KR100960654B1 - Apparatus for removing scale in pipe - Google Patents

Abstract

The present invention relates to a pipe scale remover, a second base moving in the front-rear direction from an upper portion of the first base, a motor provided on one side of the upper portion of the second base, a chucking member is provided on the upper portion of the motor, A chucking unit having a hollow shaft that is rotatably connected to the drive shaft and the power transmission of the motor therein, a wire housing rotatably provided on the other side of the upper portion of the second base, the front housing is accommodated inside the wire housing It includes a flexible wire drawn out through the hollow shaft to remove the scale inside the pipe while rotating with the hollow shaft.

A scale remover capable of rotating the hollow shaft of the chucking part using a motor without a separate processing as described above, and removing the scale formed in the pipe by simultaneously drawing the flexible wire as the hollow shaft rotates. It is easy to manufacture and assemble, and can greatly reduce the cost of process reduction.

Piping, descalers, hollow shafts, belts, flexible wires

Description

Apparatus for removing scale in pipe}

The present invention relates to a pipe scale remover for removing a scale formed in the pipe, and more particularly, to a pipe scale remover that is easy to manufacture and assemble a scale remover and that can safely transmit power.

In general, a variety of pipes for transporting various solvents, including water, are installed in cooling and heating devices, boilers, heat exchangers, water supply devices, waste liquid conveying devices, and combustion devices.

When such pipes are used for a long time, magnetite, which is ferromagnetic microparticles, is generated and accumulated in the state of being attached to the inner wall of the pipe to form scales. These scales prevent the flow of solvent in the pipes, It lowers the thermal efficiency and combustion rate of the device, and causes serious problems that lead to aging of the pipes, such as the formation of various bacteria and rust in the metal pipes.

To this end, the scale attached to the inner wall of the pipe should be periodically removed. In the related art, a corrosion inhibitor is introduced into a pipe in a state in which a mechanical device is stopped, and the inside of the pipe is cleaned, and then the peeled scale is removed.

However, the descaling method as described above requires a lot of time and manpower, and thus, the work efficiency is greatly reduced.

Therefore, in order to solve the above problem, Utility Model Application No. 1990-3155 has been provided with a pipe scale remover.

As shown in FIG. 1, the pipe scale remover 10 is fixed to a collet chuck 3 fixed to a front end thereof by using a hollow shaft 2 of a pipe type as a driving shaft of the motor 1. And a wire housing 4 in which the flexible wire 5 is embedded, which is clamped by the collet chuck 3 via the hollow shaft 2.

 Referring to the process of removing the scale (S) inside the pipe (P) using the pipe descaler 10 having such a configuration briefly as follows.

First, a part of the flexible wire 5 is pushed into the pipe P from the end of the flexible wire 5, and then the motor 1 is driven. Then, the wire housing 4 and the collet chuck are formed along the hollow shaft 2 of the motor. 3) it rotates.

When the collet chuck 3 rotates, the flexible wire 5 fixed by the collet chuck 3 is rotated while being wound around the wire housing 4, and the flexible wire is in the pipe P. While rotating in the collision with the scale (S) in the pipe (P) to remove the scale (S).

However, since the pipe scale remover 10 as described above has to be hollowed on the drive shaft of the motor 1 after purchasing the motor 1 as a prototype, there is a problem in that time and expense are consumed as the process is added. In addition, the work is cumbersome, and if the hollow machining is wrong there was a problem that you need to purchase the motor (1) again.

The present invention has been made to solve the above problems, an object of the present invention is to provide a scale remover for the pipe that can be drawn out while rotating a flexible wire for removing the scale using a motor as a prototype.

Piping scale remover of the present invention for achieving the above object, the second base moving in the front and rear direction from the first base, the motor provided on one side of the upper portion of the second base, the chucking member on the upper portion of the motor And a chucking part having a hollow shaft that is rotatably connected to the drive shaft of the motor so as to transmit power to the inside of the chucking member, and a wire housing rotatably provided on the other side of the upper portion of the second base, inside the wire housing. It is received in the front end is drawn through the hollow shaft is provided with a flexible wire for removing the scale inside the pipe while rotating with the hollow shaft, the drive shaft and the hollow shaft of the motor is connected to enable power transmission through the belt, 2 The base is moved forward and backward through a pair of guide rails fixed to the upper surface of the first base in parallel. The inlet of the hollow shaft and the outlet of the wire housing are connected to each other through a flexible hose having flexibility, and the front end portion of the flexible wire is introduced into the hollow shaft after passing through the flexible hose, and the inlet and the flexible shaft of the hollow shaft are connected to each other. The outlet of the hose is connected through a connecting means, the connecting means is coupled to the fixing piece fixed to the inlet side of the hollow shaft and the outlet side of the flexible hose, the connecting piece is freely rotatably inserted and supported inside the fixing piece. Characterized in that it comprises a.

delete

delete

delete

A hollow shaft main surface between the connecting means and the chucking member is provided with a supporting piece for rotatably supporting the hollow shaft, and the supporting piece is fixed to the chucking member.

