KR101891684B1 - Multi-tube using adhesive application - Google Patents

Abstract

Disclosed are a multi-tube body using adhesive application and a manufacturing device. The multi-tube body comprises a high-pressure pipe (13) and a low-pressure pipe (14) surrounded by a heat insulating material (17); and a multi-tube body part (25) having a multi-purpose pipe (27) coupled to the high-pressure pipe (13) and the low-pressure pipe (14), wherein the multi-tube body part (25) is taped with a tape (26) to which an adhesive is applied. The present invention aims to provide the multi-tube body and the manufacturing device using the adhesive application in which multiple tubular bodies are shipped with a predetermined length.

Description

[0001] MULTI-TUBE USING ADHESIVE APPLICATION [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-tube and a manufacturing apparatus using an adhesive, and more particularly, to a multi-tube and a manufacturing apparatus using an adhesive application for manufacturing multiple tubes used in an air conditioner pipe.

The air conditioner piping includes a high-pressure pipe 13, a low-pressure pipe 14, a communication line, an electric wire 23 and a drain pipe 24. The installer joins the high-pressure pipe 13 and the low-pressure pipe 14 with the heat insulating material 17, the communication line, the electric wire 23 and the water discharge pipe 24 and then the high-pressure pipe 13 and the low- ) Are taped by hand to install air-conditioner piping. However, when the installer manually manufactures the air conditioner piping, there is a problem that the quality of the air conditioner piping depends on the technique of the manufacturer and is not uniform. In addition, there is a problem in manual operation that the cost for manufacturing the air conditioner piping is long and the labor cost is high, so that the installation cost can not be lowered. This increases the installation cost, which lowers the competitiveness of air conditioner piping.

Registration number: 10-0749300, Multi-tube manufacturing apparatus and manufacturing method thereof

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a method and apparatus for automating the manufacture of multiple tubes 25 used as an air conditioner pipeline, and which is robust against external scratches during construction or after construction, An object of the present invention is to provide a multi-tube and a manufacturing apparatus using an adhesive agent which has a waterproof function that does not permeate, is easily warped, and facilitates piping construction.

It is also an object of the present invention to provide a multi-tubular body and a manufacturing apparatus using an adhesive application in which multiple tubular bodies are shipped at a predetermined length.

It is also an object of the present invention to provide a multi-tubular body and a manufacturing apparatus using an adhesive agent for manufacturing multi-tubular bodies used as an air conditioner piping.

In order to achieve the above object, the present invention provides a high pressure pipe (13) and a low pressure pipe (14) surrounded by a heat insulating material (17). A multi-tubular part (25) having a multi-purpose pipe (27) coupled to the high-pressure pipe (13) and the low-pressure pipe (14); And the multi-tubular portion 25 are taped to the tape 26 to which the adhesive 26 is applied.

Further, the multi-function pipe 27 is characterized by including a communication line and an electric wire 23 therein.

Further, the multi-tubular portion 25 is characterized in that it further includes a drain pipe 24.

The multiple tube portions 25 are marked at intervals of 1 meter so that the length thereof is convenient to confirm. The heat insulating material 17 surrounds the high pressure tube 13 and the low pressure tube 14 in the form of a band, ) And the low-pressure pipe 14 are pressed down by the rollers, respectively, and the joints are joined by hot air.

The heat insulating material 17 heated by the hot air which is obtained by pressing the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 is joined to separate the high pressure pipe 13 and the low pressure pipe 14 And the heat insulating material 17 between the separated high pressure pipe 13 and the low pressure pipe 14 is cut with a cutting knife.

The high pressure pipe 13 and the low pressure pipe 14 are surrounded by the heat insulating material 17 and the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 is pressed, (10) for separating and transporting the object; The electric cable 23 and the drain pipe 24 are connected to the high pressure pipe 13 and the low pressure pipe 14 which are separately transported and surrounded by the heat insulating material 17 and only the multipurpose pipe is formed, Pressure pipe 13 and a low-pressure pipe 14 (not shown) to the opposite pulley 15. The high-pressure pipe 13 and the low-pressure pipe 14 are connected to each other by a taping portion 20 for applying an adhesive to the adhesive tape 26, Pressure pipe 13 and the low-pressure pipe 14 are wrapped by a heat insulating material 17 in the form of a strip, and hot air is blown from the hot air blower 18 located at the upper part of the joint, Pressure pipe 13 and the low-pressure pipe 14 and presses the heat insulating material 17 between the high-pressure pipe 13 and the low-pressure pipe 14, and the heat insulating material 17 Pressure pipe 13 and the low-pressure pipe 14 are separated and transferred.

