KR102233759B1 - Straight and Round Guidance Equipment of Refrigerant Tube - Google Patents

Abstract

The present invention relates to a device for guiding decurving and centering of a coolant pipe, which supplies coolant pipes having different outer diameters with one device and induces decurving and centering. According to the present invention, the device for guiding decurving and centering of a coolant pipe comprises: a front body formed by installing a pair of horizontal rolls that pressurize and advance upper/lower portions of the coolant pipe; a rear body pressurizes both sides of the coolant pipe and advances; a power generating means for transmitting rotational power to the pair of horizontal rolls and vertical rolls; and a moving means connected to one side of the front/rear body to move the front/rear body.

Description

Straight and Round Guidance Equipment of Refrigerant Tube}

The present invention is installed at the inlet of a resin coating device for resin coating on the surface of a refrigerant tube to induce straightening and roundness of the refrigerant tube, while supplying refrigerant tubes with different outer diameters through a single device to induce straightening and rounding. It relates to a device for inducing a straight line and rounding of a refrigerant tube to be made possible.

In general, a refrigerant tube coated with a resin on the surface is made of an aluminum tube, and the aluminum tube is supplied in a state wound on a drum, and the aluminum tube supplied in a state wound on the drum is compressed to form an elliptical shape. The elliptical refrigerant tube maintains the straightness and the roundness, and the resin coating should be made while the roundness is maintained.

As described above, the device for straightening the elliptical refrigerant tube and maintaining the roundness is disclosed in Korean Patent Application Publication No. 10-2016-0011052 (priority document 1) as shown in FIG. 1 invented by the present inventor and registered by applying for a patent. And, a brief description of the configuration is as follows.

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It is divided into a front body 210 installed in a vertical direction along the traveling direction of the aluminum tube Al and a rear body 250 installed in a horizontal direction, and accommodates an aluminum tube Al in the front body 210. A pair of vertical guide pulleys 220 that induce straightening and rounding by applying pressure in the upper/lower direction of the aluminum tube are installed to be maintained at a constant interval, and the rear body 250 accommodates the aluminum tube and A pair of horizontal guide pulleys 260 for inducing straightening and rounding by applying pressure from both side directions are installed to be maintained at a constant interval.

In addition, a vertical guide pulley located on any one side of a pair of vertical guide pulleys 220 installed on the front body 210 and a horizontal guide pull located on any one side of the horizontal guide pull 260 installed on the rear body 250 In the gap control means 230 and 270 for adjusting the gap between the pulleys 220 and 260 are installed.

Prior Literature 1 having the configuration as described above can supply only cold tube pipes having an outer diameter of a predetermined size to one device, and therefore, it is necessary to equip another facility to adjust the epicenter of cold tube tubes with different outer diameters. There was a problem that the factory area had to be large.

(Prior Document 1): Korean Patent Laid-Open Patent No. 10-2016-0011052 (2016.01.29.) (Prior Document 2): Korean Patent Publication No. 10-2012-0114546 (2012.10.17.)

The present invention was invented to solve the above conventional problems, the object of which is,

By supplying refrigerant pipes with different outer diameters with one device and inducing straightening and rounding, work efficiency can be improved, and equipment can be simplified, as well as a straight line of refrigerant pipes that can increase economic efficiency. It is to provide a device for induction of eruption.