A guide piece is provided between the first base and the second base to guide the flexible wire drawn out through the hollow shaft to be introduced into the pipe, and the guide piece has a structure in which a plurality of pipes are stacked in multiple stages to enable length adjustment. Characterized in having a.

According to the present invention, a prototype is manufactured by rotating a hollow shaft of a chucking unit using a motor as it is, and manufacturing a scale remover capable of removing the scale formed in the pipe by drawing the flexible wire as the flexible shaft rotates as the hollow shaft rotates. And it is easy to assemble and can greatly reduce the cost due to process reduction.

In addition, the motor and the ball shaft can be connected to the power transmission through the belt, and the wire housing in which the flexible wire is accommodated does not rotate, thereby greatly reducing the noise.

Hereinafter, a preferred embodiment of the pipe scale remover according to the present invention will be described in detail with reference to FIGS. 2 to 4.

As shown in FIG. 2, the pipe scale remover of the present invention includes a first base 100 supported on the ground, a second base 200 moving in the front-rear direction from an upper portion of the first base 100, and The motor 300 is provided on one side of the upper portion of the second base 200, the chucking unit 400 is provided on the upper portion of the motor 300 and connected to the drive shaft and the power transmission of the motor 300 to rotate, The wire housing 500 provided on the other side of the upper portion of the second base 200, the wire housing 500 is accommodated in the inside and the front end is drawn through the hollow shaft 420 and rotates together with the hollow shaft 420. It includes a flexible wire 600 to remove the scale (not shown) inside the pipe (not shown).

The first base 100 is installed in a horizontal state on the ground, the lower portion is provided with a wheel to improve the convenience of movement.

The second base 200 is installed on the upper portion of the first base 100 so as to be movable in the front and rear directions along a pair of guide rails 110 fixed side by side in the front and rear directions.

The motor 300 is installed on the upper right side of the second base 200 with the drive shaft facing the left side of the second base 200, and preferably uses a BLDC motor which is a high efficiency motor. It is rotated by receiving power under the control of a control box (not shown) installed inside the first base 100.

The chucking unit 400 is for rotating the flexible wire 600 to be described later and at the same time withdraw the outside, the chucking member 410 provided on the upper surface of the motor 300 and the chucking member 410 It includes a hollow shaft 420 rotatably provided therein and a hollow formed in the front.

In addition, a plurality of bearings 430 are provided between the chucking member 410 and the hollow shaft 420 to reduce frictional force when the hollow shaft 420 rotates.

In addition, a collet chuck 440 for rotating the flexible wire 600 is provided at a side of the hollow shaft 420 (a portion into which the flexible wire is inserted).

Here, when the collet chuck 440 is coupled to the hollow shaft 420 by replacing the collet chuck 440 according to the thickness of the flexible wire 600, the flexible wire 600 of any thickness can be used. It has the convenience and efficiency of.

On the other hand, the collet chuck 440 is provided so as to be interchangeable depending on the thickness of the flexible wire 600, the thickness of the flexible wire 600 can be used without replacement only by the collet chuck basically used.

In addition, the hollow shaft 420 and the drive shaft of the motor 300 are connected to the power transmission through the belt 310.

That is, pulleys are coupled to one side (left side when viewed in FIG. 2) of the hollow shaft 420 and the driving shaft of the motor 300, and a pulley belt coupled to the hollow shaft 420 and the motor 300 ( As the 310 is coupled and coupled, the rotational force of the motor 300 may be transmitted to the hollow shaft 420 through the belt 310.

Therefore, the transmission of the rotational force of the motor 300 to the hollow shaft 420 through the belt 310 does not need to process a separate hollow in the drive shaft of the motor 300, thereby significantly reducing the noise In addition, it can provide a stable rotational force.

The wire housing 500 is for accommodating the flexible wire 600, the lower part of which is rotatably fixed to the upper left side of the second base 200 through a bearing, and the upper end of the flexible wire 600 is drawn out. The outlet is formed so that it can be.

That is, the wire housing described in the above-described prior art has a problem in that vibration and noise are greatly generated when the wire housing is rotated because only one end is fixed in the form of a cantilever, but the wire housing 500 of the present invention is fixed to both ends. Since it is provided with the wire housing 500 can greatly reduce the vibration and noise generated during rotation.

The flexible wire 600 is for removing a scale formed in the pipe, and is wound and stored in the wire housing 500, and the front end portion is formed through the outlet of the wire housing 500 and the hollow shaft 420. It is continuously drawn out and rotates together with the hollow shaft 420 to remove the scale inside the pipe.

Here, the flexible wire 600 is a known technique, and thus detailed description thereof will be omitted.

In addition, the outlet of the wire housing 500 and the inlet of the hollow shaft 420 are connected in communication through the flexible hose 700.

The flexible hose 700 is a flexible hose that is bent in all directions, guides the flexible wire 600 to be introduced into the inlet of the hollow shaft 420 more stably, and injuries of the worker from the flexible wire 600. Serves to prevent.

