KR100891284B1 - Apparatus for cramping wire in pipe scale remover - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to the field of pipe descalers, and more particularly, for pipe descalers that prevent flexible wires inserted into the pipes from being pulled out along the wire housing moving backwards when the flexible wires are inserted deeper into the pipes. A wire clamping device.

The present invention is inserted into the front end of the wire protection pipe in a state supported horizontally in front of the support guide pipe 110 for passing through the flexible wire drawn from the wire protection pipe to the inside;

A pin member 130 fitted to penetrate both sides of the guide tube and having a through hole formed at a center thereof to allow a flexible wire to pass through the guide tube;

Rotating plates 150 fixed to both ends of the pin member;

An operating lever 160 installed at one side of the guide tube at the rear of the pin member so as to rotate back and forth; And

The link arm 180 is disposed in parallel with the guide tube at the lower part of the guide tube, and both ends are hinged to the pivoting plate and the actuating lever, respectively, to link the actuating force of the actuating lever to the pin member while interlocking along the actuating lever. It is configured to include.

Descaling, Clamping, Flexible Wire, Tubing, Operating Lever

Description

Apparatus for cramping wire in pipe scale remover}

TECHNICAL FIELD The present invention relates to the field of pipe descalers, and more particularly, to pipe descalers which prevent the flexible wires inserted into the pipes from being drawn out along the wire housing moving backwards when the flexible wires are inserted deeper into the pipes. A wire clamping device.

In general, the pipe serves as a passage for guiding and moving water or other fluid to a predetermined place, and is mainly installed and used in the form of being buried in the floor or wall of a building.

In addition, the pipe as described above is oxidized and corroded to the inner wall surface for a long time, as well as various foreign substances cling to the inner wall to generate a scale, these scales become a long time to become a cause of narrowing the flow path of the pipe.

If the flow path cross-sectional area of the pipe is narrowed by the scale as described above, the fluid will not move smoothly, and the pipe function will not function as designed. In severe cases, the pipe may be damaged by the moving pressure of the fluid. If possible, it should be removed immediately to allow the pipe to perform its normal function.

Therefore, in order to remove the scale in the pipe, a method in which the chemical is added to the inside of the pipe to pass the chemicals contained in the water in contact with the scale to cause the chemical reaction while melting the scale is widely used That's one of the ways.

However, the method of removing the scale of the pipe by the chemical must be provided with an ancillary device such as an air injector, and due to the use of chemicals, great care must be taken in the construction process. And, because the chemical is expensive, there were a number of problems, such as a lot of construction costs.

In addition, no matter how harmless the chemicals used to remove the pipe scale, the consumer who uses water is insecure. Especially, in general households, it is extremely negative to remove the scale. Is not easily solved.

In order to solve the various problems described above, the applicant of the present invention has developed a technology related to pipe descaling, and holds several patents (Patent Nos. 0324449, 0533508, 0533509, and 0533510). Patents (Patent Application Nos. 2006-0025347, 2006-0025348, 2006-0025895) are pending.

The technology possessed or filed by the applicant of the present invention is to insert the flexible wire into the pipe and rotate the flexible wire at high speed so that the scale generated inside the pipe falls while repeatedly colliding with the rotating flexible wire. The use of chemicals at all is particularly appealing to the residents of apartments and multi-family homes that receive drinking water through plumbing.

Then, the most recent technology among the patents developed and filed by the applicant of the present invention will be described with reference to FIG. 1.