The configuration of the problem solving means of the present invention for achieving the above object,
Each refrigerant pipe supply port 301 and refrigerant pipe outlet 302 are formed at the front and rear, and a guide 320 that moves along the rail DR installed on the work table D is installed in the lower part, and the inside A pair of horizontal rolls 310 and 310a in which a plurality of semicircular refrigerant tube advancing grooves 311 and 311a of different sizes are formed so as to straighten and round the refrigerant tube entered through the refrigerant tube supply port 301 are installed, An adjustment needle 350 for adjusting the center of the refrigerant pipe running groove is installed on one side of the outer side, and a front body 300 formed by installing an adjustment tool 360 for adjusting the center of the coolant tube running groove on the work table D. )Wow,
Each refrigerant pipe supply port 401 and refrigerant pipe outlet 402 are formed at the front and rear, and a guide 420 moving along the rail FR installed on the support port 660 is installed at the rear, and the inside A pair of vertical rolls 410 and 410a in which a plurality of semicircular refrigerant tube advancing grooves 411 and 411a of different sizes are formed to straighten and round the refrigerant tube entered through the refrigerant tube supply port 401 are installed, and , A rear body 400 formed by installing an adjustment needle 450 for adjusting the center of the refrigerant pipe running groove on the outer side, and installing an adjustment tool 460 for adjusting the center of the refrigerant pipe running groove at the support hole Wow,
Power generating means 500 for rotating the pair of horizontal rolls and vertical rolls by transmitting rotational power to the pair of horizontal rolls and vertical rolls,
Consisting of a configuration comprising a moving means (600, 600a) connected and installed on one side of the front/rear body to move while pushing or pulling the front/rear body,
The rail DR and the rail FR are configured to be disposed in a direction orthogonal to each other along the axis of the pair of horizontal rolls 310 and 310a and the axis of the pair of vertical rolls 410 and 410a, respectively, and the front body 300 And the rear body 400 are moved along the respective roll axis directions, so that the refrigerant tube advancing grooves 311 and 311a formed in the pair of horizontal rolls 310 and 310a orthogonal to each other and the pair of vertical rolls 410 and 410a The formed refrigerant pipe advance grooves 411 and 411a are formed so that the positions of the refrigerant pipe advance grooves 411 and 411a can easily correspond to the size of the refrigerant pipe T.

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The linear and rounding induction device of the refrigerant pipe of the present invention having the above configuration provides a single device with refrigerant pipes having different outer diameters and induces straightening and rounding, as described in the above object. There is an effect of improving efficiency and simplifying facilities, as well as improving economic efficiency.

1 is a perspective view of a conventional refrigerant tube straight line and circularization induction device;
Figure 2 is a perspective view of the refrigerant tube straight line and circularization induction device of the present invention,
3 is a perspective view of an excerpt of the front body according to the present invention,
Figure 4 is a perspective view of an excerpt of the rear body according to the present invention,
Figure 5 is an excerpted perspective view for explaining the internal structure of the front body according to the present invention,
Figure 6 is an excerpted perspective view for explaining the internal structure of the rear body according to the present invention,
7 is a front view of an excerpt for explaining the internal structure of the front body according to the present invention,
8 is a front view of an excerpt for explaining the internal structure of the rear body according to the present invention,
Figure 9 is a block diagram of an extract of the power generating means of the present invention.

The present invention is installed at the inlet of a resin coating device for resin coating on the surface of a refrigerant tube to induce straightening and roundness of the refrigerant tube, while supplying refrigerant tubes with different outer diameters through a single device to induce straightening and rounding. It relates to a device for inducing a straight line and rounding of a refrigerant pipe to be made, and an embodiment thereof will be described with reference to the accompanying drawings as follows.

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As shown in Figs. 2 to 9, the refrigerant pipe supply port 301 and the refrigerant pipe outlet 302 are formed at the front and rear, and the worktable D ) A guide 320 that moves along the rail DR installed on the top is installed, and the refrigerant pipes of different sizes of different sizes are progressed to straighten and round the refrigerant pipe that has entered through the refrigerant pipe supply port 301 inside. A pair of horizontal rolls 310 and 310a in which a plurality of grooves 311 and 311a are formed are installed, an adjustment needle 350 for adjusting the center of the refrigerant tube advancing groove is installed on an outer side, and on the work table D, the The front body 300 made by installing an adjustment device 360 for adjusting the center of the refrigerant pipe running groove,
Each refrigerant pipe supply port 401 and refrigerant pipe outlet 402 are formed at the front and rear, and a guide 420 moving along the rail FR installed on the support port 660 is installed at the rear, and the inside A pair of vertical rolls 410 and 410a in which a plurality of semicircular refrigerant tube advancing grooves 411 and 411a of different sizes are formed to straighten and round the refrigerant tube entered through the refrigerant tube supply port 401 are installed, and , A rear body 400 formed by installing an adjustment needle 450 for adjusting the center of the refrigerant pipe running groove on the outer side, and installing an adjustment tool 460 for adjusting the center of the refrigerant pipe running groove at the support hole Wow,
Power generating means 500 for rotating the pair of horizontal rolls and vertical rolls by transmitting rotational power to the pair of horizontal rolls and vertical rolls,
Consisting of a configuration comprising a moving means (600, 600a) connected and installed on one side of the front/rear body to move while pushing or pulling the front/rear body,
The rail DR and the rail FR are configured to be disposed in a direction orthogonal to each other along the axis of the pair of horizontal rolls 310 and 310a and the axis of the pair of vertical rolls 410 and 410a, respectively, and the front body 300 And the rear body 400 are moved along the respective roll axis directions, so that the refrigerant tube advancing grooves 311 and 311a formed in the pair of horizontal rolls 310 and 310a orthogonal to each other and the pair of vertical rolls 410 and 410a The formed refrigerant pipe advance grooves 411 and 411a are formed so that the positions of the refrigerant pipe advance grooves 411 and 411a can easily correspond to the size of the refrigerant pipe T.