That is, the front end of the flexible wire 600 is connected to the inlet of the hollow shaft 420, the end is fixed to the outlet of the wire housing 500, the wire housing 500 flexible hose 700 and the hollow shaft 420 ) Is passed sequentially and then drawn out (ie inside the scaled pipe).

In addition, the inlet of the hollow shaft 420 and the outlet of the flexible hose 700 connected thereto are connected through the connecting means 800.

That is, the connecting means 800 is coupled to the fixed piece 810 fixed to the inlet side of the hollow shaft 420 and the outlet side of the flexible hose 700 and the front end is fitted to the inside of the fixed piece 810 And a connecting piece 820.

Therefore, when the hollow shaft 420 rotates, the connecting means 800, the flexible hose 700 and the wire housing 500 to rotate in conjunction with the hollow shaft 420.

In addition, the hollow shaft 420 between the connecting means 800 and the chucking member 410 may be provided with a support piece 900 for rotatably supporting the hollow shaft 420, the support piece ( 900 is fixed to the side wall of the second base 200, as shown in FIG.

That is, as the hollow shaft 420 is supported through the support piece 900, safety during rotation of the hollow shaft 420 may be secured, and noise generated by vibration may be greatly reduced.

In addition, as illustrated in FIG. 2, a guide piece 910 is installed between the first and second bases 100 and 200 to smoothly pull out the flexible wire 600.

The guide piece 910 has a structure that overlaps and stretches in multiple stages such as the trivet of the camera, one end is fixed to the first base 100, the other end is in close proximity to the outlet of the hollow shaft 420, the second base It is fixed to 200.

That is, when the second base 200 moves in the front-rear direction along the guide rail 110, the length of the guide piece 910 overlapping in multiple steps is increased or decreased together so that the flexible wire 600 is always smoothly drawn out. Can be derived.

Here, the hollow shaft 420 and the guide piece 910 is preferably located on the same horizontal line.

Referring to the process of removing the scale formed in the pipe using the pipe scale remover having the above configuration as follows.

First, the front end of the flexible wire 600 accommodated in the wire housing 500 through the flexible hose 700, the connecting means 800, the hollow shaft 420 of the chucking unit 400, and the guide piece 910 After drawing to the outside, it is drawn inside the pipe (not shown).

When the power is applied to the motor 300 in such an initial state, the belt 310 rotates as the drive shaft of the motor 300 rotates, and the hollow shaft of the chucking part 400 as the belt 310 rotates ( 420 rotates.

As the hollow shaft 420 rotates, the collet chuck 440 rotates together with the hollow shaft 420 to rotate the flexible wire 600 and withdraw the outside to the outside, and the flexible wire 600 is withdrawn. As a result, the scale is contacted to remove the scale.

1 is a side view showing a conventional pipe descaler.

Figure 2 is a side view showing a descaler for piping of the present invention.

3 is a partially enlarged side cross-sectional view of FIG.

4 is an enlarged partial cross-sectional view of FIG.

Explanation of symbols on the main parts of the drawings

100: first base 110: guide rail

200: second base 300: motor

400: chucking unit 410: chucking member

420: hollow shaft 430: bearing

440: collet chuck 500: wire housing

600: flexible wire 700: suspended flexible hose

800: connecting means 810: fixing piece

820: connection piece 900: support piece

910 Guide

Claims (6)

delete delete delete A second base moving forward and backward from the first base; A motor provided on an upper side of the second base; A chucking unit provided at an upper portion of the motor, and a chucking unit having a hollow shaft rotatably connected to a driving shaft of the motor so as to transmit power within the chucking member; In the wire housing rotatably provided on the other side of the upper portion of the second base, and a flexible wire that is accommodated in the wire housing and the front end is drawn through the hollow shaft to rotate with the hollow shaft to remove the scale inside the pipe, The drive shaft and the hollow shaft of the motor are connected to the power transmission through a belt, the second base is moved in the front and rear direction through a pair of guide rails fixed in parallel to the front and rear direction on the upper surface of the first base, The inlet of the hollow shaft and the outlet of the wire housing are connected in communication through a flexible hose having flexibility, the leading end of the flexible wire is introduced into the hollow shaft after passing through the flexible hose, and the inlet of the hollow shaft and the outlet of the flexible hose are connected to each other. Connected via means, the connecting means comprising a fixing piece fixed to the inlet side of the hollow shaft and a connecting piece fitted to the outlet side of the flexible hose and freely rotatably inserted into the fixing piece. Descaler for piping. The method of claim 4, wherein A hollow shaft main surface between the connecting means and the chucking member is provided with a support piece for rotatably supporting the hollow shaft, wherein the support piece is fixed to the chucking member. The method according to claim 4 or 5, A guide piece is provided between the first base and the second base to guide the flexible wire drawn out through the hollow shaft into the pipe. The guide piece is a pipe remover, characterized in that it has a structure in which a plurality of pipes overlapping in multiple stages to enable the length adjustment.

Images