KR101723209B1 - Winding device for plastic pipe - Google Patents

Abstract

The present invention relates to a plastic pipe winding apparatus which feeds and winds a plastic pipe around a drum installed inside a case continually without breaking or, while the plastic pipe is continually wound around the drum, releases the plastic pipe to the outside of the case to facilitate pipe construction on-site. According to an embodiment of the present invention, the plastic pipe winding apparatus comprises: a case, a drum which is installed inside the case, wherein the plastic pipe is wound around or released from the outer circumferential surface of the drum by rotation; and a guide pipe which includes a curved portion formed by one side of the guide pipe bent along the outer circumferential surface of one end unit of the drum, and a straight portion extending from the other side of the guide pipe to the outside of the case, wherein the plastic pipe passes through the guide pipe to be wound around the drum, or released therefrom.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a winding device for a plastic pipe,

The present invention relates to a winding apparatus for a synthetic resin pipe, and more particularly, to a winding apparatus for a synthetic resin pipe, more specifically, to a drum installed in a case, a synthetic resin pipe being continuously wound without being disconnected, or a synthetic resin pipe being continuously wound around a drum, So as to facilitate piping work in the field.

Generally, various kinds of sewage pipes for discharging various kinds of sewage and rainwater are developed and used. The sewage pipes are simple and easy to install in the process of being buried in the underground, and have excellent durability and are resistant to corrosion in sewage, sewage and seawater. Among them, many synthetic resin pipes which are made of polyethylene and have improved durability have been proposed.

Since these synthetic resin pipes are sold in a certain standard length in the market, most of the pipes are connected to each other by using the butt joint method.

Such a butt joint method of a synthetic resin pipe is a method in which a synthetic resin pipe and a ring are separately manufactured and then a ring is preliminarily bonded to a synthetic resin pipe end at a factory, There is a method of physically coupling using a bolt and a nut and a method of fusing the ring by applying a power source in a state in which a heating heater is inserted and injected into the ring.

Korean Utility Model Registration No. 198811 proposes a technique for forming a metal mesh net (heat-generating heater) integrally on the inner fusing surface of a ring to mutually butt-weld the ring and the ring.

However, since the metal mesh net is integrally formed in the ring, when the ring is fused to the distal end of the synthetic resin pipe and is transported and handled, the metal mesh net formed integrally with the ring is damaged, The power source terminal exposed to the outside of the power source is easily detached.

In order to solve this problem, there has been a problem in that it is necessary to replace the entire part of the synthetic resin pipe with the damaged ring, or to cut the broken ring from the synthetic resin pipe, and heat the new ring again.

A problem to be solved by the present invention is that a synthetic resin pipe is continuously wound on a drum installed in a case without being disconnected or a synthetic resin pipe is continuously wound on a drum, And to provide a winding apparatus for a synthetic resin pipe which facilitates the winding.

According to another aspect of the present invention, there is provided a winding apparatus for a synthetic resin pipe, comprising: a case; a drum installed in the case and adapted to wind or unwind the synthetic resin tube on the outer circumferential surface in accordance with rotation; And a guide pipe extending from the other side of the bent portion and extending straight out of the case, wherein the synthetic pipe is inserted through the guide pipe and wound around the drum, Or released from the drum.

Here, a pressing portion that presses the synthetic resin tube drawn through the straight portion from one side and the other side, and a synthetic resin tube that is pressed by the pressing portion in the straight portion passes through the synthetic resin tube, and the synthetic resin tube is restored to its original shape And a restoration portion formed in a shape of a reducer so as to be drawn out to the outside.

In addition, the pressurizing portion and the restoring portion are respectively disposed between the straight portions, and the synthetic resin pipe drawn into the straight portion is sequentially passed through the restoring portion and the pressing portion, and the synthetic resin pipe, And is arranged so as to pass through the restoration part sequentially.

The heating coil may further include a first heating wire wound around the straight portion and a second heating wire wound around the straight portion, wherein the heating coil is wound around the outer circumferential surface of the guide tube, A first heating wire wound around the bent portion, a second heating wire wound around the straight portion adjacent to the bent portion with respect to the restoring portion, and a second heating wire wound around the straightening portion, The cooling coil includes a first cooling line wound on the bending portion and a second cooling line wound on the straight portion adjacent to the outside on the basis of the recovery portion. .

