KR101468150B1 - A pressing device of press type pipe joint - Google Patents

Abstract

The present invention relates to a pressing type pipe connector press which uniformly presses a circular pressing unit having a rubber ring and a metal ring inserted into both ends of a connector from all directions to provide airtightness to a connected joint portion when pipes are connected to each other. The pressing type pipe connector press includes: a pair of operating pressing tools (10) on both sides including an arc-shaped block groove (11) formed toward a frontal inner portion; a fixing pressing tool (20) having both ends connected to the central portions of the operating pressing tools (10) on both sides by a hinge pin (P1) have an arc-shaped block groove (21) and a fixing pin hole (22) on the center; pressing blocks (30) respectively mounted on the block grooves (11, 21) of the operating pressing tools (10) on both sides, and the fixing pressing tool (20) have a pressing groove (31); a pair of levers (40) on both sides having the other ends respectively connected to the rear portions of the operating pressing tools (10) on both sides by a hinge pin (P2); and links (50) connected to one lever ends (40) on both sides by a hinge pin (P3) have a pair of roller grooves (51).

Description

Technical Field [0001] The present invention relates to a pressing device for press type pipe joint,

The present invention relates to a connector presser for connecting a stainless steel pipe or a copper pipe by press-fitting, and more particularly, to a connector presser for inserting a rubber ring and a metal ring at both ends of a connecting pipe The present invention relates to a press-fit pipe connector crimping machine capable of uniformly pressing a crimped portion of a circular shape in all directions.

Generally, when a metal pipe such as stainless steel or copper is connected in the longitudinal direction, a rubber ring and a metal ring are inserted into a crimping portion of a connecting portion, and the rubber ring and the metal ring are pressed by a crimping tool to maintain the airtightness of the pipe connecting portion crimping portion.

The rubber ring and the metal ring are usually inserted into the compression section of the pipe connection port, and the compression tool is attached in the form of wrapping the outer circumferential surface of the connection pipe compression section and presses the compression section of the connection port by applying pressure in the direction of the center of the pipe. Details of such a crimping-type pipe connector crimping tool are disclosed in Korean Patent No. 10-0935952, Korean Patent No. 10-0659150, and Korean Patent No. 10-1133722.

However, in the conventional pressing tool, in order to press the cylindrical connecting port, two pressing tools are separated in a semicircular shape so that one side is connected through a hinge and the other side is pressed by turning the hinge about the axis. There is a structural limitation that the pressing portion can not be pressed uniformly in all directions against the pressing portion. Therefore, the pressing portion of the connecting portion is concentrated only in one direction, so that the entire circumference of the rubber ring or the metal ring is not uniformly compressed, There is a problem in that a leak or the like is generated in a portion having a relatively low compression ratio.

In addition, the conventional crimping tool has a complicated structure, resulting in an uneconomical problem that the cost increases due to an increase in the number of parts.

Patent Document 1: Registration No. 10-0935952 (December 30, 2009) Patent Document 2: Registration No. 10-0659150 (December 12, 2006) Patent Document 3: Registration No. 10-1133722 (Mar. 29, 2012)

It is an object of the present invention to overcome the above-described drawbacks of the prior art, and it is an object of the present invention to provide a rubber ring and a metal ring, So that it is possible to pressurize by a pressure.

In addition, the present invention can improve the compression efficiency by allowing the three compression blocks to simultaneously press the outer circumferential surface of the connection port, and reduce the wear and damage of the compression block, To provide a presser.

Another object of the present invention is to provide a press-fit pipe connector compression device which can be economically reduced in cost by improving a simple structure.

In order to accomplish the above object, the present invention provides a scroll compressor comprising: a pair of arc-shaped block grooves formed on an inner side of a front side of a pair of side-pressing tools; Wherein both side ends of the compression tool are connected to each other by a hinge pin and a compression block provided with a pressing groove in the block groove of the both side movable compression tool and the fixed compression tool are respectively mounted, And the other end is connected to the hinge pin, and a link having a pair of roller grooves at one end of the both levers is connected by a hinge pin.

In addition, the block groove and the compression block are each formed with a pair of arc-shaped projections and arc-shaped grooves assembled with each other.

A pair of assembly grooves and an assembly piece are rotatably assembled to each other on both sides of the center portion of the both-side moving and pressing tool and the fixing and pressing tool. The pair of assembly grooves and the pair of hinge pins It is fixed with a snap ring.

A lever groove is formed on the rear side of the two side pressing tools so that the other ends of the two levers are rotatably fitted. The lever groove and a pin hole formed at the other end of the lever are fitted with a pair of snap rings.

Further, a lever groove is formed in the link so that one end of the both levers is rotatably fitted, and the lever groove and the pin hole formed at one end of the lever are fixed by a pair of snap rings.

