KR101066998B1 - Apparatus to remove alien substance in gas pipe - Google Patents

Abstract

The present invention discloses a foreign matter suction device in a gas pipe used to remove foreign matter such as dust or moisture in the gas pipe.
The foreign matter suction device in the gas pipe of the present invention includes a foreign matter suction unit, a suction hose connected to the foreign matter suction unit to discharge foreign substances to the outside, and a vacuum device connected to the suction hose to generate a vacuum in the foreign matter suction unit, Foreign body suction part is connected to suction hose, body provided with internal suction port, bearing coupled to outer circumferential surface of body, bearing coupled to center of gravity and placed toward the bottom, weight with movable suction port, body coupled to wrap weight And a cover having an external suction port.

Description

Apparatus to remove alien substance in gas pipe}

The present invention relates to a foreign matter suction device in a gas pipe used to remove foreign matter such as dust or water in the gas pipe.

In general, gas pipes that deliver city gas, etc., accumulate foreign matter such as dust and moisture after long-term use. Foreign matter accumulated in the gas pipe can be removed using a foreign material removal device.

Foreign matter accumulated inside the gas pipe is mainly disposed at the bottom side of the pipe. Conventional foreign matter removal apparatus may suck the foreign matter through the vacuum suction to discharge to the outside. Such a debris removal device has a structure that is vulnerable to removing debris in a specific portion, such as the bottom of the gas pipe. Therefore, there is a problem that the efficiency is inferior in removing foreign matters accumulated in the gas pipe.

Therefore, the present invention has been proposed to solve the above problems, an object of the present invention is to provide a foreign matter suction device in the gas pipe that can efficiently remove the foreign matter in the gas pipe and shorten the working time. have.

In order to achieve the object of the present invention as described above, the present invention is connected to the foreign matter suction unit, the foreign matter suction unit suction hose for discharging the foreign matter to the outside, connected to the suction hose to generate a vacuum in the foreign matter suction unit And a vacuum device, wherein the foreign matter suction unit is connected to the suction hose and has a body provided with an internal suction port, a bearing coupled to an outer circumferential surface of the body, a weight coupled to the bearing, the center of gravity of which is disposed toward the bottom, and having a moving suction port. Weight, coupled to the body is disposed while wrapping the weight and provides a foreign matter suction device inside the gas pipe including a cover having an external suction port.

The foreign material suction unit is preferably connected to the camera unit by a pipe or elastic member.

The suction hose is preferably provided with a coil spring on the outer circumferential surface for restoring the position in some section from the foreign matter suction portion.

The inner suction port provided in the body is preferably made to pass through at regular intervals along the circumferential surface of the body.

The moving suction port provided in the weight is preferably made through the weight.

The external suction port provided in the cover is preferably made to pass through the circumferential surface of the cover at regular intervals.

The bearings are preferably arranged in pairs with an interval between each other with an internal suction port therebetween.

The inner suction port and the outer suction port are preferably made of a long hole in the longitudinal direction of the suction hose at all times.

As such, the present invention has an effect of efficiently removing the foreign matter in the gas pipe and shortening the foreign matter removal work time since the portion for sucking the foreign matter is always disposed downward.

1 is a view showing a foreign matter suction device inside a gas pipe for explaining an embodiment of the present invention.
FIG. 2 is a view illustrating main parts of FIG. 1. FIG.
3 is a view showing a portion of the inside of the foreign matter suction device inside the gas pipe for explaining an embodiment of the present invention.
4 is a view showing a state in which the weight in Figure 3 removed.
5 is a side view of FIG. 4.
6 is a view for explaining the operation of the embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a view for explaining an embodiment of the present invention, Figure 2 is a view showing the main part of Figure 1, showing a foreign matter suction device inside the gas pipe.

The foreign matter suction device in the gas pipe according to the embodiment of the present invention includes a foreign matter suction unit 1, a suction hose 3, and a vacuum device 5. In addition, the foreign body suction device in the gas pipe according to the embodiment of the present invention may be provided with a camera unit 9 connected to the front end of the suction unit 1 by an elastic member 7 made of a conduit or a coil spring.

The elastic member 7 may easily move the camera unit 9 in the interior of the gas pipe and may always return to the original position. In addition, the camera unit 9 may be provided with an illumination such as an LED. The camera unit 9 may perform the operation while watching the inside of the gas pipe to perform the foreign matter removal operation with a display device connected to the camera from the outside.

On the other hand, the suction hose (3) is provided with a coil spring (11) in a predetermined section from the foreign matter suction portion (1) on the outer circumference. The coil spring 11 has an elastic force that can be restored to its original position when the suction hose 3 is bent in the process of moving the foreign matter suction unit 1.

And the suction hose 3 is connected to the vacuum device 5 can supply a vacuum to the foreign matter suction unit.

