KR100920953B1 - expander of bronze pipe - Google Patents

Abstract

The present invention relates to a copper pipe expansion device, and more particularly, the conveying unit is driven by a magnet sensor formed in the fixed portion when expanding the copper pipe, the contact is installed in the base and the conveying unit when the expansion pipe is inserted into the copper pipe to a certain depth Insertion of the expansion pipe is blocked by the sensor, and relates to a copper pipe expansion device that can reduce the number of welds and increase the cooling efficiency by installing an evaporator on the upper side of the transfer portion.

The present invention is the center of the inner diameter adjustable groove is formed in the center is coupled to the expansion rod, the tool bar is formed to rotate when expanding; A transfer unit having an evaporator installed at an upper side for cooling efficiency and having a guide rail formed at a lower surface thereof so as to be able to drive the tool post to the lower side of the tool post; A contact rod fixed to one side of the transfer part by a coupling member and formed to adjust a front and rear driving interval of the transfer part; A fixing part formed with a frame fixed to the outer circumferential surface and spaced from the tool post to fix the copper pipe, the fixing part comprising a first fixing part fixed to the frame and two fixing parts driven by hydraulic pressure; A base having a conveyance part and a fixing part installed on an upper surface thereof, having a guide vane formed in a longitudinal direction corresponding to the guide rail formed at a lower part of the conveying part, and having a contact sensor contacting the contact rod to adjust a driving interval of the conveying part; The magnetic sensor is attached to the contact surface between the 1st and 2nd fixing parts, and the conveying part is driven by the magnet sensor when the 1st fixing part and the 2nd fixing part contact with each other, and the front contacting rod is contacted with the front contact sensor when the conveying part is driven. The conveying unit is driven in the reverse direction, the rear contacting rod is in contact with the rear contact sensor during the reverse driving, the driving of the conveying unit is stopped, and relates to a copper pipe expansion device in which the first and second fixing parts are separated.

Copper pipe, expansion device, contact sensor, transfer part, magnet sensor

Description

Copper pipe expansion equipment {expander of bronze pipe}

The present invention relates to a copper pipe expansion device, and more particularly, the conveying unit is driven by a magnetic sensor formed in the fixed portion when expanding the copper pipe, the contact sensor is installed in the base and the conveying unit when the expansion pipe is inserted into the copper pipe to a certain depth Insertion of the expansion pipe is blocked by, and relates to a copper pipe expansion device that can reduce the number of welds and increase the cooling efficiency by installing an evaporator on the upper side of the transfer portion

In general, the pipe expansion device is a device for manufacturing a workpiece to facilitate the coupling of the pipe by expanding the inner diameter of the end of the pipe.

However, since it is very difficult to artificially enlarge the inner diameter of the pipe, there is a problem that it takes a long time to expand the end of the pipe.

Therefore, since the expansion work takes a lot of time, there is a problem that the work efficiency is lowered and the production cost of the workpiece is increased accordingly.

In addition, there is a problem in that a large amount of pipe is lost due to the cracking and damage of the pipe that occurs in the expansion process during the expansion of the end of the pipe.

In addition, there is a problem that the expansion of the pipe required for use can not be properly made because the angle to be expanded with the inner diameter can not be exactly matched during the expansion of the pipe.

In addition, there is a problem in that a large number of pipes made of the same type of expansion pipe having a certain angle due to the manual expansion operation can not be processed in large quantities.

Therefore, since the expansion of the same shape is not made in large quantities, there is a problem in that the precise processing of the final product is not made and the defective rate of the final product is increased.

The present invention for solving the above problems relates to copper pipe expansion fittings, more specifically, the transfer unit is driven by a magnetic sensor formed in the fixed portion when expanding the copper pipe, the expansion rod is a certain depth in the copper pipe The insertion of the expansion pipe is blocked by the contact sensor installed in the base and the transfer part when the insertion, and the purpose is to provide a copper pipe expansion device that can reduce the number of welding and increase the cooling efficiency by installing an evaporator on the upper side of the transfer part.