The apparatus may further include a cold air heater installed in the case to supply cold air to the synthetic resin pipe wound on the drum or to supply hot air.

As described above, according to the present invention, since the synthetic resin pipe is continuously wound on the drum installed in the case through the guide pipe without being disconnected, or the synthetic resin pipe is continuously wound around the drum, , It is required to cut the synthetic resin pipe according to the construction standard when constructing piping in the field, so there is no need to carry out a process of joining and joining a plurality of synthetic resin pipes together, thereby remarkably reducing work time and improving robustness And the watertightness are improved at the same time, it is possible to connect pipes without defects.

1 is a schematic view of a winding apparatus for a synthetic resin pipe according to an embodiment of the present invention;
Fig. 2 is a view schematically showing a state in which a pressing portion and a restoring portion are coupled to a guide tube in the winding apparatus for a synthetic resin pipe shown in Fig. 1. Fig.
3 is a view schematically showing the operation of the pressing portion and the restoring portion in the winding device for a synthetic resin pipe shown in Fig.
Fig. 4 is a view schematically showing a state in which a heating coil and a cooling coil are wound on a guide tube in the winding apparatus for a synthetic resin pipe shown in Fig. 1. Fig.
Fig. 5 is a view schematically showing an example in which the heating coil and the cooling coil shown in Fig. 4 are wound around a guide tube; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to illustrate the present invention in a manner that will be readily apparent to those skilled in the art, And this does not mean that the technical idea and scope of the present invention are limited.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification.

Also, when a part is referred to as " including " an element, it does not exclude other elements unless specifically stated otherwise.

FIG. 1 is a schematic view of a winding apparatus for a synthetic resin pipe according to an embodiment of the present invention. FIG. 2 shows a state in which a pressing unit and a restoring unit are coupled to a guide pipe in the winding apparatus for a synthetic resin pipe shown in FIG. FIG. 3 is a view schematically showing the operation of the pressing part and the restoring part in the winding device for a synthetic resin pipe shown in FIG. 1. FIG. 4 shows a winding device for a synthetic resin pipe shown in FIG. FIG. 5 is a view schematically showing an example in which the heating coil and the cooling coil shown in FIG. 4 are wound around a guide tube. FIG. 5 is a schematic view illustrating a state where the heating coil and the cooling coil are wound around the guide tube.

1, the winding apparatus for a synthetic resin pipe according to an embodiment of the present invention includes a case 10 and a case 10 installed inside the case 10 so that the synthetic resin pipe P is wound or unwound on the outer circumferential surface A bent portion 31 formed on one side of the drum 20 so as to be bent along an outer circumferential surface of the one end of the drum 20 and a straight portion extending from the other side of the bent portion 31 and extending out of the case The synthetic pipe P penetrates through the guide pipe 30 and is wound around the drum 20 or released from the drum 20. The guide pipe 30 includes a guide pipe 30,

Here, the case 10 is formed in a closed shape at four sides to provide a space in which the drum 20 and the guide tube 30 can be installed.

The drum 20 is rotated in the forward or reverse direction so that the synthetic resin pipe P drawn through the guide tube 30 is wound on the outer circumferential surface or the synthetic resin pipe P wound on the outer circumferential surface is released, And is installed inside the case 10. [0033] As shown in FIG.

The guide pipe 30 serves to provide a movement path through which the synthetic resin pipe P is pulled from the outside and wound on the drum 20 or the synthetic resin pipe P wound on the drum is loosened and drawn out to the outside , And is installed in the case (10).

The guide pipe 30 includes a bent portion 31 whose one side is bent in the form of a hook along the outer peripheral surface of one end of the drum 20 in the case 10, And a straight portion 32 extending straight from the other side and having an end portion drawn out to the outside of the case.

That is, when the synthetic resin pipe P is drawn from the outside into the guide pipe 30, the synthetic resin pipe P is wound around the drum 20 after sequentially passing through the straight portion 32 and the curved portion 31 When the synthetic resin pipe P wound around the drum 20 is drawn out to the outside, the synthetic resin pipe P sequentially passes through the curved portion 31 and the straight portion 32.

