KR100917874B1 - Pipe extending device - Google Patents

Abstract

A pipe expanding device is provided to generate a uniform expanding force by arranging a plurality of expanding wings inside a pipe. A screw shaft(20) has a left-handed screw part and a right-handed screw part. A left moving plate(30A) and a right moving plate(30B) are coupled in the left-handed screw part and the right-handed screw part of the screw shaft. A left disc(40A) and a right disc(40B) are inserted to both ends of the screw shaft. A plurality of supporting bars(50) is arranged into a columnar direction. Both ends of the supporting bar are fixed to the left disc and the right disc. A plurality of expanding wings(60) is arranged into a columnar direction. Both ends of the expanding wing are slidably supported in the left disc and the right disc. An elastic supporting unit elastically supports the expanding wing into a center direction of the screw shaft. A driving unit rotates the screw shaft.

Description

Pipe extending device

The present invention relates to a pipeline expansion device for expanding the deformed or contracted portion of the pipeline, and more particularly, to a pipeline expansion device that is simple in structure to ensure expansion operation and to obtain a uniform expansion force in the circumferential direction. will be.

In general, the pipeline construction of the distribution cable is required to excavate the road according to the regulations and install a synthetic corrugated pipe (for example, ELP conduit) in accordance with various regulations, and install the cable after the conduction test of the pipeline. do

At this time, the insulator of the cable is weak to bend and there is a risk of breakdown if severely bent, so the curvature and the slope of the corrugated pipe affecting the curvature of the cable should be tested.

The conduction test is also to be carried out to ascertain whether the corrugated pipe is to be sitting or deformed in any part. The continuity test is done with a continuity tester. If any drift or deformation occurs in the conduit during the conduction test, the conduit shall be expanded to maintain the original conduit diameter. If expansion is required in the pipeline, expansion equipment is required.

Therefore, the expansion device should have excellent expansion force and have a structure that can move well along the installation trajectory of the pipeline. In addition, the continuity test can be completed in one time only when there is less concern of failure.

Accordingly, the present invention has been made in view of the above circumstances, and it is possible to secure expansion driving with an external power signal, facilitate the movement of long pipelines, obtain uniform and large expansion force in the circumferential direction, and have a simple structure. The purpose is to provide a pipeline expansion system.

Specific means of the present invention for achieving the above object,

In the expansion device for expanding the inner diameter of the pipeline,

A screw shaft having a left screw portion on one side and a right screw portion on the other side with respect to a center in the longitudinal direction;

Left and right moving plates respectively screwed to the left screw portion and the right screw portion of the screw shaft;

Left and right discs inserted into opposite ends of the screw shaft and disposed to face each other;

A moving plate straight guide support rod inserted into the left and right moving plates and at the same time, one end is fixed to the left disc and the other end is fixed to the right disc;

A plurality of expansion wings circumferentially arranged, one end of which is slidably supported by the left disc and the other end of which is slidly supported by the right disc, the expansion blade being moved in the radial direction according to the rotational direction of the screw shaft;

Elastic support means for supporting the expansion tube blade with an elastic force in the direction of the center of the screw shaft; And

An output end is connected to the screw shaft, characterized in that it comprises a drive means for forward and reverse rotation of the screw shaft.

Also according to the invention,

The expansion wing has two inner inclined surfaces having the same angle symmetrically on the inner surface thereof,

The left and right moving plates are formed on the outer circumferential surface thereof with an outer inclined surface having an angle equal to the inclination angle of the inner inclined surface,

The inner inclined surface and the outer inclined surface are in surface contact with each other.

In addition, according to the present invention, the elastic support means is characterized in that the rubber ring installed on both ends of the plurality of expansion wings.

In addition, according to the present invention, the elastic support means is characterized in that the coil springs provided at both ends of the plurality of expansion wings.

In addition, according to the present invention, the driving means is characterized in that the left and right drive motors respectively fixed to the left and right discs.

According to the pipeline expansion device of the present invention, a pair of opposing moving plates to the rotational force of the screw shaft is linearly moved and at the same time a plurality of expansion wings coupled obliquely to the pair of moving plates are moved together in the radial direction to expand. Therefore, a large number of expansion wings are radially arranged, and the expansion force is excellent while generating a uniform expansion force by receiving the pushing force from each of two places. In addition, the expansion wing is radially evenly disposed in the conduit to smoothly move in the conduit, and the driving motor to obtain the drive source for expansion is easy to expand the operation.

