind generating set is high, and some wind generating sets are more than 140 m.

Laying of gentle tower wind generating set tower section of thick bamboo cable, some adopt the segmentation to lay, cut off the cable after on the cable fixed mount of a tower section of thick bamboo, do insulating processing again after accomplishing with cable joint for the cable joint crimping after the hoist and mount is accomplished, the cable junction of this kind of mode has a lot of to connect, increases the possibility increase of cable fault. Some wind power generation units are laid from top to bottom, the cables are placed in the engine room, and the cables are laid after the wind power generation units are installed. And the other is that the cable is lifted up from one section to another section by adopting a hemp rope, which wastes time and labor.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to in the background art, a high tower section of thick bamboo cable laying device is provided, will pull and carry with the centre gripping and combine together, realize that the high efficiency of cable from bottom to top lays to it is firm fixed to make the cable realize, reaches quick installation and reduces intensity of labour's purpose.

For solving the technical problem, the utility model discloses a following technical scheme:

the high tower drum cable laying device comprises an unreeling assembly, a clamping and conveying assembly, a cable guide assembly and a winch; the clamping and conveying assembly is positioned on the cylinder wall of the tower cylinder close to the bottom end and comprises two clamping wheels which rotate reversely synchronously, and the cable penetrates between the two clamping wheels;

the cable guide assembly is arranged on the inner wall of the tower barrel and comprises a cable guide wheel, the cable guide wheel is rotatably arranged on a horizontally arranged fixed shaft, two sides of the cable guide wheel are respectively provided with an adjusting screw rod which is vertically arranged with the fixed shaft, the adjusting screw rods are arranged in the fixed shaft in a penetrating way, the penetrating parts are fixed by double nuts, and one end of each adjusting screw rod is fixedly connected to the inner wall of the tower barrel;

a fixing block is arranged between the cable guide wheel and the inner wall of the tower barrel.

The utility model provides an optimize scheme, the centre gripping wheel all wear to establish in the pivot, two pivots are and set up side by side, all are equipped with the gear in two pivots, gear intermeshing connects.

Furthermore, one of the rotating shafts is connected with an output shaft of the motor, and the motor provides power for synchronous reverse rotation of the two clamping wheels.

Further, the cable guide assembly is multiple in number and is arranged in the vertical direction.

Furthermore, the fixed block is arranged on the adjusting screw in a penetrating mode and fixed through a nut.

Further, the fixed block is made of rubber.

Furthermore, one side of the fixing block, which is close to the cable guide wheel, is provided with a U-shaped groove, and the width of the U-shaped groove is larger than that of the cable guide wheel.

Furthermore, the bottom in U type groove is equipped with the arc wall, adopts the matte setting in the arc wall.

Furthermore, the winch is installed at the bottom of the inner cavity of the tower barrel and is connected with the end part of the cable through a steel wire rope; the joint of the steel wire rope and the cable is connected by a fixed mesh bag.

Furthermore, the steel wire rope turns through a steel wire rope guide wheel, and the steel wire rope guide wheel is fixedly connected to the bottom of the inner cavity of the engine room.

The utility model adopts the above technical scheme after, compare with prior art, have following advantage:

the winch in the utility model provides a main power source for the lifting of the cable by driving the steel wire rope, the cable is upwards clamped and pushed by the clamping and conveying assembly in the lifting process, the clamping and conveying assembly provides a part of power source for the lifting of the cable, and the traction and the clamping and conveying are combined, so that the efficient laying of the cable from bottom to top is realized;

the cable is guided through the cable guide assembly, and after the cable is arranged in a penetrating mode, the position of the cable guide wheel is adjusted through the double nuts, so that the cable guide wheel moves towards the fixed block, and the cable is firmly fixed between the fixed block and the cable guide wheel.

The present invention will be described in detail with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic view of the installation of the present invention;

FIG. 2 is a schematic view of the structure of the clamping and conveying assembly;

fig. 3 is a schematic view of the structure of the cable guide assembly.

