CN221026807U - Pay-off for power engineering - Google Patents

Abstract

The utility model discloses a paying-off device for power engineering, and relates to the technical field of power engineering. The utility model comprises a wire storage rod, a lifting auxiliary assembly and a side fixed main rod, wherein the top of the wire storage rod is clamped with the lifting auxiliary assembly, two sides of the wire storage rod are welded with rotary grabbing rings, a paying-off rotating shaft is inserted in the axis of the wire storage rod, and the wire storage rod is rotationally connected with the side fixed main rod at two sides through the paying-off rotating shaft. The utility model can be stably fixed on a slope through being provided with the soil fixing pegs, and the top of the utility model is connected with the lifting auxiliary component, so that the crane is helped to control the gravity center of the lifted paying-off device in the middle, and the problems that the existing paying-off device for electric power engineering is inconvenient to place on the slope and easy to turn over, and the gravity center is difficult to control in the center and the structure of the paying-off device is possibly damaged when the crane is transported are solved.

Description

Pay-off for power engineering

Technical Field

The utility model belongs to the technical field of power engineering, and particularly relates to a paying-off device for power engineering.

Background

Electric power engineering, i.e. engineering related to the production, transportation, distribution of electrical energy, also includes in a broad sense engineering where electricity is used as power and energy in various fields; the most important in the initial stage is the installation work of cable, and transport cable needs a large amount of pay-off for electric power engineering to after transporting to the scene, can be quick orderly unwrapping wire, and install the cable, and current open literature, CN 214166958U-one kind is used for electric power engineering installation to be provided with movable wheel, traction plate and traction frame, can pull and spacing a plurality of cables simultaneously, and efficiency is higher, has solved current electric power engineering pay-off and has been difficult to realize carrying out the drawing unwrapping wire operation to a plurality of cables, trades the slow and loaded down with trivial details of line process, problem that work efficiency is lower. However, the following drawbacks still exist in practical use:

1. The existing paying-off device for the power engineering is usually a high-voltage wire, is thick and heavy, and is often required to pay off on a slope when used in a remote mountain area, and is affected by weight, the bottom is unstable, rollover phenomenon can occur, certain damage is caused, workers can be injured, and the engineering progress is affected;

2. The existing paying-off device for power engineering is heavy in overall mass and inconvenient to move, a crane is usually required to move the paying-off device onto a vehicle for transportation, and finally the crane is used for moving to the ground.

Disclosure of utility model

The utility model aims to provide a paying-off device for electric power engineering, which can be stably fixed on a slope through being provided with a soil fixing peg, is connected with a lifting auxiliary component at the top and helps a crane to control the gravity center of the lifted paying-off device in the middle, and solves the problems that the existing paying-off device for electric power engineering is inconvenient to place on the slope and easy to turn over, and the gravity center is difficult to control in the center and the structure of the paying-off device is possibly damaged when the crane is transported.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

The utility model relates to a paying-off device for electric power engineering, which comprises a wire storage rod, a lifting auxiliary assembly and a side fixed main rod, wherein the top of the wire storage rod is clamped with the lifting auxiliary assembly, two sides of the wire storage rod are welded with rotating grabbing rings, a paying-off rotating shaft is inserted into the axis of the wire storage rod, and the wire storage rod is rotatably connected with the side fixed main rod at two sides through the paying-off rotating shaft.

Further, the auxiliary lifting assembly consists of a lifting rod main body, auxiliary lifting rings and wire frame clamping pieces, wherein the auxiliary lifting rings are welded at the top of the lifting rod main body, and the wire frame clamping pieces are connected to the two side rods of the lifting rod main body in a sliding manner.

Further, a structural reinforcing rod is welded between the boom main bodies, a connecting welding piece is welded at the middle position of the boom main bodies, and the top of the connecting welding piece is welded with the bottom of the auxiliary lifting ring.

Further, a clamping inner groove is formed in the peripheral side face of the wire frame clamping piece, the wire frame clamping piece is clamped between limit bolts on two sides, and an anti-slip rubber pad is arranged on the inner side of the clamping inner groove.

Further, both sides of the side fixed main rod are welded with both sides fixed rods, the bottom of the side fixed main rod and the bottom of the both sides fixed rods are welded with a supporting base together, and bolts are connected with soil fixing bolts at the positions of both sides of the supporting base.