The refrigerant pipe linear and circularization induction device of the present invention having the above configuration includes a plurality of semicircular refrigerant pipe running grooves 311 and 311a having different sizes formed on a pair of horizontal and vertical rolls 310, 310a, 410, 410a, 411,411a) passes through a plurality of types of refrigerant pipes (T) having different outer diameters of the refrigerant pipe (T) through the corresponding refrigerant pipe advancing grooves 311,311a,411,411a, and crossing the upper/lower and both sides of the refrigerant pipe. It is to induce a straight line and circularization of the refrigerant pipe by pressurization.

The plurality of semicircular refrigerant pipe running grooves 311, 311a, 411, 411a form a plurality of circles close to the true circle when the pair of horizontal and vertical rolls 310, 310a, 410, 410a are in contact with each other. The refrigerant pipe passing through the circle is made straight and round.

And the reason for forming a plurality of semicircular refrigerant pipe advance grooves 311, 311a, 411, 411a in the pair of horizontal and vertical rolls 310, 310a, 410, 410a is, It is to be able to form a straight line and a round shape.

In the refrigerant pipe straight line and circularization induction device of the present invention as described above, the front body 300 is installed on the outlet side of the refrigerant pipe guide unit 100 shown in FIG. 13 to pressurize the upper/lower part of the refrigerant pipe T. The refrigerant pipe (T) is to induce straightening and rounding, and the configuration is, as shown in Figs. 3 and 5 and 7, a refrigerant pipe supply port 301 is formed in the front, and a refrigerant pipe outlet ( 302) is formed, and a pair of horizontal rolls formed by forming a plurality of semicircular refrigerant pipe advancing grooves 311 and 311a of different sizes so as to straighten and round the refrigerant pipe entered through the refrigerant pipe supply port ( 310, 310a) are installed, and a guide 320 that moves along the rail DR installed on the work table D is installed in the lower part.

In the above configuration, a plurality of semicircular refrigerant pipe running grooves 311 of different sizes are formed in the horizontal roll 310 located at the top, and semicircular refrigerants of different sizes are also formed in the horizontal roll 310a located at the bottom. The upper/lower horizontal rolls 310 and 310a are installed so that a plurality of tube running grooves 311a are formed so that the semicircular coolant tube running grooves 311 and 311a of the same size coincide with each other.

The upper/lower horizontal rolls 310 and 310a as described above are rotatably installed on each of the upper/lower fixing members 330 and 330a, and the upper/lower fixing members 330 and 33a are respectively upper/lower The upper and lower horizontal rolls 310 and 310a were installed in connection with the cylinders 340 and 340a and moved up and down so that the upper and lower horizontal rolls 310 and 310a were moved up and down.

The reason is that when moving the refrigerant pipes T of different sizes to the selected refrigerant pipe advancing grooves 311 and 311a among the refrigerant tube advancing grooves 311 and 311a of different sizes, the front body using the moving means 600 By moving the 300 to one side, the upper/lower horizontal rolls 310 and 310a are moved to match the refrigerant pipe running grooves 311 and 311a of the same size.

As described above, when the refrigerant pipe advance grooves 311 and 311a of the same size are matched and the refrigerant pipe T is located in the refrigerant pipe advance grooves 311 and 311a, the upper/lower horizontal rolls 310 and 310a are operated. The refrigerant pipe advance grooves 311 and 311a are tightly wrapped around the pipe T in the upper/lower direction of the refrigerant pipe, so that the upper/lower portions of the refrigerant pipe T passing through the refrigerant pipe T are pressurized to straighten the refrigerant pipe T. And induce elongation.

At this time, both vertical rolls 410 and 410a installed on the rear main body 400 are also rotatably installed on both fixing members 430 and 430a as shown in Figs. (430, 430a) is installed connected to each of the two cylinders (440, 440a) and moved to both sides, so that the vertical rolls (410, 410a) on both sides are moved to both sides, so that different refrigerant pipes (T) of different sizes are matched accordingly. When moving to the selected refrigerant pipe running grooves 411 and 411a among the refrigerant tube running grooves 411 and 411a of a size of the same, the rear body 400 is moved to one side using a moving means 600a, so that the vertical rolls 410 and 410a on both sides are moved. ) To match the refrigerant pipe running grooves 411 and 411a of the same size.

