KR101218061B1 - Winch for laying electric wire in pipe mountable on excavator - Google Patents

Abstract

PURPOSE: A winch mounted in an excavator for wiring in a conduit is provided to facilitate wiring by forming a winding drum around which a tow rope is wound using a hydraulic motor. CONSTITUTION: A link is formed on an arm end of an excavator. A combining hole is connected to the link by a fixing pin. A reducer(100) includes a body from which a pair of connection brackets are protruded. A hydraulic motor(200) is formed on one side of the reducer. A winding drum(300) winds a tow rope by receiving torque from the reducer.

Description

Winch for laying electric wire in pipe mountable on excavator}

The present invention relates to a winch for pulling out the wire during the removal and installation of the electric wire in the pipeline, more specifically provided with a winch mounted to the link formed on the arm end of the excavator, wherein the winch is driven by a hydraulic motor By forming a winding drum in which the towing rope is wound, it facilitates the dismantling of the electric wire installed in the underground electric wire conduit and the wiring of the new electric wire. In particular, the excavator is easily used and the mobility and space is secured according to the working environment. The invention relates to a winch for wire wiring in an excavator-mounted conduit that is easily accessible.

In 1973, the underground process of overhead lines in Korea was started by relocating the electric poles along the main road to the back alley in the aspect of cable maintenance from Hyo Auto to Gwanghwamun, and supplying nearby customers from low-voltage cables using low voltage cables.

After recognizing the necessity of the underground business to improve the urban aesthetics, the underground railway business plan steadily increased, and withdraw the distribution lines of the multi-line in the construction of substations or the expansion of surrounding transformers in existing substations. In order to achieve this, underground distribution lines are prepared for future load increase by installing a conduit line in a power outlet or a distribution system. The target is the area near the substation drawer where the overhead line is concentrated, the place crossing the overpass, the highway, the railroad, etc. It is an area where administrative agencies and business cooperation are smooth.

In addition, as the city is developed and a new development complex is being built up, the proportion of the underground is gradually increasing. As the city plans to build construction and power lines under the ground, this project is carried out in consultation with the administrative ministries. This is being applied.

On the other hand, there is a method of construction of underground lines by the underground lines, such as direct sales, pipelines, old fashioned, etc. The characteristics and application criteria are as follows.

(1) direct sale

Power cables are directly buried in the ground, usually using troughs as cable protection, to protect the cables, and then cover and backfill them with sand. This method, however, involves road excavation when the cable is replaced, and is rarely used today.

-2 cable lines or less

-If line expansion is not expected in the future

-If the excavation is easy later

-Inevitable due to other conditions

(2) pipeline type

After pipes are constructed using pipes such as synthetic resin pipes, steel pipes, and fume pipes, cables are laid. Manholes are installed at both ends of the pipes at a certain distance to install and connect the cables. This method is mainly used because of the ease of maintenance.

-The number of cable lines is more than three lines less than nine lines

-If line expansion is expected in the future

If there is a road paving plan

-Direct sale is disadvantageous

(3) old fashioned

As a tunnel structure, such as a tunnel, the upper structure is a structure that can be laid on the inner wall side and allow workers to carry out maintenance work. Usually applies to

-9 or more cable lines

-When split construction of pipes (8 holes or less) is impossible on both sides of the road

-Cable multi-line outgoing point of power generation and substation

-In case of difficulty in direct sales or pipeline

As described above, the tube line construction method is mainly used.At this time, the underground line laying method by means of the tube line type is to enter and withdraw the wires through the manhole on one side and withdraw the manhole through the manhole on the other side. The way is applied.

That is, the tow rope is drawn through the outlet manhole of the electric wire to the entrance and the inlet side of the electric wire, and then the electric wire is connected to the end of the electric wire rope, and the tow rope is put into the towing rope at the exit side of the electric wire. To pull or wire the traction equipment installed in the vehicle separately.

However, the wire drawing operation as described above requires a considerable tensile force when pulling the towing rope connected by the wire, there is a problem in that a number of manpower is consumed as well as the work performance is reduced.

In addition, as shown in the Republic of Korea Patent Publication No. 2009-0043055, there is provided a cable entry and withdrawal device for underground pipelines consisting of a cable accommodating portion, a cable dust collecting portion, a cable guide portion, a cable release portion. Such a device is to be used a large number of equipment, due to the size of the large size, there was a problem that it is not easy to secure the space according to the increase in construction cost and installation of the traction equipment due to the equipment input.