Further, the top welding of soil fixed peg has the rotation handle, and soil fixed peg bottom is equipped with and bores the screw thread, and side fixed mobile jib upside is connected with the lifter, and lifter top welding has the pivot mounting, and pivot mounting axle center department is equipped with the pivot spliced eye.

The utility model has the following beneficial effects:

1. Pay-off for power engineering is equipped with the connector of soil fixed peg in both sides, can connect the peg, inserts inside the soil with both sides, also can be through peg angle regulation, effectively avoids the condition of turning on one's side, also can fix subaerial more steadily, and is more practical, guarantees the normal clear of engineering.

2. The utility model provides a pay-off for power engineering disposes at the top and lifts by crane auxiliary assembly, can freely adjust the size of both sides, adapts to the pay-off of various sizes, and after the joint was good, the crane can lift the intermediate position, and weight is pressed one side when avoiding the transportation, has protected the binding structure and the pivot of coil, does not influence the unwrapping wire progress.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of a pay-off device for power engineering;

FIG. 2 is a schematic view of a construction of a lifting assist assembly;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A;

Fig. 4 is a schematic structural view of the side fixing boom.

In the drawings, the list of components represented by the various numbers is as follows:

1. A wire receiving rod; 101. rotating the grab ring; 102. paying-off rotating shafts; 2. lifting the auxiliary assembly; 201. a boom body; 2011. a structural reinforcing rod; 2012. connecting a welding piece; 202. auxiliary hanging rings; 203. a wire frame clamping piece; 2031. clamping the inner groove; 2032. a limit bolt; 3. a side fixed main rod; 301. two side fixing rods; 302. a support base; 303. soil fixing pegs; 3031. rotating the handle; 3032. drilling into the thread; 304. a lifting rod; 305. a rotating shaft fixing member; 3051. and the rotating shaft is inserted into the hole.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 and 4, the utility model provides a paying-off device for electric power engineering, which comprises a wire storage rod 1, a lifting auxiliary assembly 2 and side fixing main rods 3, wherein the top of the wire storage rod 1 is clamped with the lifting auxiliary assembly 2, two sides of the wire storage rod 1 are welded with rotating grabbing rings 101, a paying-off rotating shaft 102 is inserted at the axis center of the wire storage rod 1, the wire storage rod 1 is rotationally connected with the side fixing main rods 3 at two sides through the paying-off rotating shaft 102, clamping inner grooves 2031 are formed in the side surfaces of the periphery of a wire frame clamping member 203, the wire frame clamping member 203 is clamped between limit bolts 2032 at two sides, anti-skid rubber mats are arranged on the inner sides of the clamping inner grooves 2031, two side fixing rods 301 are welded at two sides of the side fixing main rods 3, and a supporting base 302 is welded at the bottoms of the side fixing main rods 3 and the two side fixing rods 301.

When the pay-off device for the power engineering is used in a normal area, a cable is bound on the periphery side of the online storage rod 1, then the pay-off rotating shaft 102 is inserted in the cable, the side fixing main rod 3 is connected, and when the pay-off device is used, the support base 302 can be placed on the ground, so that the rotating grab ring 101 rotates, and the pay-off work can be performed.

As shown in fig. 2 and fig. 3, the lifting auxiliary assembly 2 is composed of a boom main body 201, an auxiliary lifting ring 202 and a wire frame clamping member 203, the auxiliary lifting ring 202 is welded at the top of the boom main body 201, the wire frame clamping member 203 is slidingly connected to the periphery of two side rods of the boom main body 201, a structural reinforcing rod 2011 is welded between the boom main bodies 201, a connecting welding member 2012 is welded at the middle position of the boom main body 201, and the top of the connecting welding member 2012 is welded with the bottom of the auxiliary lifting ring 202.

When the auxiliary lifting assembly 2 is used, the wire frame clamping member 203 is firstly slid along the boom main body 201 to be adjusted to a proper length, the wire frame clamping member 203 is clamped to the lower side of the rotary grab ring 101, and then the lifting hook can be connected with the auxiliary lifting ring 202 to carry out lifting and transportation work.