As a solution for achieving the above object is a tool bar is formed in the center to adjust the inner diameter is formed so that the expansion pipe is coupled, it can rotate when expansion;

A transfer unit having an evaporator installed at an upper side for cooling efficiency and having a guide rail formed at a lower surface thereof so as to be able to drive the tool post to the lower side of the tool post;

A contact rod fixed to one side of the transfer part by a coupling member and formed to adjust a front and rear driving interval of the transfer part;

A fixing part formed with a frame fixed to the outer circumferential surface and spaced from the tool post to fix the copper pipe, the fixing part comprising a first fixing part fixed to the frame and two fixing parts driven by hydraulic pressure;

A base having the conveying part and the fixing part installed on an upper surface thereof, the guide vane being formed in a longitudinal direction corresponding to the guide rail formed at the lower side of the conveying part, and having a contact sensor contacting the contact rod to adjust a driving interval of the conveying part; Consisting of

The magnet sensor is attached to the contact surface of the 1st and 2nd fixing parts, and when the 1st fixing part and the 2nd fixing part contact, the transfer part is driven by the magnet sensor. When driven in reverse direction, the rear contacting rod is in contact with the rear contact sensor to stop the driving of the conveying unit, and the 1st fixing part and 2 fixing parts to provide a copper pipe expansion device, characterized in that separated.

The present invention relates to a copper pipe expansion device, and more particularly, the conveying unit is driven by a magnet sensor formed in the fixed portion when expanding the copper pipe, the contact is installed in the base and the conveying unit when the expansion pipe is inserted into the copper pipe to a certain depth Insertion of the expansion tube is blocked by the sensor, and the evaporator is installed on the upper side of the conveying unit, thereby reducing the number of welding and reducing the cooling efficiency and friction coefficient.

A tool bar formed at a center thereof with a groove having an inner diameter adjustable therein, the expansion bar being coupled thereto, and configured to rotate upon expansion; A transfer unit having an evaporator installed at an upper side for cooling efficiency and having a guide rail formed at a lower surface thereof so as to be able to drive the tool post to the lower side of the tool post; A contact rod fixed to one side of the transfer part by a coupling member and formed to adjust a front and rear driving interval of the transfer part; A fixing part formed with a frame fixed to the outer circumferential surface and spaced from the tool post to fix the copper pipe, the fixing part comprising a first fixing part fixed to the frame and two fixing parts driven by hydraulic pressure; A base having a conveyance part and a fixing part installed on an upper surface thereof, having a guide vane formed in a longitudinal direction corresponding to the guide rail formed at a lower part of the conveying part, and having a contact sensor contacting the contact rod to adjust a driving interval of the conveying part; The magnetic sensor is attached to the contact surface between the 1st and 2nd fixing parts, and the conveying part is driven by the magnet sensor when the 1st fixing part and the 2nd fixing part contact with each other, and the front contacting rod is contacted with the front contact sensor when the conveying part is driven. The conveying unit is driven in the reverse direction, the rear contact rod is in contact with the rear contact sensor during the reverse driving, the driving of the conveying unit is stopped, the first fixing part and the second fixing part is separated, the conveying part is a contact rod formed on one side and the contact sensor of the base The feed gap is adjusted by the contact, and the contact rod can adjust the length of the contact rod to adjust the pipe depth of the copper pipe. It is characterized in that the control part is formed.

The present invention having the above characteristics will be described more clearly through the preferred embodiment accordingly.

Hereinafter, a preferred embodiment of the present invention will be described in detail with the accompanying drawings.

1 is a front view of a copper pipe expansion device according to an embodiment of the present invention, Figure 2 is a plan view of a copper pipe expansion device according to an embodiment of the present invention, Figure 3 is a side view of the transfer unit according to an embodiment of the present invention; 4 is a side view of the copper pipe expanding apparatus according to the embodiment of the present invention, and is a partially enlarged view of FIG.

1 is a view showing a front view of the copper pipe expansion apparatus of the present invention, the evaporator 20 is formed to reduce the number and noise of welding during operation, and increase the cooling efficiency, the evaporator 20 of the The tool bar 11 is formed to be inserted into the expansion pipe rod 16 is required to expand the copper pipe on one side to the lower side, an insertion groove is formed in the center of the tool bar 11 is inserted into the expansion pipe 16, The insertion groove can adjust the inner diameter according to the size of the outer diameter of the expansion pipe 16, when the expansion of the copper pipe, the tool post 11 is rotated to more precisely expand the copper pipe.

In addition, a fixed portion 30 is formed to be spaced apart from the tool post 11, the copper pipe is fixed, the fixing portion 30 is the position where the copper pipe is fixed and the position where the expansion pipe 16 is installed Is formed so as to correspond, when the transfer unit 10 is driven expansion tube 16 is inserted into the inner diameter of the copper pipe is made to expand.