In addition, a pin groove is formed in an inner center portion of the both-side movable pressing tool, and the pin groove is fitted with a spring receiving the elastic force of the spring, and the head of the pin is brought into contact with the inner wall on both sides of the fixed pressing tool.

And a stopper for preventing release of the compression block is provided on the both side movable compression tool and the fixed compression tool. The compression block mounted on the both side compression compression tool forms a clearance groove into which the stopper is inserted, The mounting block is formed with a fixing groove into which a stopper is inserted.

Further, a spring groove is formed on each of opposed surfaces of the lower compression block mounted on the fixed compression tool and the opposite compression block mounted on the movable compression tool, and both sides of the spring are inserted into the facing spring grooves.

According to the present invention, when the rubber ring for holding the airtightness of the connector and the crimping portion having the metal ring are pressed, the entire circumference of the rubber ring and the metal ring is uniformly spaced from each other by three compression blocks It is possible to prevent the connector from being deformed into an elliptical shape due to the pressure being applied by one pressure, and to prevent defects such as leakage by partially removing the parts with low airtightness and to increase the durability of the connector, There is an effect.

In addition, since the both-side movable pressing tool is squeezed by using the principle of the lever, it has a very advantageous effect such that the pressing force is increased even with a small force during the squeezing operation, thereby enhancing the convenience of operation.

In addition, since the three compression blocks simultaneously compress the connection port concentrically, the wear and damage of the compression block can be prevented and the service life can be greatly extended.

In addition, since the structure is made simple, the number of parts of the presser can be reduced as a whole, thereby reducing the cost economically.

1 is a perspective view of the present invention.
2 is an exploded perspective view of the present invention.
3 and 4 are front views showing the operating state of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, the press-fit pipe connector presser of the present invention comprises: a pair of side-by-side pressing tool 10 having arc-shaped block grooves 11 formed inwardly inward; A fixed pressing tool 20 having both ends thereof connected to a central portion of the both side movable pressing tool 10 by a hinge pin P1 and having an arc-shaped block groove 21 and a central fixed pin hole 22; A compression block 30 mounted on the block grooves 11 and 21 of the both side movable compression tool 10 and the fixed compression tool 20 and having pressing grooves 31; A pair of side levers (40) connected to the rear side of the both side movable pressing frame (10) by the hinge pins (P2), respectively; And a link 50 connected to one end of the both levers 40 by a hinge pin P3 and having a pair of roller grooves 51. As shown in FIG.

Here, the compression device of the present invention uniformly presses a circular compression section, in which a rubber ring of a connector and a metal ring are inserted, from a full direction to a full circle, when the metal pipe such as stainless steel or copper is connected. A compression bonding tool 20, a compression block 30, a lever 40, and a link 50. As shown in Fig.

The movable press tool 10 is connected to both sides of the fixed press tool 20 at the center so as to be rotatable with a hinge pin P1. Inside the front side of the pair of side press tools 10, Grooves 11 are formed. At this time, a compression block 30 is mounted to the block grooves 11 of the both side movable pressing tool 10.

The fixed pressing tool 20 is connected at both ends thereof to a central portion of the both side movable pressing tool 10 by a hinge pin P1. An arcuate block groove 21 is formed inside the fixed pressing tool 20 , And a fixed pinhole (22) is formed at the center of the fixed pressing tool (20). 3 and 4, the presser block 30 is mounted on the block groove 21 of the fixed presser tool 20 and the presser hole 22 of the stationary presser tool 20 is press- The fixing pin 120 of the actuating cylinder gun 100 is fitted.

2, a pair of assembly grooves 12 and an assembly piece 23 are rotatably assembled on both sides of the center of the movable compression bonding tool 10 and both sides of the fixed compression tool 20, as shown in FIG. 2 And the hinge pins P1 are inserted into the pin holes 12a and 23a formed in the pair of the mounting grooves 12 and the assembly pieces 23 and fixed by a pair of snap rings S1. At this time, when the snap ring S1 is fastened to the hinge pin P21 with the assembly piece 23 inserted in the fitting groove 12 and the hinge pin P1 inserted in the pin holes 12a and 23a, The movable presser frame 10 and the stationary presser frame 20 can be simply connected.

According to the present invention, a pin groove 14 is formed in the center of the inner side of the both-side movable pressing tool 10, and a pin 14a is fitted with a pin 14b receiving the resilience of a spring 14a. Are in contact with the inner side walls 20a on both sides of the fixed pressing tool 20. [ At this time, since the head is brought into contact with the inner wall 20a on both sides of the fixed pressing tool 20 while being held by the elastic force of the spring 14a, the movable pressing tool 10 and the fixed pressing tool 20, Elasticity is imparted.