Further, the taping portion 20 includes a tank 27 for storing an adhesive; And an application section 28 for applying an adhesive transferred to a part or the whole of the tape 26 after transferring the adhesive from the tank.

Further, the transfer unit 10 includes a pressure tube transfer unit 11 for unloading the high pressure pipe 13 and the low pressure pipe 14, and transferring the pressure tube; The high-pressure pipe 13 and the low-pressure pipe 14 to be conveyed are surrounded by a heat insulating material 17 in the form of a band, hot air is blown from the hot air blower 18 located at the upper part of the seam, Pressure pipe 13 and the low-pressure pipe 14, and the heat-insulating material heated by the hot air, which is joined with the seam, is joined to separate the high-pressure pipe 13 and the low-pressure pipe 14 A separating portion 12 for separating the toner image; And a cut portion 19 for cutting the heat insulating material 17 between the separated high pressure pipe 13 and the low pressure pipe 14 with a cutting knife. The feed portion 10 is surrounded by a high pressure pipe 13 and the low-pressure pipe 14 to the taping portion 20.

The taping portion 20 is connected to the high pressure pipe 13 and the low pressure pipe 14 surrounded by the heat insulating material 17 and connected to the communication line, the electric wire 23 and the water discharge pipe 24, or only the multi- And a forming portion 21 that forms a plurality of tubular members 25, and the taping portion 20 tapes the formed multi-tubular member 25 with the tape 26. [

The high pressure pipe 13 and the low pressure pipe 14 are surrounded by the heat insulating material 17 and the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 is pressed, Separating and transporting the semiconductor wafer; The electric wire 23 and the drain pipe 24 are connected to the high-pressure pipe 13 and the low-pressure pipe 14 surrounded and separated by the heat insulating material 17 and the multi-purpose pipe, (26) with tapes (26) coated with an adhesive.

The taping may also include storing the adhesive in the tank 27; And transferring the adhesive from the tank 27 and then applying the adhesive transferred to part or all of the tape 26.

The conveying step includes a pressurizing and conveying step of unrolling the high pressure pipe (13) and the low pressure pipe (14) and conveying the pressure pipe; The high pressure pipe 13 and the low pressure pipe 14 to be conveyed are wrapped with a heat insulating material 17 in the form of a band and then the hot air is blown from the hot air blower 18 located at the upper part of the joint, Pressure pipe 13 and the low-pressure pipe 14 and presses the heat-insulating material 17 by the hot air which is joined with the seam, and the high-pressure pipe 13 and the low- A separation step of separating the low pressure pipe (14); And a cutting step of cutting the heat insulating material (17) between the separated high pressure pipe (13) and the low pressure pipe (14) with a cutting knife, the feeding step including a high pressure pipe (13) surrounded and separated by the heat insulating material Pressure pipe 14 to the taping step.

The taping may be performed by joining a communication line, a wire 23 and a drain pipe 24 to the high-pressure pipe 13 and the low-pressure pipe 14 surrounded by the heat insulating material 17 and joining only the multi- Forming a multi-tube (25) forming a multi-tube (25), the taping taping the multi-tube (25) formed with the tape (26).

When the multi-tube and the manufacturing apparatus using the adhesive application according to the present invention as described above are used, the multiple tubes 25 including the high-pressure tube 13, the low-pressure tube 14, the communication line, the electric wire 23, ) Can be produced.

Also, there is an advantage in that the multiple tubes 25 are shipped with a predetermined length by using the multi-tube 25 manufacturing apparatus.

Also, there is an effect of efficiently manufacturing the multiple tubes 25 used as the air conditioner piping by using the multi-tube 25 manufacturing apparatus.

In addition, the multi-tubular body 25 has a waterproof function that does not permeate water, and it is easy to bend when working with a pipeline, and a high-pressure pipe and a low-pressure pipe surrounded by a heat insulating material can facilitate piping construction when an air conditioner is installed.

