KR20130079899A - Apparatus for endforming and cutting a refrigerant tube - Google Patents

Abstract

PURPOSE: A device to cut refrigerant pipes is provided to improve productivity by removing an additional process to remove burrs and shortening the time to process a cutting process and to obtain clean cutting surfaces. CONSTITUTION: A device to cut refrigerant pipes (W) comprises a refrigerant pipe cutting unit. The refrigerant pipe cutting unit includes a pair of upper and lower cutter units (120), a pair of side forming tool units (140), a cutter mount (100), and a cutter operating unit. The upper and lower cutter units form a 'V'-shaped cutting line with a specific depth on the surface of the refrigerant pipe and timely strike upper and lower surface of the refrigerant pipe to level an edge of the 'V'-shaped cutting line. The side forming tool units timely strike left and right lateral surfaces of the refrigerant pipe and form a 'V'-shaped notch with a specific depth. The cutter mount installs the side forming tool unit to be slid facing the left and right lateral surfaces. The cutter operating unit rotates along the circumference of the cutter mount and alternately transfers the side forming tool unit and the upper and lower cutter units at every rotation.

Description

Refrigerant pipe cutting device {APPARATUS FOR ENDFORMING AND CUTTING A REFRIGERANT TUBE}

The present invention relates to a coolant pipe cutting device, and more particularly, to a coolant pipe cutting device that cuts to a certain length during transfer of a plate-shaped coolant pipe having a plurality of coolant passages therein and chamfers the tip of the cut portion.

As shown in FIG. 1, a condenser such as an automobile or an air conditioner has a certain length and a wider band-shaped refrigerant tube is used, which is relatively wider than the thickness thereof. Such a coolant tube is usually manufactured by cutting a long length of strip-shaped coolant tube roll to a certain length. The cutting device used for cutting the coolant pipe is disclosed and disclosed in Patent Documents 1 and 2 below.

KR 10-2011-0073028 A KR 10-0781237 B1 The conventional refrigerant pipe cutting device disclosed in Patent Document 1 has a V-shaped cross section so that burrs are not generated in the process of forming a notch at the tip of the refrigerant pipe. And 155, respectively, are disposed on the upper and lower sides of the refrigerant pipe, and the rolling blades are transferred in the width direction of the refrigerant pipe to form notches similar to the cross-sectional shapes of the rolling blades on the upper and lower surfaces of the refrigerant pipe. Then hold both ends of the notched refrigerant pipe and pull either side to break along the notched portion. The conventional refrigerant pipe cutting device passes through the upper and lower surfaces of the refrigerant pipe while rotating the rolling blade to form a notch having a constant depth on the upper and lower surfaces of the refrigerant pipe, so that burrs are inevitably generated at the end of the rolling blade moving direction. However, there is a disadvantage that an additional process for removing the burr follows. In addition, since the notch is formed and the refrigerant tube tensioning step for subsequently breaking the refrigerant tube along the notch portion has to be performed, the two-step process is performed. There was a disadvantage in that the time required for the cutting process is long by this process. In addition, the refrigerant pipe cutting device of the patent document 2 passes the 'V' shaped cutter through the upper and lower surfaces of the refrigerant pipe in the width direction to form a 'V' shaped notch on the upper and lower surfaces of the refrigerant pipe, and then occurs during the notch forming process. The projection bur at the edge of the notch portion is pressed with a flat correction means to straighten the periphery of the notch portion and then hold and hold the refrigerant pipes on both sides of the notch portion to cut it. In the conventional cutting device disclosed in Patent Document 2, it is necessary to perform three steps of work steps sequentially in the cutting step, so that the processing time of the cutting step is long, and thus the productivity is low, and a calibration operation for removing burrs is inevitable. As a necessary disadvantages.

The present invention is designed to solve the above problems with the conventional refrigerant pipe cutting device, performing a notch forming process and a cutting process by tension as a single process and prevents burrs from occurring in the notch forming process. It is an object of the present invention to provide a coolant tube cutting device capable of shortening the process time of a cutting operation by eliminating an additional process for removing and increasing productivity while obtaining a clean cut surface.