The base 40 is formed at the lower side so as to seat the fixing part 30 and the conveying part 10.

Here, contact sensors 42 and 43 are attached to the upper surface of the base 40 to adjust the driving distance of the transfer unit 10.

The driving distance of the transfer unit 10 is to set the depth of expansion of the copper pipe, and contact rods 14 and 15 are installed at one side of the transfer unit 10, and the contact rods 14 and 15 are in front contact. The rod 15 and the rear contact rod 14 are formed, and when the transfer unit 10 moves, the front contact rod 15 comes into contact with the front contact sensor 42 installed on the upper surface of the base 40. 10) stops driving.

In addition, the transfer unit 10 stopped by the front contact sensor 42 is driven to the original position while the rear contact rod 14 is in contact with the rear contact sensor 43.

In addition, the guide rail 41 is formed to protrude upward from the upper surface of the base 40, the guide vane 17 corresponding to the guide rail 41 is installed on the lower surface of the transfer unit 10 is coupled The movement of the transfer unit 10 is made by hydraulic pressure.

Referring to Figure 2, showing a plan view of the copper pipe expansion apparatus, the evaporator 20 is installed on the upper side, a tool post 11 is inserted into the expansion tube 16 is formed on one side, the tool stage 11 ) Rotates on expansion.

In addition, the fixing part 30 is spaced apart from the conveying part 10 is fixed to the copper pipe is installed, the fixing part 30 is the expansion pipe so that the copper pipe can be expanded by the expansion rod 16, the expansion pipe It is fixed at a position corresponding to (16), the fixing part 30 is divided into one fixing part 31 and two fixing parts 32, the first fixing part 31 is fixed by bolts, 2 The fixed part 32 is provided with a hydraulic cylinder 34 on one side to be driven and driven by hydraulic pressure, and the frame 35 is formed on the outer circumferential surfaces of the first fixing part 31 and the second fixing part 32. The driving interval of the second fixing part 32 and the first fixing part 31 can be fixed more firmly.

The magnetic sensor is formed on the contact surface between the first fixing part 31 and the second fixing part 32, and the magnetic sensor is operated when the first fixing part 31 and the second fixing part 32 are in contact with each other. ) Is driven to the copper pipe side, when the front contact rod 15 contacts the front contact sensor 42, the transfer unit 10 is driven to the rear, and the rear contact rod when the transfer unit 10 is driven backward The first fixing part 31 and the second fixing part 32 of the two fixing parts 32 which are in contact with each other while being in contact with the rear contact sensor 43 by 14 are driven and spaced apart from each other.

The contact rods 14 and 15 are provided at the front contact rods 15 and the rear contact rods 14 to adjust the depth of expansion of the copper pipe, and an adjustment unit 12 is formed to contact the contact sensors 42 and 43. Adjusting the position, the adjusting portion 12 is installed to adjust the length of the contact rods (14, 15) also on one side of the coupling member (18) coupled to the conveying portion (10).

Referring to Figure 3 as a side view showing the transfer portion 10 and the base 40 of the present invention, a cylindrical evaporator 20 is attached to the upper side, expansion tube 16 is coupled to the center of the lower side of the evaporator 20 is coupled A conveying part 10 having a tool post 11 formed therein is formed, and a guide vane 17 is formed on a lower surface of the conveying part 10.

In addition, the contact rods 14 and 15 are coupled to one side of the transfer unit 10 by the coupling member 18, and the contact rods 14 and 15 are for adjusting the driving section of the transfer unit 10. The adjusting unit 12 may be formed to adjust the transfer section of the transfer unit 10.

In addition, a base 40 to which the conveying unit 10 is coupled is formed below the conveying unit 10, and a guide rail 41 corresponding to the guide vane 17 is formed on the upper surface of the base 40. 10 may be driven, and contact sensors 42 and 43 contacting the contact rods 14 and 15 are formed at one side of the upper surface of the base 40 so that the contact rods 14 and 15 contact. By contacting the sensors (42, 43) it is possible to adjust the transfer interval of the transfer unit (10).