In the figure, 1-tower drum, 2-cabin, 3-unreeling component, 4-cable, 5-clamping conveying component, 51-clamping wheel, 52-gear, 53-motor, 6-cable guiding component, 61-cable guiding wheel, 62-fixed shaft, 63-adjusting screw, 64-fixed block, 65-U-shaped groove, 66-arc groove, 7-steel wire rope guiding wheel, 8-winch and 9-steel wire rope.

Detailed Description

In order to clearly understand the technical features, objects and effects of the present invention, the embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in fig. 1-3 jointly, the utility model provides a high tower section of thick bamboo cable laying device, including unreeling subassembly 3, centre gripping conveying component 5, cable direction subassembly 6 and hoist engine 8.

The unwinding assembly 3 is used for paying out the cable 4.

The clamping and conveying assembly 5 is located on the cylinder wall of the tower cylinder 1 close to the bottom end, and the clamping and conveying assembly 5 is used for upwards clamping and conveying the cable 4 discharged from the unwinding assembly 3.

Centre gripping conveying assembly 5 includes the centre gripping wheel 51 of two synchronous reversals, and cable 4 wears to establish between two centre gripping wheels 51, and centre gripping wheel 51 all wears to establish in the pivot, and two pivots are and set up side by side, all is equipped with gear 52 in two pivots, and gear 52 intermeshing connects.

One of the rotating shafts is connected with an output shaft of the motor 53, and the motor 53 provides power for synchronous reverse rotation of the two clamping wheels 51, so that the cable 4 is clamped and pushed upwards.

The cable guide assemblies 6 are mounted on the inner wall of the tower barrel 1, the number of the cable guide assemblies 6 is multiple, the cable guide assemblies 6 are arranged in the vertical direction, and the cable guide assemblies 6 are used for guiding the cables 4 in the vertical direction.

The cable guide assembly 6 comprises a cable guide wheel 61, the cable guide wheel 61 is rotatably installed on a horizontally arranged fixed shaft 62, two sides of the cable guide wheel 61 are respectively provided with an adjusting screw 63 which is vertical to the fixed shaft 62, the adjusting screw 63 is arranged in the fixed shaft 62 in a penetrating way, and the penetrating part is fixed by double nuts; one end of the adjusting screw 63 is fixedly connected to the inner wall of the tower tube 1.

A fixing block 64 is arranged between the cable guide wheel 61 and the inner wall of the tower tube 1, and the fixing block 64 penetrates through the adjusting screw 63 and is fixed through a nut. The fixing block 64 is made of rubber.

One side of the fixing block 64 close to the cable guide wheel 61 is provided with a U-shaped groove 65, the width of the U-shaped groove 65 is larger than that of the cable guide wheel 61, the cable 4 penetrates through the U-shaped groove 65 and is in rolling connection with the cable guide wheel 61, and the cable guide wheel 61 is used for assisting the cable 4 to move upwards.

The bottom of the U-shaped groove 65 is provided with an arc-shaped groove 66, and the arc-shaped groove 66 is internally provided with a hair surface, so that the function of enhancing friction is achieved.

After the cable 4 is threaded, the position of the cable guide wheel 61 is adjusted through the double nuts, so that the cable guide wheel 61 moves towards the fixing block 64, and the cable 4 is fixed between the fixing block 64 and the cable guide wheel 61.

The winch 8 provides a main power source for lifting the cable 4, the winch 8 is installed at the bottom of the inner cavity of the tower barrel 1, and the winch 8 is connected with the end part of the cable 4 through a steel wire rope 9; the joint of the steel wire rope 9 and the cable 4 is connected by a fixed mesh bag, and the fixed mesh bag belongs to the prior art, so the description is omitted.

The steel wire rope 9 is steered through the steel wire rope guide wheel 7, the steel wire rope guide wheel 7 is fixedly connected to the bottom of an inner cavity of the engine room 2, and the engine room 2 is installed at the top end of the tower barrel 1.