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

As shown in FIGS. 1 to 4, reference numeral 20 denotes a screw shaft.

The screw shaft 20 has a left screw portion 21 on one side and a right screw portion 22 on the other side with respect to the center in the longitudinal direction.

The left moving plate 30A and the right moving plate 30B are provided on the screw shaft 20. The left moving plate 30A is screwed to the left screw portion 21 of the screw shaft 20, and the right moving plate 30B is screwed to the right screw portion 22 of the screw shaft 20. When the threaded screw shaft 20 is rotated once, the left and right moving plates 30A and 30B simultaneously move by one pitch of the thread. At this time, according to the rotation direction of the screw shaft 20, the left and right moving plates 30A and 30B move away from each other or move closer to each other.

The left and right moving plates 30A and 30B are mounted on the screw shaft 20 symmetrically with each other in the form of the same disk. The left and right moving plates 30A and 30B have outer sloping surfaces 31a and 32a respectively formed on the outer circumferential surface thereof so as to be in contact with the expansion blade 60 and the inclined surface, which will be described later, and the outer sloping surfaces 31a and 32a have expansion tubes. As many as 60 are provided in the circumferential direction at regular intervals. The outer inclined surfaces 31a and 32a are formed on the bottom surfaces of the fitting grooves 31 and 32 of the left and right moving plates 30A and 30B, respectively.

The left and right discs 40A and 40B are disposed at both ends of the screw shaft 20 so as to face each other, and the left and right discs 40A and 40B are connected via the supporting rod 50. A plurality of support bars 50 are installed at regular intervals in the circumferential direction of the discs 40A and 40B in parallel with the screw shaft 20. In addition, the support bar 50 is inserted into the left and right moving plates 30A and 30B, and the left and right moving plates 30A and 30B are slid and linearly moved along the supporting bar 50.

Here, any one of the plurality of supporting rods 50 has a hollow pipe shape and serves as a passage for electric wiring (power supply line and control signal line of a driving motor to be described later).

The expansion wing 60 is assembled to the left and right moving plates 30A and 30B. The expansion wings 60 are arranged radially in this embodiment, and all six are provided. Thus, the expansion wing 60 is arranged every 60 degrees. The expansion wing 60 has a plate shape and has inner inclined surfaces 61 and 62 which are symmetrical with each other at the same angle inwardly, and the inner inclined surfaces 61 and 62 are formed of the left and right moving plates 30A and 30B. It is surface-contacted with the inclined angle of the same magnitude | size as the outer inclined surfaces 31a and 32a.

The lengths of the inner inclined surfaces 61 and 62 are relatively longer than the lengths of the outer inclined surfaces 31a and 32a of the left and right moving plates 30A and 30B. In addition, the radial distance between the respective inclined sections and the screw shaft 20 is proportionally changed by the inclination angle of the inner inclined surfaces 61 and 62. On the contrary, the distance between the outer inclined surfaces 31a and 32a of the left and right moving plates 30A and 30B and the screw shaft 20 has a radius which does not change.

In addition, one end of the expansion wing 60 is slidably supported by the sliding groove 41 of the left disc 40A, and the other end thereof is slidably supported by the sliding groove 42 of the right disc 40B.

The plurality of expansion wings 60 is connected to the elastic support means for supporting all of the expansion wings 60 with an elastic force in the direction of the center of the screw shaft (20). The elastic support means prevents each of the plurality of expansion blades 60 from being separated from the left and right moving plates 30A and 30B, and at the same time, the expansion blade 60 is moved in the direction of the center of the screw shaft 20. to provide.

Elastic support means may be composed of a rubber ring or a coil spring surrounding both ends of the plurality of expansion wings (60). In the present embodiment, the two rubber rings 70 are fitted into the ring grooves 60a at both ends of the expansion wing 60, respectively.

The screw shaft 20 is provided with drive means for forward and reverse rotation of the screw shaft 20. The driving means is fixed to the left and right discs 40A and 40B in this embodiment, respectively, and is composed of left and right drive motors 80A and 80B connected directly to the screw shaft 20.

The operation of this embodiment configured as described above will be described.

First, when the left and right moving plates 30A and 30B are located close to the center of the screw shaft 20, the expansion wings 60 are arranged at the minimum diameter d1 as shown in FIG.

In this state, the expansion device 10 is inserted into the conduit 1. The expansion device 10 is connected to a conduction tester (not shown) (or a self-propelled vehicle), and is moved into the pipeline 1. Here, the pipe 1 may be a corrugated pipe made of synthetic resin.