Further, when the tape is made thick and adhered, the multi-tubular member 25 can produce a pipe that is robust against external scratches and is not damaged by sunlight, and the bonded tape may not be pushed even though it passes through a narrow hole.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view showing an overall configuration of a multi-tube manufacturing apparatus using an adhesive application. FIG.
2 is an exemplary view showing the configuration of the transfer unit 10 in the multi-tube manufacturing apparatus using the adhesive application.
3 is an exemplary view showing the configuration of the taping section 20 in the multi-tube manufacturing apparatus using the adhesive application.
4 is a flow chart of a method for manufacturing a multi-tube using an adhesive application.
5 is a block diagram showing the configuration of a multi-tube manufacturing apparatus using an adhesive application.
6 is an exemplary view showing a configuration of a taping portion.
7 is an exemplary view showing the configuration of a cutout portion.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

The multi-tubular manufacturing apparatus surrounds the high-pressure pipe and the low-pressure pipe with the heat insulating material, presses the insulation between the high-pressure pipe and the low-pressure pipe, separates the high-pressure pipe and the low-pressure pipe, and then combines and tapes the wire and the drain pipe.

The high-pressure pipe and the low-pressure pipe surrounded by the heat insulating material can be separated and used separately. When connecting multi-tubular high-pressure pipe and low-pressure pipe to air conditioner, it is not easy to work when high-pressure pipe and low-pressure pipe are bundled together with insulation. Therefore, separately separated high-pressure pipe and low- .

The taping portion applies the adhesive to the tape to increase the adhesive force so that the tape adheres well to the multiple tubes. The adhesive is applied to part or all of the tape when the taping portion applies the adhesive. When the adhesive is applied to a portion of the tape, when the multi-tube is bent, the portion of the tape to which the adhesive is not applied is stretched to assist the flexing. When the adhesive is applied to the entire tape, the water penetration into the multi-tubular body is reduced and the waterproofing power of the multi-tubular body is increased. As an example, the adhesive may be a PVC adhesive.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view showing an overall configuration of a multi-tube manufacturing apparatus. FIG.

The transfer section 10 is formed by wrapping the high-pressure pipe 13 and the low-pressure pipe 14 with a heat insulating material 17 in the form of a band and bonding them by hot air at 300-500 ° C. Then, The roller is installed within a distance of 1 meter and the roller presses the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 to transfer the high pressure pipe 13 and the low pressure pipe 14 separately.

The distance between the hot air blower 18 for injecting the hot air and the roller is preferably set within 1 meter in order to maintain the temperature at or above a certain level.

The transfer unit 10 uncovers the high pressure pipe 13 and the low pressure pipe 14 and transfers the high pressure pipe 13 and the low pressure pipe 14 surrounded by the heat insulating material 17.

The transfer unit 10 presses the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 surrounded by the heat insulating material 17 to separate the high pressure pipe 13 and the low pressure pipe 14 from each other.

The taping section 20 is connected to the high pressure pipe 13 and the low pressure pipe 14 surrounded by the heat insulating material 17 and connected to the communication line, the electric wire 23 and the water discharge pipe 24 alone or by connecting only the multi- And an adhesive is applied to the tape 26 and taped to the tape 26 to which the adhesive is applied. The multipurpose pipe is used as a drain pipe or a wire insertion pipe. In another embodiment, the outer tube 23 may be coupled to the high-pressure tube 13 and the low-pressure tube 14 to form the multiple tubes 25 to reduce the outside diameter.

The taping portion 20 is connected to the high pressure pipe 13 and the low pressure pipe 14 which are separated and conveyed by loosening the communication line, the electric wire 23 and the drain pipe 24 surrounded by the insulating material 17, .

The taping portion 20 tapes the formed multi-tube body 25 with the tape 26.

The multiple tubes 25 are wound around a cylinder and cut at a predetermined length.

2 is an exemplary view showing the configuration of the transfer unit 10 in the multi-tube manufacturing apparatus.

The pressure-feeding and conveying unit 11 uncovers the high-pressure pipe 13 and the low-pressure pipe 14 and transfers the pressure-fed pipe.

The pressure pipe transfer section 11 transfers the high pressure pipe 13 and the low pressure pipe 14 to the opposite pulley 15 by engaging them.