A driving motor 21 for generating a rotating force to rotate the drum 20 forward or backward by a driving force is provided and a rotating means for transmitting the rotational force of the driving motor 21 to the drum 20 It is preferable to further include them.

That is, when the synthetic resin pipe P is drawn into the case 10 from the outside through the guide pipe 30, the drive motor 21 rotates the drum 20 so that the synthetic resin pipe P is wound on the drum 20. [ When the synthetic pipe P wound around the drum 20 is pulled out to the outside through the guide pipe 30, the synthetic resin pipe 20 wound around the drum 20 is rotated in the forward direction, So that the drum 20 is rotated in the reverse direction so that the tube P is released.

2, a pressing portion 40 for pressing one side and the other side of the synthetic resin pipe P drawn from the outside to the straight portion 32, and a pressing portion 40 for pressing the synthetic resin pipe P pressed by the pressing portion 40, And a restoring unit 50 for restoring the synthetic pipe P to its original shape when the pipe P is drawn out through the straight line part 32. [

3, the pressing portion 40 compresses the synthetic resin pipe P, which is drawn from the outside into the straight portion 32, in a flat shape, and the straight portion 32, And a first roller 41 and a second roller 42 coupled to each other so as to face each other.

3, the recovery unit 50 may be disposed in the guide pipe 30 in a state in which the synthetic resin pipe P compressed in a flat shape by the pressing unit 40 is wound on the drum 20, And is coupled to the inside of the rectilinear section 32. The rectilinear section 32 is formed in a shape of a reducer whose diameter gradually decreases.

At this time, when the synthetic resin pipe P is drawn from the outside into the straight portion 32 of the guide pipe 30, the pressing portion 40 and the recovery portion 50 are sequentially passed or wound on the drum 20 If the synthetic resin pipe P sequentially passes through the restoring portion 50 and the pressing portion 40 when the synthetic resin pipe P is drawn out through the straight portion 32 of the guide pipe 30, Is wound in the original shape on the drum 20 or drawn out in a flat form when the drum 20 is taken out through the guide tube 30.

The pressing part 40 and the restoring part 50 are spaced apart from the linear part 32 and the synthetic pipe P drawn into the linear part 32 is separated from the restoring part 50 And the pressing portion 40 are sequentially passed through the synthetic resin pipe P and the drawn synthetic resin pipe P is disposed to pass the pressing portion 40 and the restoring portion 50 in order.

In order to smoothly process the synthetic resin pipe P in the process of being drawn into or drawn out from the guide pipe 30, the pressurizing unit 40 and the restoring unit 50 are made into a semi-solid state There is a need.

Therefore, it is preferable to further include a heating coil 60 and a cooling coil 70 wound around the outer circumferential surface of the guide tube 30.

4, the heating coil 60 includes a first heat line 60-1 wound around the straight line 20 and a second heat line 60-1 wound around the bent portion 31 and the restoration portion 50, And a second heat line 60-2 wound around the rectilinear section 32 adjacent to the bent section 31 as a reference.

Accordingly, when the synthetic resin pipe P is drawn into the guide pipe 30, the entire portion of the straight line portion 20 is heated by the first heat line 60-1, The synthetic pipe P is pulled out through the guide pipe 30 so that the bent portion 31 and the restoring portion 50 are brought into contact with each other, The section of the rectilinear section 32 adjacent to the bent section 31 is heated by the second heat line 60-2 so that the synthetic resin pipe P is in a semi-solid state before passing through the restoration section 50 And can be restored by the restoring unit 50.

5, the heating coil 60 includes a first heat line 60-1 wound around the bending portion 31 and a second heat line 60-1 wound around the bending portion 31 A second heating line 60-2 wound around the straight line portion 32 adjacent to the restoration portion 50 and a third heating line 60-3 adjacent to the restoration portion 50 based on the restoration portion 50. [

That is, when the synthetic resin pipe P is drawn into the guide pipe 30, the entire portion of the linear portion 32 is heated by the second heat line 60-2 and the third heat line 60-3, P can be semi-solid before being passed through the pressing portion 40 and can be pressed by the pressing portion 40. When the synthetic resin pipe P is pulled out through the guide tube 30, And a part of the rectilinear section 32 adjacent to the bending section 31 with respect to the restoring section 50 is separated by the first and second heating lines 60-1 and 60-2 The synthetic resin pipe P becomes a semi-solid state before passing through the restoration part 50, and can be restored by the restoration part 50. [

The cooling coil 70 includes a first cooling line 70-1 wound around the bent portion 31 as shown in FIGS. 4 and 5, And a second cooling line 70-2 that is wound on the straight line portion 32 to be wound.