When it is determined that expansion is necessary at a certain position of the pipe line 1, power is applied to the drive motors 80A and 80B and driven, and the screw shaft 20 is rotated in the arrow K direction (forward rotation).

The left moving plate 30A screwed to the left screw portion 21 by the forward rotation of the screw shaft 20 moves to the left drive motor 80A and the right moving plate 30A is screwed to the right screw portion 22. It moves to the right drive motor 80B in a state. At this time, the plurality of support rods 50 prevent the rotation of the left and right moving plates (30A, 30B) and guides the straight movement.

In this manner, when the left and right moving plates 30A and 30B are opened to each other, that is, when the distances facing each other increase, the six expansion wings 60 are pushed up in the direction of increasing diameter at the same time on the outer inclined surfaces 31a and 32a. do. At this time, the elastic ring 70 installed on the expansion wing 60 is also extended.

As the expansion wings 60 are moved in the radially outward position, the inner diameter of the conduit 1 is greatly expanded from d1 to d2.

After the conduit 1 expands, the drive motors 80A and 80B reversely operate so that the screw shaft 20 rotates in reverse and the left and right moving plates 30A and 30B simultaneously support the elastic restoring force of the elastic ring 70. To return to the original position.

As such, the expansion device 10 includes a plurality of expansion pipes in which the left and right moving plates 30A and 30B are linearly opened and are inclined to the left and right moving plates 30A and 30B at the same time as the rotational force of the screw shaft 20. The wing 60 is moved in the radial direction to expand the slumped or contracted portion of the conduit 1. Therefore, the expansion wing 60 is disposed radially to generate a uniform expansion force. In addition, since the force pushing up each expansion wing 60 is simultaneously generated in two places by two moving plates 30A and 30B, the expansion force is excellent. In addition, the expansion wing 60 is radially evenly disposed in the conduit to smoothly move in the conduit, and the driving motors 80A and 80B obtain a driving source necessary for expansion, thereby making it easy to control.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

1 is a perspective view of a pipeline expansion device according to the present invention.

Figure 2 is a state diagram before operation of the pipeline expansion device according to the present invention.

Figure 3 is a state diagram after the operation of the pipeline expansion device according to the invention.

4 is a cross-sectional view taken along the line A-A of FIG.

<Explanation of symbols for the main parts of the drawings>

20: screw shaft

30A, 30B: Left and right moving plates

31a, 32a: outer slope

40A, 40B: Left and right discs

50: support rod

60: expansion wing

61,62: inside slope

80A, 80B: Drive motor

Claims (5)

In the expansion device for expanding the inner diameter of the pipeline, A screw shaft 20 having a left screw portion 21 on one side and a right screw portion 22 on the other side with the center in the longitudinal direction as the center; Left and right moving plates 30A and 30B which are respectively screwed to the left screw portion 21 and the right screw portion 22 of the screw shaft 20; Left and right discs 40A and 40B which are inserted at both ends of the screw shaft 20 so as to face each other; The movable plate straight guide rod is inserted into the left and right moving plates (30A, 30B) and at the same time one end is fixed to the left disc (40A) and the other end is fixed to the right disc (40B) 50; A plurality of expansion wings are arranged in the circumferential direction, one end of which is slidingly supported by the left disc 40A, the other end of which is slidingly supported by the right disc 40B, and the expansion wing that moves in the radial direction according to the rotational direction of the screw shaft 20. 60; Elastic support means for supporting the expansion blade (60) with an elastic force in the direction of the center of the screw shaft (20); And An output end is connected to the screw shaft (20), the pipeline expansion device comprising a drive means for forward and reverse rotation of the screw shaft (20). The method of claim 1, The expansion wing 60 has two inner inclined surfaces 61, 62 having the same angle symmetrically on the inner surface thereof, The left and right moving plates 30A and 30B are formed on the outer circumferential surface thereof with outer inclined surfaces 31a and 32a having the same angle as that of the inclined surfaces 61 and 62. And the inner inclined surface (61, 62) and the outer inclined surface (31a, 32a) are in surface contact with each other. The method of claim 1, The elastic support means, Pipe expansion device, characterized in that the rubber ring installed on both ends of the plurality of expansion wings (60). The method of claim 1, The elastic support means, Pipe expansion device, characterized in that the coil springs installed on both ends of the plurality of expansion wings (60). The method of claim 1, The drive means, And a left and right driving motor (80A, 80B) fixed to the left and right discs (40A, 40B), respectively.

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