1 and 2 are front views showing the pipe scale remover pre- filed by the applicant of the present invention. The support 1 is supported on the ground and horizontally moved forward and backward along the guide rail 2 on the support. A moving plate 3 installed on the moving plate 3 and a motor 4 fixed to the upper portion of the moving plate to generate a forward and reverse driving force by being supplied with power, and inserted into a central portion of the motor to rotate under the driving force of the motor 4. The hollow shaft 5, a wire housing 6 fixed to one end of the hollow shaft and rotated together with the rotation of the hollow shaft 5, and housed in a state wound around the wire housing 6, the front end of the motor ( A flexible wire 7 drawn through the hollow shaft 5 of 4) to the front side opposite to the wire housing 6, and on the front side opposite to the wire housing 6 in the upper surface of the movable plate 3; Is fixed and supports one end of the hollow shaft 5 while flexi A wire locking member 8 for selectively locking the wire 7 as necessary, and a portion of the flexible wire 7 fixed to the lead portion of the flexible wire 7 that is not inserted into the pipe. It consists of a wire protection pipe (9) for protection and a pipe support (10) fixed in a state spaced apart from the wire locking member (8) of the support (1) to support the wire protection pipe (9) in a horizontal state.

A process of removing the scale generated inside the pipe by the pipe scale remover having the above-described configuration will be described below.

The leading end of the flexible wire 7 wound around the wire housing 6 is drawn out through the hollow shaft 5 of the motor 4, and the leading end of the drawn flexible wire 7 passes through the wire locking member 8 and is piped. It is continuously drawn out through the wire protection pipe 9 supported by the support 10, and then the outer lead portion of the flexible wire 7 is inserted into the pipe to be descaled.

The above state is a state in which the moving plate 3 on which the motor 4 is fixed is moved to the front side (piping side) as shown in FIG. 1A. In this case, the flexible wire is driven by driving the motor 4 in the following process. It is understood that the locking of the flexible wire 7 by the wire locking member 8 should be in a released state so that the 7 can rotate at high speed.

In this way, when the flexible wire 7 is inserted into the pipe, the motor 4 is driven at a high speed by a control signal of a controller (not shown), and this driving force is transmitted to the wire housing 6 through the hollow shaft 5. Since the wire housing 6 rotates at a high speed together with the hollow shaft 5, the flexible wire 7 also rotates at a high speed, and thus the scale generated inside the pipe as it strikes the pipe inner diameter surface. This will be removed off.

On the other hand, when the operator wants to extend the descaling area of the pipe by inserting the flexible wire 7 deeper into the pipe, the motor 4 is moved to the rear in the state shown in FIG. 1 and then moved to the front again. The process for this is described in detail as follows.

When the operator stops the driving of the motor 4, the motor 4 is held by the hand and pushed to the rear side so that the movable plate 3 on which the motor 4 is fixed is guide rail 2 above the support 1. 2, the wire housing 6 moves backward together with the motor 4, so that the flexible wire 7 wound in the wire housing 6 moves backward. Solved proportionally. At this time, another worker must hold the flexible wire (7) drawn out of the pipe at the pipe inlet by hand.

Subsequently, when the worker locks the flexible wire 7 by the wire locking member 8 and then holds the motor 4 by hand again and pushes it forward, as shown in FIG. 1, the movement in which the motor is fixed is performed. The plate 3 is moved forward by the guide rails 2. In this case, the wire locking member 8 locks the flexible wire 7 so that the motor 4 moves forward. The flexible wire 7 is inserted deeper into the pipe while moving forward by a length proportional to the distance, and in this state, the locking of the flexible wire 7 by the wire locking member 8 is released, and then the motor ( When 4) is driven again, the flexible wire 7 rotates at a high speed by the rotation of the wire housing 6, thereby removing the scale generated in the pipe to a deeper position.

However, such a conventional pipe scale remover has a separate worker at the inlet of the flexible wire 6 when the wire housing 6 is moved backward in the process of releasing the flexible wire 7 wound in the wire housing 6. If the hand is not held by the hand, a problem occurs that the flexible wire 7 drawn into the pipe is drawn out.

Accordingly, when the flexible wire 7 is inserted deeper into the pipe to expand the descaling area of the pipe, single work is not possible and the work is very cumbersome.

The present invention has been made in consideration of the above-described conventional problems, and when clamping the flexible wire deeper into the pipe, the wire clamping for the scale remover prevents the flexible wire inserted into the pipe from being pulled out along the wire housing moving backward. The purpose is to provide a device.