Accordingly, when the synthetic resin pipe P compressed in a flat shape by the pressing portion 40 in the section of the rectilinear section 32 is drawn into the bent portion 31, the entire portion of the bent portion 31 is inserted into the first The cooling water is cooled by the cooling line 70-1 so that the synthetic resin pipe P is bent so as to be wound on the drum 20 and passes through the bending portion 31 in a compressed state, When the wound synthetic resin pipe P is drawn out to the outside through the guide pipe 30, a part of the rectilinear section 32 adjacent to the outside with respect to the restoration part 50 is separated from the second cooling line 70-2 So that the synthetic resin pipe P can be gradually restored to its original state after being passed through the restoration part 50. [

The case 10 may further include a cold air heater 80 for supplying cold air to the synthetic resin pipe P wound on the drum 20 or supplying hot air to the synthetic resin pipe P wound around the drum 20.

At this time, it is preferable that the cold air heaters 80 supply cool air when the synthetic resin pipes P are pulled through the gauge pipe 30 and are wound on the drum 20. This is to ensure that the synthetic resin pipe (P) is kept pressed by the pressing portion (40).

When the synthetic resin pipe P is to be drawn out to the outside through the guide pipe 30, it is preferable to supply hot air to the synthetic resin pipe P wound around the drum 20. This is for smoothly passing the bending portion 31 because the synthetic resin pipe P can not pass through the bending portion 31 in a hardened state.

10: Case 20: Drum
21: driving motor 22: rotating means
30: guide tube 31:
32: straight line portion 40:
41: first roller 42: second roller
50: restoring section 60: heating coil
70: cooling coil 80: cold air blower

Claims (5)

case;
A drum installed inside the case and adapted to wind or unwind the synthetic resin pipe on the outer circumferential surface in accordance with rotation;
A bent portion formed at one side of the drum to bend along an outer circumferential surface of the one end of the drum and a straight portion extending from the other side of the bent portion and drawn out to the outside of the case;
A pressing portion that presses the synthetic resin pipe drawn through the straight portion from one side and the other side;
A restoration part formed in a shape of a reducer so that the synthetic resin pipe pressed by the pressing part in the rectilinear part is passed and the synthetic resin pipe is restored to its original shape before being pressed and drawn out to the outside;
A heating coil and a cooling coil wound on an outer circumferential surface of the guide tube such that the synthetic resin pipe is variable through the pressing portion and the restoration portion; And
A cold air heater installed in the case to supply cold air or supply hot air to the synthetic resin pipe wound around the drum; , ≪ / RTI &
The synthetic resin tube is wound around the guide tube and wound on the drum or released from the drum,
Wherein the pressurizing portion and the restoring portion are respectively disposed between the rectilinear portions and the synthetic resin pipe leading to the straight portion is sequentially passed through the restoring portion and the pressing portion and the synthetic resin pipe drawn out from the pressurizing portion and the restoring portion Are arranged so as to pass through sequentially,
Wherein the heating coil includes a first heating wire wound around the straight portion and a second heating wire wound around the straight portion adjacent to the bending portion with respect to the bending portion and the restoring portion, A second heating line wound around the linear portion adjacent to the bending portion with respect to the restoration portion, and a third heating line adjacent to the outside based on the restoration portion,
Wherein the cooling coil includes a first cooling line wound on the bending portion and a second cooling line wound on the linear portion adjacent to the outside on the basis of the recovery portion,
Wherein the cool air blower supplies cool air when the synthetic resin pipe is drawn through the guide pipe and wound on the drum and supplies hot air when the synthetic resin pipe wound around the drum is to be drawn out. Winding device for synthetic resin pipes.
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