The separating unit 12 surrounds the high pressure pipe 13 and the low pressure pipe 14 to be conveyed with the heat insulating material 17 in the form of a band and then the hot air from the hot air blower 18, The rollers are installed in the upper and lower portions within a distance where the temperature of the hot air is maintained at a constant temperature so that the temperature of the hot air is not lowered to a certain temperature or lower, and the roller presses the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 Pressure tube 13 and the low-pressure pipe 14 are joined to each other, and the heat insulating material 17 heated by the hot air which is pressed in the upward direction from the bottom of the heat insulating material 17 and joined with the seam is joined to the high- 13) and the low-pressure pipe (14). The distance between the hot air blower 18 for injecting the hot air and the roller is preferably set within 1 meter in order to maintain the temperature at or above a certain level. The rubber foaming heat insulating material can be used as the heat insulating material 17, and the heat insulating material 17 can foam the polyethylene resin into the independent bubble structure to exhibit a high effect of keeping warm and cold.

The separating portion 12 surrounds the high pressure pipe 13 and the low pressure pipe 14 to be transferred with the heat insulating material 17 and the protrusion 16 protruding from the pulley 15 is inserted between the high pressure pipe 13 and the low pressure pipe 14 The heat insulating material 17 is pressed.

The separating section 12 applies hot air to the heat insulating material 17 to separate the high-pressure pipe 13 and the low-pressure pipe 14 from each other. The hot air temperature is 300-500 占 폚, and the heat insulating material 17 is melted to a certain degree and adhered to each other.

When the temperature is below 300 ° C, the temperature is low and the bonding becomes poor. Particularly, when the high pressure pipe 13 and the low pressure pipe 14 are separated from each other by a certain distance, the temperature may be lowered and the pipe separation may become difficult.

Above 500 캜, the temperature is too high, so that the foam material can be melted and the insulation can melt. The temperature of the hot air is set up to 550 ℃, but the temperature is lower than that of the heat transfer.

The cutting portion 19 cuts the heat insulating material 17 between the separated high pressure pipe 13 and the low pressure pipe 14 with a cutting knife. The high-pressure pipe 13 and the low-pressure pipe 14 surrounded by the heat insulating material 17 may be separately used after the heat insulating material 17 between the high-pressure pipe 13 and the low-pressure pipe 14 is cut. When the multi-tube high-pressure pipe 13 and the low-pressure pipe 14 are connected to the air conditioner, when the high-pressure pipe 13 and the low-pressure pipe 14 are bundled together with the heat insulating material 17, Separate high-pressure pipe (13) and low-pressure pipe (14) help air-conditioning piping work.

The transfer unit 10 transfers the high-pressure pipe 13 and the low-pressure pipe 14, which are separated and transferred by the heat insulating material 17, to the taping unit 20.

3 is an exemplary view showing a configuration of the taping section 20 in the multi-tube manufacturing apparatus.

The forming part 21 is formed by joining a communication line, a wire 23 and a drain pipe 24 to the high pressure pipe 13 and the low pressure pipe 14 which are surrounded and separated by the heat insulating material 17 or by connecting only the multipurpose pipe, ). In another embodiment, the multi-tubular member 25 can be formed by joining the high-pressure pipe 13 and the low-pressure pipe 14 with the electric wire 230.

The forming portion 21 is formed by loosening the communication line, the electric wire 23 and the drain pipe 24 and connecting the high pressure pipe 13 and the low pressure pipe 14 separated and conveyed surrounded by the heat insulating material 17 to form the multiple pipe bodies 25 .

The taping portion 20 applies an adhesive to the tape 26 and tapes the tape 26 with the adhesive applied thereto. The taping portion 20 applies an adhesive to the tape 26 to increase the adhesive force so that the tape 26 adheres well to the multiple tubes 25. [ The adhesive agent is applied to part or all of the tape 26 when the taping portion 20 applies the adhesive. When an adhesive is applied to a portion of the tape 26, the portion of the tape 26 to which the adhesive is not applied is stretched to assist the flexure when the multiple tubes 25 are bent. When the adhesive is applied to the entire tape 26, water penetration into the multi-tubular body 25 is reduced and water resistance of the multi-tubular body 25 is increased. As an example, the adhesive may be a PVC adhesive.

The tape 26 is wound around the multi-tubular body 25 by rotating the multi-tubular body 25 when the taping portion 20 winds the tape 26 or rotating the tape 26 while the multi- Can be wound. In an embodiment, it is preferable that the taping portion 20 wind the tape 26 around the multi-tube 25 when the multiple tubes 25 are transported.