The compression block 30 is mounted on the block grooves 11 of the movable compression bonding tool 10 and the block grooves 21 of the fixed compression tool 20. The three compression blocks 30 are each provided with a press- (31) are formed. At this time, the three compression blocks 30 uniformly press the compression bonding part of the pipe connection pipe 1 from both sides and the lower part uniformly with the source, and a rubber ring and a metal ring are inserted into the compression block 30 A pressing groove 31 for pressing the crimping portion of the connector 1 is formed.

2, the block grooves 11 and 21 and the compression block 30 are formed with a pair of arcuate protrusions 11a and 21a and arcuate grooves 30a, respectively. Since the compression block 30 is assembled to the block grooves 11 and 21 through the arcuate protrusions 11a and 21a and the arcuate grooves 30a in the present invention, It is possible to simply assemble and separate the compression block 30 without using the compression block 30. Therefore, the compression block 30 can be simply replaced when the compression block 30 is worn.

According to the present invention, stoppers 15 and 24 are provided on the both sides of the movable and movable pressing tool 10 and the fixed pressing tool 20 to prevent the pressing block 30 from coming off. And the stopper 15 is inserted into the groove 30a of the pressing block 30. The stopper 24 is inserted into the groove 30a of the pressing block 30, (32b) is formed. At this time, the both side pressing blocks 30 are assembled to the block grooves 11 of the two side pressing tools 10 through the clearance grooves 32a and the stoppers 15 so as to prevent separation and clearance.

According to the present invention, spring grooves 33 are formed on the facing surfaces of the lower compression block 30 mounted on the fixed compression tool 20 and the opposite compression blocks 30 mounted on the movable compression tool 10, And both sides of the spring 34 are inserted into the spring grooves 33 facing each other. At this time, the springs 34 are inserted halfway into the spring grooves 33 of the adjacent compression blocks 30 so that the spacing between the compression blocks 30 can be adjusted to a uniform level by exerting an elastic force, 34 serve to secure the position of the compression block 30 and to elastically connect the compression block 30 before compression bonding. In addition, the spaces between the compression blocks 30 are maintained at a constant interval by the spring 34, so that the pipe 1 can be pressed with a uniform pressure. The interlocking operation of the spring 34 determines the initial position of the both side pressing blocks 30 when removing the external force applied to the both side pressing tools 10 and when applying the external force.

The lever 40 is rotatably connected to the rear of the both-side movable pressing frame 10 by means of a hinge pin P2. The pair of both levers 40 are connected to the link 50, The both-side movable pressing tool 10 is operated.

2, a lever groove 13 is formed in the rear of the both sides of the movable pressing tool 10 so that the other ends of the both side levers 40 are rotatably fitted, and the lever groove 13 and the lever The hinge pin P2 is fitted into the pinhole 13a (41) formed at the other end of the hinge pin (40) and fixed with a pair of snap rings (S2). At this time, when the lever 40 is inserted into the lever groove 13 and the snap ring S2 is fastened to the hinge pin P2 with the hinge pin P2 inserted in the pin holes 13a and 41, The crimping tool 10 and the both-side lever 40 can be simply connected.

The link 50 is connected to one end of the levers 40 by a hinge pin P3 and a pair of roller grooves 51 are formed on the outer surface of the link 50. [ As shown in FIGS. 3 and 4, a pair of rollers 130 installed in a cylinder gun 100 for operating the compactor of the present invention are inserted into a pair of roller grooves 51 formed in the link 50.

2, a lever groove 52 is formed in the link 50 so that one end of the both lever 40 is rotatably fitted, and the lever groove 52 and the lever 40 The hinge pin P3 is inserted into the pinhole 52a (42) formed in the pin hole (42a) and fixed with a pair of snap rings (S3). At this time, when the lever 40 is inserted into the lever groove 52 and the snap ring S3 is fastened to the hinge pin P3 with the hinge pin P3 inserted into the pin holes 52a and 42, The link 40 and the link 50 can be simply connected.

3 and 4, the compression device of the present invention is used in connection with the cylinder gun 100 when the pipe connector 1 is compressed. In the front connector 110 of the cylinder gun 100, And a roller conveyance passage 111 in which the fixing pin 20 and the fixing pin 20 are inserted is formed in the fixing pinhole 22 of the fixing and pressing tool 20, And a cylinder 150 having a pair of rollers 130 and pistons 140 capable of moving forward or backward is installed at the rear end of the cylinder gun 100.

The overall operation of the present invention will now be described in detail.