The cutting device of the present invention for achieving the above object, the refrigerant forming the cutting line of the V-shaped groove for the end forming on the upper and lower sides of the refrigerant pipe at a predetermined cutting position of the refrigerant pipe and the side forming on the side of the refrigerant pipe In the refrigerant pipe cutting device including a pipe cutting unit,

The refrigerant pipe cutting unit,

The upper and lower surfaces of the refrigerant pipe are disposed opposite to each other in the longitudinal direction to form a 'V'-shaped cutting line of a constant depth on the surface of the refrigerant pipe, and at the same time, the upper and lower surfaces of the refrigerant pipe are flattened to flatten the edge of the' V'-shaped cutting line. A pair of upper and lower cutter units hitting timely;

A pair of side forming tool units disposed opposite to each other on the left and right sides of the refrigerant pipe in a timely manner to strike the left and right sides of the refrigerant pipe in a timely manner to form a 'V' shaped notch having a constant depth;

In the center direction, a passage for passing the refrigerant pipe in a horizontal direction is formed, and the upper and lower cutter units are installed to be slidably moved toward the upper and lower surfaces of the refrigerant pipe, and the side forming tool unit is disposed on the left and right sides of the refrigerant pipe. A cutter mount slidably installed toward a side;

And a cutter operating unit for periodically moving the side forming tool unit and the cutter unit alternately every revolution while turning along the circumference of the cutter mount.

The upper and lower cutter units may include: a cutter support block slidably installed along a slide groove formed in a radial direction perpendicular to the cutter mount and receiving a biasing force away from the upper and lower surfaces of the refrigerant pipe by a return spring installed at one end thereof; And a striking portion fixedly installed at one end of the cutter support block and having a striking surface striking the upper and lower surfaces of the refrigerant pipe in a right angle direction, and protruding by a predetermined length from the striking surface of the striking portion. And a cutting part formed of a cutter forming a cutting line of a V-shaped groove on the upper and lower surfaces of the refrigerant pipe when the impact surface strikes the upper and lower surfaces of the refrigerant pipe.

The side forming tool unit is slidably installed in a slide groove formed in the horizontal radial direction of the cutter mount to slide toward the left and right side surfaces of the refrigerant pipe, and returns to receive a biasing force away from the left and right side surfaces of the refrigerant pipe. A side forming tool support block elastically supported by a spring; and a side forming tool fixed to one end of the side forming tool support block and striking the left and right sides of the refrigerant pipe by the movement of the side forming tool support block. Equipped.

The cutter operating unit includes a drum cam rotatably installed about a central axis, and the drum cam includes a cam track provided along an inner circumferential surface with a predetermined radius of rotation and a radial direction on the cam track. It is provided opposite and has a pair of protrusions. Then, at the front end opposite to the cutting portion of the cutter support block and the side opposite to the side forming tool of the side forming tool support block, cam rollers which are in rolling contact with the cam tracks of the drum cam are rotatably installed, respectively. The upper and lower cutters and the side forming tools are operated toward the refrigerant pipe each time the cam passes through the protrusions of the cam tracks.

The upper and lower cutters are installed to vary the protruding length with respect to the hitting surface of the hitting part.

The side forming tool has a shape inclined downward toward both sides in the central portion.

According to the above-described cutting device of the present invention, each time the drum cam is rotated one by one, the upper and lower sides of the refrigerant pipe are formed with a cutting line and at the same time corrected so as not to swell around the cutting line. Side-forming to form a V-shaped notch is performed at the same time, so the work speed is fast and the overall process time for cutting, end-forming and side-forming can be greatly reduced.

In addition, according to the cutting device of the present invention, since the end forming / side forming and the cutting line forming device are installed in one cutting device, the size of the entire device can be reduced.