In order to achieve the above object, the present invention is a support that is supported on the ground, a movable plate installed to move horizontally forward and backward along the guide rail on the upper portion of the support, and fixed to the upper portion of the movable plate to receive power A motor for generating a forward and reverse driving force, a hollow shaft inserted into the center of the motor and rotating under the driving force of the motor, a wire housing fixed to the rear end of the hollow shaft and rotating together with the hollow shaft, and wound around the wire housing A flexible wire that is stored in a state and has a front end extending through the hollow shaft and drawn out toward the front of the hollow shaft, and a wire installed on the upper surface of the movable plate to selectively lock the flexible wire drawn out to the front of the hollow shaft while supporting the front of the hollow shaft. A locking member and a flexible wire fixed to the front of the wire locking member and passing through the locking member A pipe descaling machine having a wire protection pipe for protecting, comprising: a guide tube inserted into a front end of the wire pipe in a state of being horizontally supported in front of the support and passing through a flexible wire drawn out of the wire protection pipe; A pin member having a through-hole inserted through both sides of the guide tube and having a flexible wire passing through the guide tube in the center, a rotation plate fixed to both ends of the pin member, and a guide tube behind the pin member to be rotated back and forth An actuating lever installed on one side and a lower portion of the guide tube are disposed in parallel with the guide tube, and both ends thereof are hinged to the pivot plate and the actuating lever to interlock along the actuating lever to transfer the pivot force of the actuating lever to the pin member. Characterized in that it comprises a link arm.

According to the wire clamping device for a pipe scale remover according to the present invention configured as described above, the flexible member penetrates the guide pin while selectively rotating the pin member installed in the guide tube horizontally supported in front of the support by the operating lever Can be selectively distorted so that the clamping can be made so that when the flexible wire is inserted deeper into the pipe, the flexible wire inserted inside the pipe is prevented from being drawn out along the wire housing moving backwards. Descaling alone can be done easily and simply.

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

DETAILED DESCRIPTION Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. Like reference numerals refer to like elements, and only different parts will be mainly described so as not to overlap for clarity.

As shown in FIG. 3, the wire clamping device for the pipe scale remover according to the present invention is horizontally supported forward and backward along a guide rail 2 on the support 1 supported on the ground and on the support 1. A moving plate 3 installed to move, a motor 4 fixed to an upper portion of the moving plate 3 to receive power and generating forward and reverse driving force, and a motor 4 inserted into a central portion of the motor 4. The hollow shaft 5 which rotates under the driving force of the crankshaft, the wire housing 6 which is fixed to the rear end of the hollow shaft 5 and rotates together with the hollow shaft 5, and wound around the wire housing 6. The flexible wire 7 is stored in the state and the front end portion thereof penetrates the hollow shaft 5 and is drawn out to the front of the hollow shaft 5, and is installed on the upper surface of the movable plate 3 so that the front of the hollow shaft 5 is closed. Wire lock that selectively locks the flexible wire 7 drawn forward of the hollow shaft 5 while supporting it Provided with a member 8, and a wire protection pipe 9, which is fixed to the front portion of the wire locking portion material (8) protects the flexible wire 7 passing through the locking member (8) by default.

According to the present invention, the front end of the wire protection pipe (9) is fitted with a guide tube (110) for passing the flexible wire (7) drawn out from the wire protection pipe (9). The guide tube 110 is supported in a horizontal state through the guide tube support 120 fixed to the front of the support (1).

The pin member 130 is installed in front of the guide tube 110. The pin member 130 is made of a cylindrical shape to be able to rotate smoothly inside the guide tube 110 and the guide tube so that the flexible wire 7 passing through the guide tube 110 in a straight line in the center. The through hole 131 is formed in the front-rear direction of the 110. Therefore, the pipe scale operation is performed in a state in which the through hole 131 of the pin member 130 is in a horizontal state and the flexible wire 7 is in a horizontal state as shown.

The pin member 130 penetrates both sides of the guide tube 110 so that both ends 132 are exposed to the outside of the guide tube 110. Therefore, when the pin member 130 is rotated in the guide tube 110, the through hole 131 also rotates along the pin member 130, the position thereof is changed.