As described above, when the refrigerant pipe advance grooves 411 and 411a of the same size are matched and the refrigerant pipe T is located in the refrigerant pipe advance grooves 411 and 411a, both vertical rolls 410 and 410a are operated to operate the refrigerant pipe ( T) is tightly enclosed by the refrigerant pipe advance grooves 411 and 411a to pressurize both sides of the refrigerant pipe T passing through the refrigerant pipe T, thereby inducing a straightening and rounding of the refrigerant pipe T.

In this way, both the upper/lower and both sides of the refrigerant pipe T are straightened and rounded.

The power generating means 500 for rotating the horizontal and vertical rolls 310, 310a, 410, 410a transmits power to the pair of horizontal rolls and vertical rolls through the power transmission means 510, 510a, and its implementation The configuration of the example will be described with reference to FIGS. 3 to 8.

The power transmission means 510 of the one side, as shown in Figs. 7 and 9, each rotating body 511 connected to the roll shaft formed on the pair of horizontal rolls 310 and 310a is installed, and the Each of the rotating bodies 511 is provided with gears 512 that are mutually toothed, and a power transmission shaft 513 is supported by the support 517 on one of the rotating bodies 511 and rotates. It is installed to be installed, and the power transmission shaft 513 is provided with a rotating sphere 514 that receives the power of the power generating means 500 through a power transmission member 515.

In addition, the other side of the power transmission means (510a), as shown in Figures 8 and 9, each rotating body (511a) is installed connected to the roll shaft formed on the pair of vertical rolls (410, 410a), Each of the rotating bodies (511a) is provided with a respective gear (512a) that are mutually toothed, a power transmission shaft (513a) is installed on one of the rotating bodies (511a), the power transmission shaft (513a) is installed in connection with the power generating means (500).

In the above configuration, the power generating means 500 is a motor 501 and a speed reducer 502, and a power transmission means 510 on one side and a power transmission means 510a on the other side are connected to the speed reducer. Power is transmitted to the horizontal and vertical rolls 310, 310a, 410, and 410a, thereby rotating the horizontal and vertical rolls 310, 310a, 410, and 410a.

On the other hand, the configuration of the one side of the power transmission means 510, each rotating body 511 is installed connected to the roll shaft formed on a pair of horizontal and vertical rolls (310, 310a) is installed, each of the rotating body ( Each of the gears 512 that are mutually toothed are installed at 511, a power transmission shaft 513 is installed on one of the rotation bodies 511, and the power transmission shaft 513 has the Since the power generating means 500 is made by installing a rotating sphere 514 that receives the power of the reducer through each power transmission member 515, the pair of horizontal (310, 310a) is rotated.

In addition, the other side of the power transmission means (510a) configuration, each rotating body (511a) is installed in connection with the roll shaft formed on a pair of vertical rolls (410, 410a) is installed, each of the rotating body (511a) is mutually Each toothed gear (512a) is installed, a power transmission shaft (513a) is installed on one side of the rotation body (511a), and the power transmission shaft (513a) is a power generating means (500). ) To receive the power of the reducer.

Therefore, the refrigerant pipe T is straightened and rounded because the upper/lower and both sides are pressed and proceeded by the respective refrigerant pipe advancing grooves 311, 311a, 411, 411a.

At this time, clutches 517 and 517a are installed on each of the rotating bodies 511 and 511a to cut off power while separating each of the rotating bodies 511 and 511a, or to transmit power by matching each of the rotating bodies 511 and 511a. As, when spaced between the horizontal and vertical rolls 310, 310a, 410, 410a, the rotating bodies 511 and 511a are separated through the clutches 517 and 517a to block power, and the horizontal and vertical rolls 310, 310a When contacting the, 410 and 410a), the rotating bodies 511 and 511a are matched to transmit power.

And each of the moving means (600, 600a) which are connected and installed to one side of the front/rear body (300,400) to move along the respective rails (DR, FR) while pushing or pulling the front/rear body (300,400) is also This will be described with reference to FIGS. 3 to 8.