1 is a schematic front view of a refrigerant pipe cutting device according to the present invention;
2 is a perspective view of the up and down cutter unit,
3 is a perspective view of a side forming tool unit,
4 is a longitudinal cross-sectional view taken along the line 'A-A' of FIG. 1;
5 is a cross-sectional view taken along the line 'B-B' of FIG. 1;
6 is a cross-sectional view of a state in which the left and right side surfaces of the refrigerant pipe are side-formed;
7 is a cross-sectional view for explaining the operation of forming a cutting line on the upper and lower sides of the refrigerant pipe,
8 is a perspective view of a refrigerant pipe formed with a side forming;
9 is a perspective view of a refrigerant pipe having cut lines formed on upper and lower sides thereof.

Hereinafter, a preferred embodiment of the refrigerant pipe cutting apparatus according to the present invention will be described in detail according to the accompanying drawings.

The horizontal conveying unit grips the upper and lower surfaces of the refrigerant pipe to intermittently move the horizontally by a predetermined distance, and the refrigerant pipe cutting device of the present invention has an end forming V on the upper and lower sides of the refrigerant pipe W as shown in FIGS. A cut line L of the female groove is formed, and the refrigerant pipe is cut to a constant length by side forming the V-shaped groove on the left and right sides. Cutting used in such a refrigerant pipe cutting process

The cutting unit 100 has a cutter mount 110 installed on the bed 1, as shown in FIG. The cutter mount 110 includes a through hole 111 to horizontally transfer the refrigerant pipe W in the direction of the central axis. A pair of upper and lower cutter units 120 for forming an end-forming V-shaped notch and cutting lines on the upper and lower sides of the refrigerant pipe passing through the through holes are respectively formed in the through holes 111 of the cutter mount 100. Are disposed to face each other along the vertical radial direction of the slide to be slidably movable in the vertical direction. In addition, a pair of side forming tool units 140 for forming a V-shaped notch for side forming on each of the left and right sides of the refrigerant pipe along the horizontal radial direction of the through hole 111 of the cutter mount 100. They are disposed to face each other and are installed to be slidable in a horizontal direction.

The upper and lower cutter unit 120 includes a cutter support block 121 slidably installed in a radial direction perpendicular to the cutter mount 100 as shown in FIG. 2. The cutter support block 121 is deflected radially outward from the through hole 111 of the cutter mount 100 by the elastic force of the return spring 122 compressed at one end. And the upper end of the cutter support block 121, the cam roller 123 is supported by the pin 124 so as to be able to rotate, the lower end of the cutting portion 130 is installed detachably.

The cutting unit 130 of the upper and lower cutter units 120 strikes the upper and lower surfaces of the refrigerant pipe in a perpendicular direction to strike the upper and lower surfaces around the cutting line of the refrigerant pipe to flatten the upper and lower surfaces. ) Is inserted into the slit 133 of the striking portion 131 so as to protrude by a predetermined length from the striking surface of the striking portion 131, so that the striking surface 132 of the striking portion 131 is located above and below the refrigerant pipe. When hitting the surface is made of a cutter 134 to form a cutting line (L) of the V-shaped groove on the upper and lower surfaces of the refrigerant pipe.

The cutter 134 has a 'V' shaped cross section so as to form a 'V' shaped cross section of the cutting line L formed on the upper and lower sides of the refrigerant pipe, and the lower end of the hitting surface 132 of the striking portion 131. It is inserted into the slit 133 of the striking portion 131 so as to protrude more than a certain length. The cutter 134 may be pushed or pulled with an adjustment screw (not shown) to adjust the protruding length of the cutter.

As shown in FIG. 1, the side forming tool unit 140 includes a side forming tool support block 141 that is slidably installed horizontally in the cutter mount 100. As shown in FIG. 3, the side forming tool support block 141 is deflected horizontally outward from the through hole 111 of the cutter mount 100 by the elastic force of the return spring 142 compressed at one end thereof. have. The cam roller 143 is rotatably supported by the pin 144 on the upper end of the side forming tool support block 141, and the side forming tool 145 is detachably installed on the lower end of the side roller.