The present invention has been made to solve the above problems, a hydraulic motor is connected to the hydraulic device of the excavator is formed on one side of the reducer constituting the winch body to generate a rotational power by the hydraulic pressure, decelerated by the reducer on the front Forming a winding drum for winding the towing rope by the rotational force, by forming a connecting bracket connected to the link of the excavator arm on the upper part of the reducer, the winch is simply installed around the manhole to be connected to the excavator arm and work It is possible to dismantle and install the electric wire through the towing rope wound by rotating the winding drum in the excavator driver's seat without additional manpower. Especially, it is easy to secure the work space by having a compact structure. The operation direction can be set even by simple operation of the excavator. The object of this is that the wire within the wire excavators which allows the astute mounted winch duct work to provide invention.

Specific means for achieving the above object, the speed reducer forming a body protruding a pair of opposite connection brackets having one or more fastening holes connected to the link formed at the end of the excavator arm;

A hydraulic motor which is formed at one side of the reducer and is connected to the hydraulic device of the excavator by a hydraulic tube to impart rotational force in the forward and reverse directions to the reducer by hydraulic pressure that is operated in the driver's seat of the excavator;

A guiding drum formed on the front of the reducer, the traction rope being rotated by a rotational force decelerated by the reducer; And

Is formed in the lower portion of the reducer can be achieved by including a supporter for fixing to the ground.

As described above, the winch for wire wiring work in the excavator-mounted pipe line of the present invention can be easily installed in the periphery of the manhole to be easily connected to and operated by the excavator arm, and at the same time, the operation of winding the tow rope can be easily performed in the excavator driver's seat. It is possible to obtain the effect of performing the dismantling and new work of the wire.

In addition, it is easy to secure a work space by having a miniaturized structure, it is possible to simply set the work direction by the operation of the excavator as needed, it is possible to obtain the effect that can significantly improve the work efficiency.

1 is an overall perspective view of a winch for wire wiring work in the excavator-mounted pipeline of the present invention.
Figure 2 is an overall front view of the winch for wire wiring work in the excavator-mounted pipe line of the present invention.
Figure 3 is an overall plan view of the winch for wire wiring work in the excavator-mounted pipe line of the present invention.
Figure 4 is a perspective view of the winding drum of the winch for wire wiring work in the excavator-mounted pipe line of the present invention.
5 is an explanatory diagram of a state in which the present invention is mounted on an excavator of the winch for wire wiring work in an excavator-mounted pipeline;
Figure 6 is an enlarged explanatory view of the main portion showing the operating state of the winch for wire wiring work in the excavator-mounted pipe line of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall perspective view of the winch for wire wiring work in the excavator-mounted pipe line of the present invention, Figure 2 is a front view of the winch for wire wiring work in the excavator-mounted pipe line of the present invention, Figure 3 is a winch of the wire wiring work in the excavator-mounted pipe line of the present invention 4 is a perspective view of the winding drum of the winch for wire wiring work in the excavator-mounted pipeline of the present invention.

As shown in FIGS. 1 to 3, the winch 1 for wire wiring work in the excavator-mounted pipe line of the present invention includes a reducer 100 constituting a body, a hydraulic motor 200 for applying rotational force to the reducer 100, and The winding drum 300 and the supporter 400 is configured.

At this time, the reducer 100, which is commonly used, is a built-in reduction gear (not shown in the figure) in which a large and small gear is built in the inside and the rotational force is decelerated by the gear ratio to be engaged.

Here, a pair of connecting brackets 110 connected to the link 30 for connecting the bucket and the separate equipment of the excavator 10 at the end of the conventional excavator arm 20 at the front and rear of the reducer 100. Is formed to protrude, the connection bracket 110 is formed with at least one fastening hole 111 is inserted into the fixing pin 31 of the link 30, respectively.

In addition, the hydraulic motor 200 is formed on one side of the reducer 100 is configured to give the rotational force in the forward and reverse direction to the reducer 100.

Here, the hydraulic motor 200 is formed with a plurality of hydraulic pipes 210 for guiding the entry and exit of a plurality of fluids is configured to be connected to the hydraulic device (not shown in the figure) of the excavator 10, the hydraulic operation is It is configured to be made in the driver's seat of the excavator (10).

In addition, the winding drum 300 is formed on the front of the reducer 100 is configured to receive the rotational force from the reducer 100 to wind and recommend the rotation and towing rope 50.

Here, the winding drum 300 is embedded between the front and rear pair of annular plates 310 and 310 'and the annular plates 310 and 310', as shown in FIG. It is composed of a rotating plate 320 having an outer diameter smaller than 310 (310 ').

At this time, the annular plate 310, 310 'and the rotating plate 320 is configured to be connected by a plurality of connecting rods 330 and a plurality of winding pieces 340 arranged in a radial direction, protruding from the reducer 100 The rotating shaft 120 is configured to be connected to the rotating plate 320 by passing through the annular plate 310 'at the rear thereof, and is configured to be rotatable by receiving a reduced rotational force from the reducer 100.