The thickness of the tape 26 is about 0.1 mm to 0.5 mm in stretchability, and is determined so as to be strong against tearing. If the thickness is thicker than 0.5 mm, the stretchability is lowered, and if it is thinner than 0.1 mm, it is weakened by tearing.

4 is a flow chart of the operation of the multi-tube manufacturing method.

A method of manufacturing a multi-tubular body will be described.

The multi-tube manufacturing apparatus includes a program memory for storing a program, a data memory for storing data, and a processor for executing the program.

The program memory includes the high pressure pipe 13 and the low pressure pipe 14 surrounded by the heat insulating material 17 and the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 is pressed, (S510) for separating and feeding the high pressure pipe (13) and the low pressure pipe (14); The communication pipe, the electric wire 23 and the drain pipe 24 are connected to the high pressure pipe 13 and the low pressure pipe 14 surrounded and separated by the heat insulating material 17 to form the multiple pipe bodies 25 and taped with the tape 26 Step S520.

A multi-tubular manufacturing apparatus executes a program stored in a program memory by a processor.

The procedures performed in the multi-tubular manufacturing apparatus are described in a time series.

The multi-tubular production apparatus includes a high-pressure pipe 13 and a low-pressure pipe 14, which surround the high-pressure pipe 13 and the low-pressure pipe 14 with a heat insulating material 17 and press the heat insulating material 17 between the high- (14).

The multi-tubular production apparatus cuts the heat insulating material 17 between the separated high-pressure pipe 13 and the low-pressure pipe 14 with a cutting knife.

The multi-tubular manufacturing apparatus uncovers the high-pressure pipe (13) and the low-pressure pipe (14) and transfers the pressure pipe.

In the multi-tubular manufacturing apparatus, the pipes are wrapped by the high-pressure pipe 13 and the low-pressure pipe 14 to be conveyed in a strip-shaped heat insulating material 17 and then the hot air blown at 300-500 ° C is blown A roller is installed in the upper and lower parts within a distance of 10 centimeters to 1 meter maintaining a constant temperature so that the temperature of the hot air is not lowered to a certain temperature or lower, The heat insulating material 17 which is heated by hot air which is pressed by the heat insulating material from the lower side to the upper direction so that the heat insulating material 17 between the high-pressure pipe 13 and the low-pressure pipe 14 is joined to the high- Separates the pipe (13) and the low-pressure pipe (14). The distance between the hot air blower 18 for injecting the hot air and the roller is preferably set within 1 meter in order to maintain the temperature at or above a certain level.

The multi-tubular manufacturing apparatus transfers the high-pressure pipe 13 and the low-pressure pipe 14, which are separated and conveyed by the heat insulating material 17, to a taping step.

The multi-tubular manufacturing apparatus includes a multi-tubular body 25 by joining a communication line, a wire 23 and a drain pipe 24 to the high-pressure pipe 13 and the low-pressure pipe 14 surrounded by the heat insulating material 17, An adhesive is applied to the tape 26, and the tape 26 is taped with the adhesive. In another embodiment, the multi-tubular member 25 can be formed by joining the high-pressure pipe 13 and the low-pressure pipe 14 with the electric wire 230.

The multi-tubular manufacturing apparatus forms a multi-tubular body 25 by joining a communication line, a wire 23 and a drain pipe 24 to a high-pressure pipe 13 and a low-pressure pipe 14, which are surrounded and surrounded by a heat insulating material 17.

The multi-tubular production apparatus tapes the formed multiple tubes 25 with the tape 26.

5 is a block diagram showing a configuration of a multi-tube manufacturing apparatus.

The conveying section 10 surrounds the high-pressure pipe 13 and the low-pressure pipe 14 with a heat insulating material 17 in the form of a band and blows hot air to join the seam. The upper and lower rollers then pressurize the high- Pressure pipe 13 and the low-pressure pipe 14 are separated and transferred.

The taping section 20 is connected to the high pressure pipe 13 and the low pressure pipe 14 surrounded by the heat insulating material 17 and connected to the communication line, the electric wire 23 and the water discharge pipe 24 alone or by connecting only the multi- And an adhesive is applied to the tape 26 and taped to the tape 26 to which the adhesive is applied. In another embodiment, the multi-tubular member 25 can be formed by joining the high-pressure pipe 13 and the low-pressure pipe 14 with the electric wire 230.

The control unit 40 controls the transfer unit 10 and the taping unit 20.