 On the other hand, as shown in Figure 1, the refrigerant pipe cutting apparatus of the present invention, by sliding the side forming tool unit 140 and the upper and lower cutter unit 120 alternately, the side forming tool unit and the upper and lower cutter unit ( And a cutter operating unit for alternately operating 120). The cutter operation unit may be made of a pneumatic cylinder for sliding the upper and lower cutter unit 120 and the side forming tool unit 140.

The cutter operation unit preferably rotates along the outer circumference of the cutter mount 100, and the drum cam 150 which alternately slides the side forming tool unit 140 and the upper and lower cutter units 120 every revolution. ) The drum cam 150 is connected to the drive motor (M) by a belt (B) as shown in Figures 1 and 2 to rotate by the operation of the drive motor (M).

The drum cam 150 is provided with a cam track 151 formed at a constant rotation radius along the outer circumference of the cutter mount 100 and facing each other along the radial direction on the cam track 151. The cam track 151 includes a pair of protrusions 152 protruding at a constant height in the radial direction.

The drum cam 150 configured as described above has the cutter mount 100 concentrically installed therein, and the cam rollers of the upper and lower cutter units 120 and the side forming tool units 140 installed on the cutter mount 100. 123 and 143 are disposed in rolling contact with the cam track 151 of the drum cam 150.

Hereinafter, the operation of the refrigerant pipe cutting device of the present invention configured as described above will be described with reference to FIGS. 6 and 7.

The strip-shaped refrigerant pipe W wound on the take-up roll is horizontally transferred to a feeding device (not shown) and supplied to the cutting unit of the refrigerant pipe cutting device according to the present invention.

In this state, the driving motor M is operated to rotate the drum cam 150 in one direction. When the protrusion 152 on the cam track 151 of the drum cam 150 pushes the cam roller 143 of the side forming tool unit 140 toward the center direction, the side forming tool unit 140 is generally moved toward the center direction. The side forming blade 146 provided at the tip of the side forming tool unit 140 moves and strikes the left and right side surfaces of the refrigerant pipe W, and as shown in FIG. A side forming process is performed to form the notches.

At this time, the upper and lower cutter units 120 are opened to the position where the cam roller 123 is in contact with the cam track 151 of the drum cam 150 by the return spring (not shown). Interference of the tools 145 does not occur.

As described above, after the side forming process, the drum cam 150 is continuously rotated, and as shown in FIG. 7, the protrusion 152 of the cam track 151 of the drum cam 150 has the upper and lower cutter units 120. When the cam roller 123 is pushed in the center direction, the upper and lower cutter units 120 move in the center direction as a whole, so that the cutter 134 of the cutting part 130 provided at the front end of the upper and lower cutter units 120 first. By hitting the upper and lower sides of the refrigerant pipe (W) to form a V-shaped cut line (L) on the upper and lower sides of the refrigerant pipe (W) as shown in Figure 9 and then hitting surface 132 of the blower (131) The coolant pipe W is blown around the cutting line L on the upper and lower sides thereof to be flat (see also enlarged detail in FIG. 7).

As described above, each time the drum cam 150 is rotated once, a cutting line is formed on the upper and lower sides of the refrigerant pipe, and a blow is made so as not to swell around the cutting line. Since the side forming to form together is performed, it will be able to significantly reduce the overall process time of cutting and end forming and side forming.

In addition, according to the cutting device of the present invention, since the end forming / side forming and the cutting line forming device is installed in one cutting device, it is possible to reduce the size of the entire device is not limited by the installation space.

1: bed W: refrigerant pipe
L: Cut line V: V-notch
M: drive motor B: belt
100: cutter mount 101: through hole
120: upper and lower cutter unit 121: cutter support block
122: return spring 123: cam roller
124: pin 130: cutting portion
131: hitting section 132 hitting surface
133: slit 134: cutter
140: side forming tool unit 141: side forming tool support block
142: return spring 143: cam roller
144: pin 145: side forming tool
146: side forming blade 150: drum cam
151; CamTrack 152: Overhang

Claims (6)