Here, the winding piece 340 is formed so that each of the winding grooves 341 of the concave shape is formed to form a curvature in which the outer peripheral surface end is curved inwardly so that the traction rope 50 is wound in the winding grooves 341.

In addition, the supporter 400 is formed in the lower portion of the reducer 100, and a plurality of support angles 410 are formed to be configured to support and secure the reducer 100 that forms the body of the winch 1 to the ground. will be.

Hereinafter, the action of the winch for wire wiring work in the excavator-mounted pipe line of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

The winch 1 for wire wiring work in the excavator-mounted pipe line of the present invention is mounted on an excavator 10 which is put into the wire during the demolition and new work, and winds and recommends a towing rope 50 connected when the wire is removed and newly installed. In order to facilitate the dismantling and new installation of the electric wire, first look at the mounting state of the winch (1),

As shown in FIG. 5, the winch 1 for wire wiring work in the excavator-mounted pipe line of the present invention may be connected to the link 30 formed in the excavator arm 20 of the excavator 10.

That is, the link 30 is embedded between the pair of connection brackets 110 formed on the reduction gear 100 of the winch 1 by using the fixing pin 31 inserted into the link 30 and the connection bracket ( The winch 1 may be mounted on the excavator arm 20 by inserting through the fastening hole 111 of the 110.

In addition, the hydraulic pipe 210 formed in the hydraulic motor 200 is to be connected to the hydraulic device (not shown in the figure) of the excavator 10.

Then, the winch 1 of the present invention is to move around the manhole 60 to work by the operation of the excavator 10 and to be fixed and supported on the ground using the supporter 400 formed in the lower portion of the reducer 100. .

Thus, when the wire 40 is working using the winch 1 of the present invention, as shown in FIG. 6, first, the towing rope 50 may be wound around the winding drum 300. The end may be connected to the end of the wire 40 to be worked after entering one end thereof through the manhole 60 through the underground pipeline 61 to the other manhole 60 'as in the conventional wire work.

At this time, the towing rope 50 wound on the winding drum 300 is to be internally wound in the winding groove 341 of the winding piece 340 formed in a large number radially.

Then, by pulling the towing rope 50 connected to the wire 40 is recommended from the wire bobbin 41 to enter the other manhole 60 'through the conduit 70 to one side manhole 60 side To be withdrawn.

That is, in the driver's seat of the excavator 10, by operating the hydraulic motor 200 to transmit and decelerate the rotational force to the reducer 100, and then transfer to the winding drum 300, to the winding drum 300 is rotated tow rope ( At the same time as the 50 is wound, the wire 40 connected to the end of the towing rope 50 is pulled out.

As described above, the winch for wire wiring work in the excavator-mounted pipe line can be easily mounted and used in an excavator while having a compact structure, and thus, easily dismantle and remove wires without inputting a large number of manpower or large-sized equipment during wire demolition and construction work. New work can be done.

10: excavator 20: excavator arm
30: link 31: fixing pin
40: wire 50: towing rope
60,60 ': Manhole 70: Pipeline
100: reducer 110: connection bracket
111: fastening hole 120: rotating shaft
200: hydraulic motor 210: hydraulic tube
300: winding drum 310,310 ': annular plate
320: rotating plate 330: connecting rod
340: winding winding 341: winding groove
400: supporter 410: support angle

Claims (3)

Reduction gear 100 forming a body protruding a pair of connecting brackets 110 facing each other having one or more fastening holes 111 connected to the link 30 and the fixing pin 31 formed at the end of the excavator arm 20 at the top );
The hydraulic motor 200 is formed on one side of the reducer 100 and is connected to the hydraulic device of the excavator by the hydraulic pipe 210 to impart rotational force in the forward and reverse directions to the reducer 100 by the hydraulic pressure operated in the driver's seat of the excavator. );
A winding drum 300 formed on the front of the reducer 100 and being rotated by the rotational force reduced by the reducer 100 so that a towing rope is wound; And
In the winch for the wire wiring operation in the excavator-mounted pipe line, characterized in that it comprises a supporter 400 formed of a plurality of support angles 410 to be fixed to the ground formed in the lower portion of the reducer 100,
Winding drum 300,
Consists of the front and rear pair of annular plate (310) (310 '), and the rotating plate 320 embedded between the annular plate (310, 310'),
The annular plate 310, 310 ′ and the rotating plate 320 are configured to be radially connected by a plurality of connecting rods 330 and a plurality of winding pieces 340, and the rotating shaft 120 drawn out from the reducer 100. ) And the rotating plate 320 is connected and configured to rotate,
Winding piece 340,
A winch for wire wiring work in an excavator-mounted conduit, characterized in that the outer circumferential end portion has a concave winding groove 341 so as to have a curvature inwardly curved. delete delete

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