The control unit 40 controls the transfer unit 10 to surround the high pressure pipe 13 and the low pressure pipe 14 with the heat insulating material 17 and press the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14, The pipe 13 and the low-pressure pipe 14 are separated and transferred.

The control unit 40 controls the conveying unit 10 to unroll the high-pressure pipe 13 and the low-pressure pipe 14 and transfer the pressure pipe.

The control unit 40 controls the conveying unit 10 to wrap the high pressure pipe 13 and the low pressure pipe 14 to be conveyed in a belt-like heat insulating material 17 and blow the hot air from the hot air blower 18 located at the upper position A roller provided at the upper and lower portions in a distance where the temperature of the hot air maintains the constant temperature is pressed and the heat insulating material 17 between the high pressure pipe 13 and the low pressure pipe 14 is pressed and the heat insulating material 17 are joined to separate the high pressure pipe 13 and the low pressure pipe 14 and cut the heat insulating material 17 between the separated high pressure pipe 13 and the low pressure pipe 14 with a cutting knife.

The control unit 40 controls the transfer unit 10 to transfer the high pressure pipe 13 and the low pressure pipe 14 separated and conveyed by the heat insulating material 17 to the taping unit 20.

The control unit 40 controls the taping unit 20 to connect the communication line, the electric wire 23 and the water discharge pipe 24 to the high pressure pipe 13 and the low pressure pipe 14 which are separated and fed by the heat insulating material 17, To form a multi-tube body (25), and an adhesive is applied to the tape (26) and taped to the tape (26) coated with the adhesive. In another embodiment, the multi-tubular member 25 can be formed by joining the high-pressure pipe 13 and the low-pressure pipe 14 with the electric wire 230.

The control unit 40 controls the taping unit 20 to couple the communication line, the electric wire 23 and the water discharge pipe 24 to the high pressure pipe 13 and the low pressure pipe 14 which are separately transported and surrounded by the heat insulating material 17, (25).

The control unit 40 controls the taping unit 20 to tap the multi-tubular body 25 formed thereon with the tape 26. [

7 is an exemplary view showing a configuration of a taping portion.

The taping portion 20 includes a tank 27 for storing an adhesive agent; And an application unit 28 for applying an adhesive 271 transferred to a part or the whole of the tape 26 after transferring the adhesive from the tank. The thickness of the tape 26 is from 0.1 millimeter to 0.5 millimeter. Less than 0.1 millimeters can be too thin to tear, and more than 0.5 millimeters can be too thick to warp.

The application portion 28 includes a transfer portion 281 for transferring the adhesive 271 from the tank 27; An ejection port 282 for ejecting the transferred adhesive 271; And a roller 283 for applying the jetted adhesive 271 to part or all of the tape 26.

The hole width varies depending on the amount of the adhesive applied to the tape 26, and the roller 283 varies in rotational speed depending on the amount of adhesive applied. The application portion 28 controls the operation of the jetting port 282 and the roller 283 in accordance with the amount of the adhesive applied to the tape 26 to apply the adhesive 271. [

The adhesive agent is applied to part or all of the tape 26 when the taping portion 20 applies the adhesive 271. [ When the adhesive 271 is applied to a part of the tape 26, the tape 271 is not applied with the adhesive 271 when the multiple tubes are bent. When the adhesive 271 is applied to the entire tape, the penetration of water into the multi-tubular body is reduced and the waterproofing power of the multi-tubular body is increased. As an example, the adhesive 271 may be a PVC adhesive.

In another embodiment, since the limit of the rotational speed of the roller 283 on which the adhesive application is applied is low, the tape 26 having the adhesive 271 preliminarily applied thereto is used to increase the productivity. ) It is possible to increase the productivity by increasing the rotating speed and speeding the transfer of multiple tubes. At this time, the roller 283 serves as an auxiliary for winding the multi-tubular body by loosening the tape 26 to which the adhesive 271 has previously been applied. The taping portion 283 controls the rotation of the roller 283 to wind the tape 26 around the multiple tubes.

8 is an exemplary view showing a configuration of a cutout portion.