The moving means 600 installed in the front body 300 in each of the moving means 600,600a, a support 517 having a screw hole 610 formed thereon, is installed on a working table, and a screw ( A rotation shaft 620 having a 630 formed thereon is installed to be screwed with the screw hole 610, and the front end of the rotation shaft 620 is rotatably connected to the front body 300, and the rotation shaft 620 At the rear end, a handle 640 that rotates the rotation shaft 620 in the forward and reverse direction is installed.

In addition, the moving means 600a installed in the rear main body 400 has a screw hole 610a formed on the upper portion of the support 660, and a rotation shaft 620a having a screw 630a formed in the screw hole 610a It is installed to be screwed with the screw hole 610a, the front end of the rotation shaft 620a is rotatably connected to the rear body 400, and the rotation shaft 620a is forward and reversed at the rear end of the rotation shaft 620a. It consists of installing a handle (640a) to rotate in the direction.

The method of moving the front/rear main body 300,400 using the respective moving means 600,600a having the above configuration is to rotate the handles 640,640a in one direction, and the respective As the rotation shafts 620 and 620a are rotated, the screws 630 and 630a and the screw holes 610 and 610a move forward/reversely and move the front/rear body 300,400 to move the horizontal and vertical rolls 310,310a, 410,410a. By moving, the refrigerant pipe advance grooves 311, 311a, 411, and 411a having a size similar to the size of the refrigerant pipe T are matched.

At this time, the method of matching the refrigerant pipe advancing grooves 311, 311a, 411, 411a, as shown in FIG. 3, includes an adjustment tool 360 installed on the worktable and an adjustment needle 350 installed on the front body 300. At the same time, using the adjustment tool 460 installed on the support tool 660 shown in FIG. 4 and the adjustment needle 450 installed on the rear body 400 can be easily matched.

Since a zero point for adjusting the center of each of the adjustment needles 350 and 450 is formed in each of the adjustment tools 360 and 460, the adjustment needles 350 and 450 can be positioned at the zero point.

In addition, the present invention is provided with a cylinder operation control means 370 for controlling the operation of the cylinders (340, 340a) on one side of the front body 300, the function of the cylinder operation control means 370 is the horizontal roll ( It serves to control the arbitrary operation of the cylinders 340 and 340a when 310 and 310a are in contact with each other.

In addition, a cylinder operation control means (not shown) installed on one side of the front body 300 is also installed on one side of the rear body 400 so that the cylinders 440 and 440a are in contact with each other when the vertical rolls 410 and 410a are in contact with each other. You can control what works randomly.

In the front of the front body 300 of the present invention, as shown in FIG. 2, a refrigerant tube guide unit 100 is installed to straighten the refrigerant pipe first, and at the rear of the rear body 400, the refrigerant pipe is finally rounded. It is possible to install and use the possible evolving device 700.

As described above, the refrigerant pipe straight line and circularization induction device of the present invention supplies refrigerant pipes having different outer diameters to one device and induces straightening and circularization, as described in the above effect, so that the efficiency of work There is an advantage in that it is possible to increase the efficiency and simplify the facility, as well as increase economic efficiency.

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300: front body 310,310a: horizontal roll
311,311a: refrigerant pipe running groove 320: guide
330,330a: fixing member 340,340a: cylinder
400: rear body 410,410a: vertical roll
411,411a: refrigerant pipe running groove 420: guide
430,430a: fixing member 440,440a: cylinder
500: power generation means 510,510a: power transmission means
600,600a: means of transportation

Claims (7)