The foreign matter suction unit 1 may suck the foreign matter inside the gas pipe with a vacuum and discharge the foreign matter to the outside through the suction hose 3, and the body 13, the bearing 15, and the weight 17. And a cover 19.

The body 13 is connected to the suction hose 3 and provided with a conduit 13a therein. The body 13 is provided with internal suction ports 13b (shown in FIGS. 4 and 5) connected to the conduit 13a along the outer circumference thereof.

The inner suction port 13b provided to the body 13 is preferably made of a long hole along the longitudinal direction of the suction hose 3. And the inner suction port 13b of the body 13 is preferably provided at regular intervals.

Body 13 is coupled to the bearing 15 in a pair at regular intervals on the outer peripheral surface. The bearing 15 is arranged with the above-described internal suction port 13b interposed therebetween. The bearing 15 has an inner race and an outer race with a rolling member therebetween, and the inner race is coupled to the body 13. And the outer race is coupled to the weight (17).

The weight 17 is coupled to the outer race of the bearing 15 can be freely rotated. The weight 17 is eccentric so that the center of gravity is always placed in the direction facing the bottom (i.e., down the gas pipe).

And the weight 17 is provided with a moving inlet 17a penetrating a portion facing the bottom. That is, the moving suction opening 17a is always disposed toward the bottom (vertical direction) and can communicate with the internal suction opening 13b provided in the body 13.

In the body 13, the cover 19 is coupled. The cover 19 is coupled to the body 13 while protecting the weight 17 and maintaining a space for the weight 17 to rotate freely.

The cover 19 includes an external suction port 13a at regular intervals along the circumferential direction. The external suction port 13a is preferably made of a long hole along the longitudinal direction of the suction hose 3. The outer suction opening 13a of the cover 19 can communicate with the moving suction opening 17a provided in the weight 17.

Referring to the process of removing the foreign matter in the interior of the gas pipe using an embodiment of the present invention as described above are as follows.

First, the operator injects the camera portion 9 into the gas pipe. And when the operator pushes the suction hose (3) can move along the interior of the gas pipe.

The worker may perform a foreign matter removal operation inside the gas pipe while viewing the image photographed by the camera unit 9 through a display device provided outside. In this state, when the vacuum apparatus 5 is driven, a vacuum is applied to the foreign matter suction unit 1 through the suction hose 3.

Then, foreign matter inside the gas pipe is sucked through the outer suction holes 19a of the cover 19 and passes through the moving suction hole 17 of the weight 17 to the internal suction hole 13b provided to the body 13. . The foreign matter introduced into the internal suction port 13b of the body 13 passes through the conduit 13a and is discharged to the outside through the sun hose 3.

At this time, if the suction hose 3 is moved or rotated, the position of the camera 9 is inclined at a constant angle while maintaining the horizontal position. At this time, the body 13 is also inclined together.

The weight 17 is then fixed to the outer race of the bearing 15 so that it always rotates toward the bottom, which is the direction side perpendicular to the ground.

Therefore, the moving suction inlet 17a provided in the weight 17 is always disposed toward the bottom of the gas pipe. Therefore, it is possible to easily remove the foreign matter accumulated or collected on the bottom of the gas pipe mainly made of a cylinder.

Such an embodiment of the present invention can be easy to shorten the working time and can be discharged to the outside without leaving any foreign matter on the bottom of the gas pipe can maximize the foreign matter removal efficiency.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

1. Foreign body suction part, 3. Suction hose,
5. vacuum device, 7. elastic member,
9. Camera unit, 11. Coil spring,
13. Body, 13b. Internal intake,
15. Bearing, 17. Weight, 17a. Transfer intake,
19. Cover, 19a. External inlet

Claims (8)

A foreign matter suction unit, a suction hose connected to the foreign substance suction unit to discharge foreign substances to the outside, a vacuum device connected to the suction hose to generate a vacuum in the foreign substance suction unit,
The foreign material suction unit
A body connected to the suction hose and provided with an internal suction port, a bearing coupled to an outer circumferential surface of the body, a weight coupled to the bearing, the center of gravity of which is disposed toward the bottom, and having a moving suction port, coupled to the body to provide the weight It is disposed surrounding the cover and includes a cover having an external suction port,
The outer circumferential surface of the suction hose is provided with a coil spring for restoring the position in some section from the foreign matter suction unit,
The inner suction port provided in the body is penetrated at regular intervals along the circumferential surface of the body,
The moving suction port provided to the weight is made through the weight,
The outer suction port provided in the cover is penetrated at regular intervals along the circumferential surface of the cover,
The inner suction port and the outer suction port are formed of a long hole along the longitudinal direction of the suction hose,
The foreign matter suction unit in the gas pipe connected to the camera unit by the elastic member that is a compression coil spring. delete delete delete delete delete The method according to claim 1,
The bearing
The foreign matter suction device inside the gas pipe arranged in pairs with the interval between each other with the inner suction port of the body disposed therebetween. delete

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