The cutting portion 19 cuts the heat insulating material 17 between the separated high pressure pipe 13 and the low pressure pipe 14 with a cutting knife. The cutting knife 192 is mounted on the roller 191. The roller 191 rotates the cutting knife 192 to cut the heat insulating material between the high-pressure pipe 13 and the low-pressure pipe 14. The high-pressure pipe 13 and the low-pressure pipe 14 surrounded by the heat insulating material 17 may be separately used after the heat insulating material 17 between the high-pressure pipe 13 and the low-pressure pipe 14 is cut. When the multichannel high-pressure pipe 13 and the low-pressure pipe 14 are connected to the air conditioner in the air-conditioner piping work, if the high-pressure pipe 13 and the low-pressure pipe 14 are bundled together with the heat insulating material, The high-pressure pipe (13) and the low-pressure pipe (14) help the air conditioner piping work.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

10: conveying unit 11: pressure-
12: separator 13: high-pressure pipe
14: Low pressure pipe 15: Pulley
16: projection 17: insulation
18: heat blower 19:
20: taping portion 21: forming portion
23: electric wire 24: drain pipe, multi-purpose pipe
25: multiple tubes 26: tape
27: tank 28:
40:

Claims (11)

High pressure pipes and low pressure pipes surrounded by insulation;
A multi-tubular part having a multi-purpose pipe coupled to the high-pressure pipe and the low-pressure pipe; And
The multi-tube portion is taped with an adhesive-coated tape, the tape is turned and wound on the multi-tubular portion,
Wherein the heat insulating material surrounds the high-pressure pipe and the low-pressure pipe in the form of a band, and the heat insulating material between the high-pressure pipe and the low-pressure pipe is pressed by the rollers, respectively. The method according to claim 1,
Wherein the tape thickness is from 0.1 millimeter to 0.5 millimeter. The method according to claim 1,
Wherein the multi-purpose pipe includes a communication line and an electric wire therein. The method according to claim 1,
Wherein the multi-tube portion further comprises a drain pipe. delete The method according to claim 1,
And the separated heat insulating material between the high-pressure pipe and the low-pressure pipe is cut by the cutting roller. The method according to claim 1,
Wherein the multi-tubular body is labeled at intervals of one meter. Pressure pipe and the low-pressure pipe, and separates and transfers the high-pressure pipe and the low-pressure pipe by pressing the heat insulating material between the high-pressure pipe and the low-pressure pipe; And
And a taping portion for forming a multi-tube by combining a communication line, an electric wire and a drain pipe or only a multi-purpose pipe to the high-pressure pipe and the low-pressure pipe separated and conveyed separately and surrounded by the heat insulating material and taping the adhesive with a tape coated with an adhesive and,
The conveying unit conveys the high-pressure pipe and the low-pressure pipe to the opposite pulleys, respectively. The high-pressure pipe and the low-pressure pipe to be conveyed are wrapped with the heat-insulating material in the form of a belt, and then the hot air is blown in the hot air Pressure pipe and the low-pressure pipe and presses the heat-insulating material between the high-pressure pipe and the low-pressure pipe, and the heat-insulating material heated by the hot air joined with the seam is joined to the heat- Pressure pipe and the low-pressure pipe,
Wherein the taping portion comprises: a tank for storing an adhesive; And
And an application unit for applying the adhesive transferred to the tape after transferring the adhesive from the tank,
Wherein the application unit comprises: a transfer unit for transferring the adhesive from the tank;
An ejection port for ejecting the transferred adhesive; And
And a roller for applying the jetted adhesive to a part or whole of the tape. delete 9. The method of claim 8,
Pressure pipe and the low-pressure pipe to transfer the pressurized pipe; Pressure pipe and the low-pressure pipe are surrounded by the heat-insulating material in the form of a band, hot air is blown from the hot air located at the upper part of the joint, and then the rollers installed in a distance where the temperature of the hot air is maintained at a constant temperature, A separating unit for separating the high-pressure pipe and the low-pressure pipe by joining the heat insulating material heated by the hot air that presses the heat insulating material between the pipes and joins the seams; And
And a cutting section for cutting the heat insulating material between the separated high-pressure pipe and the low-pressure pipe with a cutting knife,
Wherein the conveying unit includes a high-pressure pipe surrounded and separated by the heat insulating material and an adhesive applied to convey the low-pressure pipe to the taping unit. 9. The method of claim 8,
Wherein the taping portion includes a forming portion for forming a multi-tubular body by joining a communication line, an electric wire, and a drain pipe to a high-pressure pipe separated and transferred by the heat insulating material, and a multi-
Wherein the taping portion is formed by applying adhesive to tap the multi-tubular body formed with the tape.

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