In this embodiment, the guide tube 110 is partitioned to easily install the pin member 130 inside the guide tube 110, and a separate block 140 having a cross-hole is used. That is, the split end portion of the guide tube 110 is fixed to the front and rear through holes of the block 140 and firmly fixed by welding, and then the assembly method of inserting the pin member 130 into the left and right through holes of the block is used. In this case, both ends of the pin member 130 should be formed to be exposed to the outside of the left and right through holes of the block 140, of course.

Rotating plates 150 are fixed to both ends 132 of the pin member 130 exposed to the outside of the left and right through holes of the block 140, respectively. Therefore, the rotation plate 150 rotates together with the pin member 130, and a through hole 151 is formed on the opposite side combined with the pin member 130.

An operating lever 160 is installed at one side of the guide tube 110 at the rear of the pin member 130, and the lower portion of the operating lever 160 is positioned at the lower portion of the guide tube 110. In this embodiment, for example, a separate block 170 is fixed to the guide tube 110, and the operation lever 160 is connected to the block 170 by a pin so as to be rotatable.

The link arm 180 is disposed below the guide tube 110 in parallel with the guide tube 110. The link arm 180 is hinged in a horizontal state at both ends of the through hole 151 and the operating lever 160 of the pivoting plate 150, respectively, and interlocked along the operating lever 160 to operate the operating lever ( The rotational force of 160 is transmitted to the pin member 130.

On the other hand, the link arm 180 is preferably elastically installed so that the pivoting operating lever 160 can be returned to its original position. To this end, a locking plate 181 is fixed to the front of the operation lever 160 of the guide tube 110. The locking plate 181 is fixed to the upper portion is fitted to the guide tube 110 in a state that the lower portion is fitted to the link arm 180. And the compression coil spring 182 is fitted to the rear of the operating lever 160. The front end of the compression coil spring 182 is supported by the locking plate 181 and the rear end is supported by the rear end of the link arm 180. Therefore, when the operating lever 160 is rotated to the rear, the compression coil spring 182 is compressed and the elastic force for returning the operating lever 160 to the rear is stored.

Although not shown, a separate fixing means may be further provided to fix the operating lever 160 to the original position in the compressed coil spring 182 in a compressed state.

On the other hand, in the upper portion of the guide tube 110 adjacent to the pin member 130, an observation hole 190 is further formed to communicate with the inside of the guide tube 110 so that the operator can visually check the inside of the guide tube 110. It is desirable to be. The worker can check the state of the flexible wire 7 passing through the inside of the guide tube 110 through the observation hole 190.

In the wire clamping device for the pipe scale remover configured as described above, the through hole 131 of the pin member 130 becomes horizontal as shown in FIG. 3, so that the flexible wire 7 is maintained in the horizontal state. When the operator pushes the flexible wire 7 deeper into the pipe during the scale work, the flexible wire 7 inserted into the pipe along the wire housing 6 moving backward by the following operation is inserted. The flexible wire 7 is clamped so as not to be drawn out.

First, when the operator pulls the operation lever 160 backward while the driving of the motor 4 is stopped, the link arm 180 connected to the operation lever 160 is moved forward as shown in FIG. 5. While rotating, the rotating plate 150 is rotated clockwise by a predetermined angle. Accordingly, the pin member 130 in the guide tube 110 is rotated by a predetermined angle clockwise along the rotation plate 150. When the pin member 130 is rotated, distortion occurs in the flexible wire 7 in the portion passing through the pin member 130, and the flexible wire 7 is clamped due to the distortion.

On the other hand, when the observation hole 190 is formed in the upper portion of the guide tube 110 adjacent to the pin member 130, the operator can visually check the distortion state of the flexible wire (7).

When the operator confirms that the flexible wire 7 is clamped and pushes the motor 4 with the other hand, the moving plate 3 is inserted while being guided to the guide rail 2 above the support 1. As the wire protection pipe 9 is pulled out of the guide tube 110, the wire housing 6 moves backward together with the motor 4, and in this process, the flexible wire 7 wound in the wire housing 6 is moved to the motor ( It is solved in proportion to the rear movement distance of 4).