The utility model discloses a concrete theory of operation:

the winch 8 is started to discharge the steel wire rope 9, and one end of the steel wire rope 9 is connected with one end of the cable 4 by adopting a fixed mesh bag after bypassing the steel wire rope guide wheel 7, the cable guide component 6 and the clamping and conveying component 5. The winch 8 is started again, the winch 8 provides a main power source for lifting the cable 4 by driving the steel wire rope 9, the cable 4 is upwards clamped and pushed by the clamping and conveying assembly 5 in the lifting process, the clamping and conveying assembly 5 provides a part of power source for lifting the cable 4, the cable 4 is guided by the cable guiding assembly 6, and finally the cable 4 is pulled into the cabin 2; after the cable 4 is threaded, the position of the cable guide wheel 61 is adjusted through the double nuts, so that the cable guide wheel 61 moves towards the fixing block 64, and the cable 4 is firmly fixed between the fixing block 64 and the cable guide wheel 61.

The foregoing is illustrative of the best mode of the invention, and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The protection scope of the present invention is subject to the content of the claims, and any equivalent transformation based on the technical teaching of the present invention is also within the protection scope of the present invention.

Claims (10)

1. High tower section of thick bamboo cable laying device, its characterized in that: the device comprises an unreeling component (3), a clamping and conveying component (5), a cable guide component (6) and a winch (8);

the clamping and conveying assembly (5) is positioned on the cylinder wall of the tower cylinder (1) close to the bottom end, the clamping and conveying assembly (5) comprises two clamping wheels (51) which rotate reversely synchronously, and the cable (4) penetrates between the two clamping wheels (51);

the cable guide assembly (6) is installed on the inner wall of the tower barrel (1), the cable guide assembly (6) comprises a cable guide wheel (61), the cable guide wheel (61) is rotatably installed on a horizontally arranged fixed shaft (62), adjusting screw rods (63) which are perpendicular to the fixed shaft (62) are respectively arranged on two sides of the cable guide wheel (61), the adjusting screw rods (63) penetrate through the fixed shaft (62), the penetrating positions are fixed through double nuts, and one end of each adjusting screw rod (63) is fixedly connected to the inner wall of the tower barrel (1);

a fixing block (64) is arranged between the cable guide wheel (61) and the inner wall of the tower tube (1).

2. The high tower cabling arrangement of claim 1, wherein: centre gripping wheel (51) all wear to establish in the pivot, two pivots are and set up side by side, all be equipped with gear (52) in two pivots, gear (52) intermeshing connects.

3. The high tower cabling arrangement of claim 1, wherein: one rotating shaft is connected with an output shaft of a motor (53), and the motor (53) provides power for synchronous reverse rotation of the two clamping wheels (51).

4. The high tower cabling arrangement of claim 1, wherein: the cable guide assemblies (6) are multiple in number and are arranged in the vertical direction.

5. The high tower cabling arrangement of claim 1, wherein: the fixing block (64) penetrates through the adjusting screw rod (63) and is fixed through a nut.

6. The high tower cabling arrangement of claim 1, wherein: the fixing block (64) is made of rubber.

7. The high tower cabling arrangement of claim 1, wherein: one side of the fixing block (64) close to the cable guide wheel (61) is provided with a U-shaped groove (65), and the width of the U-shaped groove (65) is larger than that of the cable guide wheel (61).

8. The high tower cabling arrangement of claim 7, wherein: the bottom of the U-shaped groove (65) is provided with an arc-shaped groove (66), and the arc-shaped groove (66) is internally provided with a hair surface.

9. The high tower cabling arrangement of claim 1, wherein: the winch (8) is installed at the bottom of the inner cavity of the tower barrel (1), and the winch (8) is connected with the end part of the cable (4) through a steel wire rope (9); the joint of the steel wire rope (9) and the cable (4) is connected by a fixed mesh bag.

10. The high tower cabling arrangement of claim 9, wherein: the steel wire rope (9) turns through a steel wire rope guide wheel (7), and the steel wire rope guide wheel (7) is fixedly connected to the bottom of an inner cavity of the engine room (2).

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