4 and 5, as a side view of the copper pipe expansion device and an enlarged view of the fixing part 30, the first fixing part 31 is fixed to the frame 35 by bolts, and the second fixing part 32 is one side. Hydraulic cylinder 34 is installed in the drive is possible, and the copper pipe coupling groove 33 corresponding to each surface of the first fixing portion 31 and the second fixing portion 32 is formed in contact with each other when contacted. When the circular pipe is formed and the copper pipe is seated in the copper pipe coupling groove 33, the second fixing part 32 is driven to contact the first fixing part 31.

In the driving method of the copper pipe expansion device, when the copper pipe is seated in the groove of the surface where the magnetic sensor of the first fixing part 31 is formed, the second fixing part 32 is driven to contact the first fixing part 31, The magnet sensors of the first fixing part 31 and the second fixing part 32 operate to move the conveying part 10 forward, and the inner diameter of the copper pipe is increased by the expansion pipe 16 coupled to the tool rest 11. When the transfer unit 10 moves a predetermined distance, the front contact rods 15 of the contact rods 14 and 15 installed on one side of the transfer unit 10 come into contact with the contact sensor formed on the upper surface of the base 40. 10) forward movement stops, and moves to the rear, the rear contacting rod 14 is in contact with the rear contact sensor 43 when moving backwards, so that the first fixing part 31 and the second fixing part 32 are separated. To separate the copper pipe.

In addition, the inner diameter of the copper pipe expanded by the above configuration can be processed in multiple stages depending on the depth to be expanded.

1 is a front view showing a copper pipe expansion apparatus according to an embodiment of the present invention.

Figure 2 is a plan view showing a copper pipe expansion apparatus according to an embodiment of the present invention.

Figure 3 is a side view showing a transfer unit according to an embodiment of the present invention.

Figure 4 is a side view showing a copper pipe expansion apparatus according to an embodiment of the present invention.

5 is an enlarged view of a portion of A;

[Description of Symbols for Main Parts of Drawing]

10: feed section 11: tool post

12: control unit 14: rear contact rod

15: front contact rod 16: expansion tube

17: guide vane 18: coupling member

20: evaporator 30: fixed part

31: First Government 32: Second Government

33: copper pipe coupling groove 34: hydraulic cylinder

35: frame 40: base

41: guide rail 42: front contact sensor

43: rear contact sensor

Claims (4)

An internal diameter adjustment groove is formed at the center thereof, and the expansion bar 16 is coupled to the tool post 11 formed to rotate for expansion; Transport unit 10 is provided with an evaporator 20 for cooling efficiency in the upper side, the guide rail 41 is formed on the lower surface to enable the front and rear drive of the tool post 11 to the lower side of the tool post 11 Wow; Contact rods 14 and 15 fixed to one side of the transfer part 10 to adjust front and rear driving intervals of the transfer part 10; A frame 35 is formed on the outer circumferential surface to be spaced apart from the tool post to fix the copper pipe, and the first fixing part 31 fixed to the frame 35 and the second fixing part 32 driven by hydraulic pressure. A fixing part (30) composed of; The conveying part 10 and the fixing part 30 are installed on the upper surface, the guide vane 17 is formed in the longitudinal direction corresponding to the guide rail 41 formed on the lower side of the conveying part 10, and the contact rod ( And a base 40 in contact with 14 and 15 and having contact sensors 42 and 43 formed therein to adjust the driving interval of the transfer unit 10. A magnetic sensor is attached to the contact surface of the first fixing part 31 and the second fixing part 32 which the outer circumferential surface of the copper pipe contacts, so that the outer circumferential surface of the copper pipe is connected to the contact surface of the first fixing part 31 and the second fixing part 32. When the transfer unit 10 is driven by a magnetic sensor, when the front contact rod 15 contacts the front contact sensor 42 when the transfer unit 10 is driven, the transfer unit 10 is driven in the reverse direction, and the transfer unit 10 In the reverse direction of driving), the rear contacting rod 14 contacts the rear contact sensor 43 and the driving of the transfer unit 10 is stopped, so that the first fixing part 31 and the second fixing part 32 are separated. The transfer part 10 adjusts the transfer interval by contacting the contact rods 14 and 15 formed on one side and the contact sensors 42 and 43 of the base 40, The contact rods 14 and 15 are formed with an adjustment unit 12 that can adjust the length of the contact rods 14 and 15 in order to adjust the expansion depth of the copper pipe, Copper pipe expansion device characterized in that the inner diameter of the copper pipe is processed differently depending on the depth by using the contact rod (14, 15) and the contact sensor (42, 43). delete delete delete

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