As shown in fig. 4, two sides of the support base 302 are connected with soil fixing pegs 303 through bolts, a rotating handle 3031 is welded at the top of each soil fixing peg 303, drilling threads 3032 are arranged at the bottom of each soil fixing peg 303, a lifting rod 304 is connected to the upper side of each side fixing main rod 3, a rotating shaft fixing piece 305 is welded at the top of each lifting rod 304, and a rotating shaft inserting hole 3051 is formed in the axis of each rotating shaft fixing piece 305.

When paying off on a slope with an oblique angle is needed, firstly, the paying-off device is moved to the slope, then the soil fixing pegs 303 are taken out and connected to two sides of the supporting base 302, then the drilling threads 3032 are used for drilling into soil, the angle is adjusted, the paying-off device is in a horizontal state, and after the soil fixing pegs 303 at two sides are fixed, paying-off can be started.

The utility model has the specific application as follows: when the pay-off device for electric power engineering is used in a normal area, a cable is bound on the periphery side of the online storage rod 1, then the pay-off rotating shaft 102 is inserted and connected, and the side fixing main rod 3 is connected; when the lifting auxiliary assembly 2 is used, firstly, the wire frame clamping piece 203 slides along the suspender main body 201 to be adjusted to a proper length, the wire frame clamping piece 203 is clamped to the lower side of the rotary grab ring 101, and then the lifting hook can be connected with the auxiliary lifting ring 202 to carry out lifting and transportation work; when paying off on a slope with an oblique angle is needed, firstly, the paying-off device is moved to the slope, then the soil fixing pegs 303 are taken out and connected to two sides of the supporting base 302, then the drilling threads 3032 are used for drilling into soil, the angle is adjusted, the paying-off device is in a horizontal state, and after the soil fixing pegs 303 at two sides are fixed, paying-off can be started.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (6)

1. Pay-off for power engineering, including pole (1) are accomodate to the line, hoist auxiliary assembly (2) and side fixed mobile jib (3), its characterized in that: the wire storage rod is characterized in that the top of the wire storage rod (1) is clamped with the lifting auxiliary assembly (2), rotating grabbing rings (101) are welded on two sides of the wire storage rod (1), a paying-off rotating shaft (102) is inserted into the axis of the wire storage rod (1), and the wire storage rod (1) is connected with the side fixing main rod (3) in a rotating mode at two sides through the paying-off rotating shaft (102).

2. The pay-off device for electric power engineering according to claim 1, wherein: the auxiliary lifting assembly (2) is composed of a lifting rod main body (201), auxiliary lifting rings (202) and wire frame clamping pieces (203), the auxiliary lifting rings (202) are welded at the top of the lifting rod main body (201), and the wire frame clamping pieces (203) are connected to the two sides of the lifting rod main body (201) in a sliding mode around the two rods.

3. The pay-off device for electric power engineering according to claim 2, wherein: a structural reinforcing rod (2011) is welded between the boom main bodies (201), a connecting welding piece (2012) is welded at the middle position of the boom main bodies (201), and the top of the connecting welding piece (2012) is welded with the bottom of the auxiliary lifting ring (202).

4. The pay-off device for electric power engineering according to claim 2, wherein: the wire frame clamping piece (203) is characterized in that a clamping inner groove (2031) is formed in the peripheral side face of the wire frame clamping piece (203), the wire frame clamping piece (203) is clamped between limit bolts (2032) on two sides, and an anti-slip rubber pad is arranged on the inner side of the clamping inner groove (2031).

5. The pay-off device for electric power engineering according to claim 1, wherein: the soil fixing device is characterized in that two sides of the side fixing main rod (3) are welded with two side fixing rods (301), the bottom of the side fixing main rod (3) and the bottom of the two side fixing rods (301) are welded with a supporting base (302) together, and two side positions of the supporting base (302) are connected with soil fixing studs (303) through bolts.

6. The pay-off device for electric power engineering according to claim 5, wherein: the soil fixing bolt is characterized in that a rotating handle (3031) is welded at the top of the soil fixing bolt (303), drilling threads (3032) are formed in the bottom of the soil fixing bolt (303), a lifting rod (304) is connected to the upper side of the side fixing main rod (3), a rotating shaft fixing piece (305) is welded at the top of the lifting rod (304), and a rotating shaft inserting hole (3051) is formed in the axis of the rotating shaft fixing piece (305).