A coolant pipe cutting unit for forming a cutting line L of an end forming V-shaped groove on the upper and lower sides of the coolant pipe W at a predetermined cutting position of the coolant pipe W, and performing side forming on the side of the coolant pipe W. In the refrigerant pipe cutting device included,
The refrigerant pipe cutting unit,
The upper and lower sides of the refrigerant pipe (W) are disposed to face each other, forming a 'V'-shaped cutting line (L) of a constant depth on the surface of the refrigerant pipe, and at the same time the edge of the'V'-shaped cutting line (L) A pair of upper and lower cutter units 120 striking the upper and lower surfaces of the refrigerant pipe W in a timely manner so as to be flat;
One pair of sides disposed opposite to each other on the left and right sides of the refrigerant pipe W in a width direction to strike the left and right sides of the refrigerant pipe W in a timely manner to form a 'V' shaped notch V having a constant depth, respectively. Forming tool unit 140;
A through hole 101 is formed in the center direction to allow the refrigerant pipe W to pass in the horizontal direction, and the upper and lower cutter units 120 are slidably installed toward the upper and lower surfaces of the refrigerant pipe W. In addition, the cutter mount (100) is installed so as to slide the side forming tool unit 140 toward the left and right sides of the refrigerant pipe (W);
Refrigerant pipe cutting characterized in that it comprises a cutter operating unit for periodically moving the side forming tool unit 140 and the upper and lower cutter unit 120 alternately every turn while turning along the circumference of the cutter mount 100 Device. The method of claim 1,
The upper and lower cutter units 120 are slidably installed along a slide groove formed in a radial direction perpendicular to the cutter mount 100, and the upper and lower sides of the refrigerant pipe W are provided by return springs 122 installed at one end thereof. A cutter support block 121 which is biased in a direction away from the surface; and a hitting surface fixedly installed at one end of the cutter support block 121 to strike the upper and lower surfaces of the refrigerant pipe W at right angles ( Strikes 131 having a 132, and is projected by a predetermined length from the striking surface 132 of the striking portion 131, the striking surface 132 of the striking portion 131 is a refrigerant pipe (W) And a cutting part 130 formed of a cutter 134 which forms a cutting line L of a V-shaped groove on the upper and lower surfaces of the refrigerant pipe W when striking the upper and lower surfaces of the coolant pipe W.
The side forming tool unit 140 is slidably installed in a slide groove formed in the horizontal radial direction of the cutter mount 100 so as to slide toward the left and right sides of the refrigerant pipe W, and the refrigerant pipe W A side forming tool support block 141 elastically supported by a return spring 142 so as to receive a biasing force in a direction away from the left and right side surfaces of the side and the side forming tool support block 141. And a side forming tool (145) hitting the left and right sides of the refrigerant pipe (W) by the movement of the forming tool support block (141). The method of claim 2,
The cutter operating unit includes a drum cam 150 rotatably installed about a central axis, and the drum cam 150 includes a cam track 151 provided along an inner circumferential surface with a predetermined radius of rotation, and It is provided on the cam track 151 to face each other along the radial direction and has a pair of protrusions 152,
Cam tracks of the drum cam 150 are respectively provided at opposite ends of the cutting unit 130 of the cutter support block 121 and opposite ends of the side forming tool 145 of the side forming tool support block 141. Cam rollers which are in rolling contact with the rollers 151 are rotatably installed so that the drum cam 150 rotates and passes through the protrusion 152 of the cam track 151 so that the upper and lower cutter units 120 and the side forming tools are rotated. Refrigerant pipe cutting device, characterized in that for operating the unit 140 toward the refrigerant pipe (W). The method of claim 2,
The cutter 134 is a refrigerant pipe cutting device, characterized in that installed so as to vary the length of the protruding with respect to the striking surface 132 of the striking portion 131. The method of claim 2,
The side forming tool (145) is a coolant pipe cutting device, characterized in that provided with a side forming blade (146) inclined downward toward both sides in the central portion. The method of claim 1,
The cutter (134) is a refrigerant pipe cutting device, characterized in that the wedge shape is narrowed in cross section toward the tip.

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