Each refrigerant pipe supply port 301 and refrigerant pipe outlet 302 are formed at the front and rear, and a guide 320 that moves along the rail DR installed on the work table D is installed in the lower part, and the inside A pair of horizontal rolls 310 and 310a in which a plurality of semicircular refrigerant tube advancing grooves 311 and 311a of different sizes are formed so as to straighten and round the refrigerant tube entered through the refrigerant tube supply port 301 are installed, An adjustment needle 350 for adjusting the center of the refrigerant pipe running groove is installed on one side of the outer side, and a front body 300 formed by installing an adjustment tool 360 for adjusting the center of the coolant tube running groove on the work table D. )Wow,
Each refrigerant pipe supply port 401 and refrigerant pipe outlet 402 are formed at the front and rear, and a guide 420 moving along the rail FR installed on the support port 660 is installed at the rear, and the inside A pair of vertical rolls 410 and 410a in which a plurality of semicircular refrigerant tube advancing grooves 411 and 411a of different sizes are formed so as to straighten and round the refrigerant tube that has entered through the refrigerant tube supply port 401 is installed, and , A rear body 400 formed by installing an adjustment needle 450 for adjusting the center of the refrigerant pipe running groove on the outer side, and installing an adjustment tool 460 for adjusting the center of the refrigerant tube running groove at the support hole Wow,
Power generating means 500 for rotating the pair of horizontal rolls and vertical rolls by transmitting rotational power to the pair of horizontal rolls and vertical rolls,
Consisting of a configuration comprising a moving means (600, 600a) connected to one side of the front/rear body to move while pushing or pulling the front/rear body,
The rail DR and the rail FR are configured to be disposed in a direction orthogonal to each other along the axis of the pair of horizontal rolls 310 and 310a and the pair of vertical rolls 410 and 410a, respectively, and the front body 300 And the rear body 400 are moved along the respective roll axis directions, so that the refrigerant pipe running grooves 311 and 311a formed in the pair of horizontal rolls 310 and 310a orthogonal to each other and the pair of vertical rolls 410 and 410a A device for inducing linear and rounding of a refrigerant pipe, characterized in that the positions of the formed refrigerant pipe advance grooves 411 and 411a are formed to easily correspond to the size of the refrigerant pipe T. The method of claim 1,
In the pair of horizontal rolls, the roll shafts installed at both ends of the upper horizontal roll 310 are installed to be rotated on the upper fixing member 330, and the upper fixing member is connected to the upper cylinder 340 and installed to the upper fixing member. As the upper and lower horizontal rolls are moved up and down, the upper horizontal roll is moved up and down,
In the pair of horizontal rolls, the roll shafts installed at both ends of the lower horizontal roll 310a are installed to be rotated on the lower fixing member 330a, and the lower fixing member is installed in connection with the lower cylinder 340a, so that the lower fixing member The linear and rounding induction device of the refrigerant tube, characterized in that the lower horizontal roll is moved up and down by moving the vertically. The method of claim 1,
In the pair of vertical rolls, the roll shafts installed at both ends of one vertical roll 410 are installed to be rotated on one side fixing member 430, and the one side fixing member is installed in connection with one side cylinder 440 so that the one side fixing member As the vertical roll is moved up and down, the vertical roll on one side is moved up and down,
In the pair of vertical rolls, the roll shafts installed at both ends of the other vertical roll 410a are installed to be rotated on the other fixing member 430a, and the other fixing member is installed in connection with the other cylinder 440a, so that the other fixing member A device for inducing a straight line and a circular circle of a refrigerant pipe, characterized in that the vertical roll on the other side is moved up and down as the vertical roll is moved up and down. The method of claim 1,
The power transmission means 510 on the one side is provided with a respective rotating body 511 connected to a roll shaft formed on the pair of horizontal rolls, and each rotating body 511 is mutually toothed. A gear 512 is installed, and a power transmission shaft 513 is supported by a support 517 and is installed to be rotated at one side of the rotation body 511, and the power transmission shaft 513 has the A rotating sphere 514 to receive the power of the power generating means 500 through the power transmission member 515 is installed,
The power transmission means 510a on the other side is provided with a respective rotation body 511a connected to a roll shaft formed on the pair of vertical rolls, and each gear teeth meshed with each other in the rotation body 511a (512a) is installed, and a power transmission shaft (513a) is installed on one of the rotating bodies (511a), and the power transmission shaft (513a) is connected to the power generating means (500). Refrigerant tube straight line and circularization guide device. The method of claim 4,
The refrigerant pipe is configured such that clutches 517 and 517a are installed in each of the rotating bodies 511 and 511a so that the power of each of the rotating bodies 511 and 511a is transmitted to or blocked by horizontal and vertical rolls 310, 310a, 410, and 410a. Straight line and rounding guide device. The method of claim 1,
The moving means 600 of the front body is provided with a support 517 having a screw hole 610 formed on the work table, and a rotating shaft 620 having a screw 630 formed therein is screwed with the screw hole And the front end of the rotation shaft is rotatably connected to the front body, and a handle 640 for rotating the rotation shaft in the forward and reverse direction is installed at the rear end of the rotation shaft,
The moving means 600a of the rear body has a screw hole 610a formed on the upper part of the support 660, and a rotating shaft 620a having a screw 630a formed therein is screwed with the screw hole. It is installed, and the front end of the rotation shaft is rotatably connected to the rear body, and a handle (640a) for rotating the rotation shaft in a forward and reverse direction is installed at the rear end of the rotation shaft. Guidance device. delete

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