Then, the operator pulls the operation lever 160 returned to its original position to release the clamping state of the flexible wire 7, operate the wire locking member 8 to lock the flexible wire 7, and then rotate the motor 4 again. Holding by the hand and pushing forward, the protective pipe 9 is introduced into the guide pipe 110, the moving plate 3 is guided by the guide rail 2 is moved to the front. In this state, the wire locking member 8 locks the flexible wire 7 and the operation lever 160 releases the clamping of the flexible wire 7 located inside the guide tube 110. The flexible wire 7 is inserted deeper into the pipe while moving forward by a length proportional to the forward moving distance of (4).

On the other hand, when the operating lever 160 is elastically installed through the compression coil spring 182, when the operator releases the pulling force to the operating lever 160, the operating lever 160 by the resilient force of the compression coil spring 182 By returning to the original position, the clamping state of the flexible wire 7 can be released automatically. When the compression coil spring 182 is compressed, if the fixing lever is further provided to fix the operating lever 160 so as not to return to its original position, the operator may operate the flexible wire 7 by the operating lever 160. ) Can be removed from the operating lever 160 and the rear movement of the motor 4 can be performed.

Thereafter, when the operator releases the locking of the flexible wire 7 by the wire locking member 8 and then drives the motor 4 again, the flexible wire 7 is rotated at a high speed by the rotation of the wire housing 6. As it rotates, the scale created inside the pipe is removed to a deeper level.

1 is a front view of a conventional pipe scale remover showing an initial state in which a motor is moved forward.

FIG. 2 is a front view of a conventional pipe descaler showing a state in which a motor is moved to the rear side to deeply insert a flexible wire into a pipe. FIG.

3 is a wire clamping device for pipe descaling machine according to the present invention

4 is a cross-sectional view taken along line IV-IV of FIG. 3.

5 is a wire clamping device for the pipe descaling machine according to the invention

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

110 ... guide tube 120 ... guide tube support

130 ... pin member 131 ... through hole

140.Block 150 ... Rotating Plate

160 ... operating lever 170 ... block

180 ... link arm 190 ... observer

Claims (3)

A support supported on the ground, a movable plate installed on the upper portion of the support to move horizontally forward and rearward along the guide rail, and a motor fixed to the upper portion of the movable plate to generate power forward and reverse; The hollow shaft is inserted into the center of the motor and is rotated by the driving force of the motor, the wire housing is fixed to the rear end of the hollow shaft and rotates together with the hollow shaft, and the front end is received in a state wound around the wire housing A flexible wire drawn out to the front of the hollow shaft, a wire locking member installed on an upper surface of the movable plate to selectively lock the flexible wire drawn out to the front of the hollow shaft while supporting the front of the hollow shaft, and the front of the wire locking member And a wire protection pipe fixed to the wire to protect the flexible wire that has passed through the locking member. In the tube-scale remover, A guide tube inserted into a front end of the wire protection pipe while being horizontally supported in front of the support to allow the flexible wire drawn out from the wire protection pipe to pass therethrough; A pin member fitted to penetrate both sides of the guide tube and having a through hole formed at a center thereof to allow a flexible wire to pass through the guide tube; Rotating plates fixed to both ends of the pin member; An actuating lever installed on one side of the guide tube at the rear of the pin member to be rotated back and forth; And It is arranged in parallel with the guide tube in the lower portion of the guide tube and both ends are hinged to the pivoting plate and the actuating lever, respectively, and includes a link arm for transmitting the pivoting force of the actuating lever to the pin member while interlocking along the actuating lever. Wire clamping device for a pipe descaler, characterized in that. The method of claim 1, The link arm is a wire clamping device for a pipe scale remover, characterized in that the resilient installation so that the pivoting operating lever can be returned to its original position. The method of claim 1, The upper part of the guide tube adjacent to the pin member, the wire clamping device for a pipe scale remover, characterized in that the observation hole communicating with the inside of the guide tube is further formed so that the operator can visually check the distortion state of the wire.

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