3 and 4, the roller transfer path 111 of the connection port 110 is inserted into the link 50 of the compression device and the fixed compression tool 20, and the fixing pin 120 installed on the connection port 110 is inserted 3, the front side of the movable crimping tool 10 is opened to the outside and the both side movable crimping tool 10 is fixed to the fixed pinhole 22 of the fixed crimping tool 20, The pipe 10 is inserted into the pressing groove 31 of the compression block 30 mounted on the fixed compression tool 20 so as to locate the pipe fitting 1 of the pipe to be joined. As shown in FIG. 3, when the front side of the both-side movable pressing frame 10 is opened to the outside, the rear side of the both-side movable pressing frame 10 is pushed inward to keep it in a closed state, and the link 50 is pushed backward And the retracted state is maintained. As shown in FIG. 3, the spring 14a inserted into the pin groove 14 of the both side movable pressing tool 10 is pressed inward by the pin 14b to maintain a compressed state by elastic force. As shown in FIG. 3, the both side pressing blocks 30 are in a state in which the spring 34 is maximally stretched, so that the spacing between the pressing blocks 30 is maintained at a uniform level by exerting an elastic force.

4, when the cylinder 150 of the cylinder gun 100 is actuated in this state after inserting the connector 1 into the compression block 30 as shown in FIG. 3, the piston 140 advances forward Whereby a pair of rollers 130 provided in front of the piston 140 are advanced forward along the roller conveyance passage 111 in the forward direction.

At the same time, the pair of rollers 130 advancing forward pushes the roller grooves 51 of the link 50 forward, so that the link 50 is pushed forward along the roller conveyance passage 111 of the connector 110 As a result, the both-side lever 40 rotates about the hinge pin P2 (P3) and pushes the rear side of the both-side movable pressing tool 10 outward as shown in FIG.

On the contrary, the front side of the two side pressing tool 10 is rotated around the hinge pin P1 as shown in FIG. 4, The pressing groove 31 of the block 30 is pushed inward and presses the pressing portion of the pipe connecting hole 1 so that the pressing portion of the pipe connecting hole 1 is airtightly connected to the pipe while maintaining airtightness, Is completed. 4, both the side pressing blocks 30 mounted on the two sides of the movable pressing tool 10 and the pressing blocks 30 mounted on the fixed pressing tool 30 concentrically connect the pressing portions of the connecting port 1 to both sides And uniformly pressurized in the lower direction. 4, the spring 14a inserted in the pin groove 14 of the both side movable pressing tool 10 elastically pushes the rear side of the both side movable pressing tool 10 outward by the restoring force, A pressing force of the spring 14a is additionally given to the front of the body 10. 4, the spring 34 inserted into the spring groove 33 of each compression block 30 is maximally compressed, so that the gap between the compression blocks 30 exhibits an elastic force to be uniform So that the pressing block 30 can press the connecting portion of the pipe 1 with a uniform pressing force.

4, the tips of the two side pressing tools 10 are in contact with each other so that they can not be rotated further inward while the pressing block 30 is completely pressed, and in this state, The hinge pin P3 connected to the movable pressing tool 10 is positioned behind the hinge pin P2 connected to the movable pressing tool 10 and the link 50 is kept in a state in which it can not advance forward any more .

When the cylinder 150 of the cylinder gun 100 is operated in the reverse direction after the compression of the pipe connector 1 is completed as described above, the piston 140 is retracted rearward, A pair of rollers 130 provided at the front of the roller 50 are retracted rearward along the roller conveyance passage 111 and are pulled out of the roller groove 51 of the link 50. At this time, As shown in FIG. 3, the front side of the movable crimping tool 10 on both sides is opened outward. In this state, the crimped connector 1 is pulled out and the following pipe connector crimping operation is performed by the above-mentioned operation.

Therefore, in the present invention, since the three compression blocks 30 uniformly and externally pressurize the pressed portion of the pipe connector 1 on both sides and the whole lower portion, the rubber ring and the metal ring for maintaining the airtightness of the connector 1 are inserted The entire circumference of the rubber ring and the metal ring is pressurized with a uniform pressure when pressing the crimped portion, so that the connecting portion can be prevented from being deformed into an elliptical shape, and the portion with low airtightness can be partially removed, And the durability is increased, so that the replacement period of the connector can be extended.

In addition, since the double-sided movable pressing tool 10 is compressed by using the principle of the lever, it has a very advantageous advantage such that the pressing force is increased even with a small force during the pressing operation, thereby improving the convenience of the operation.

In the present invention, since the three compression blocks 30 simultaneously compress the connection port concentrically, it is advantageous in that the compression block 30 is prevented from being abraded and damaged and the service life can be prolonged.

In addition, since the present invention has a simple structure, it is possible to reduce the number of constituent parts of the presser as a whole, and thus it is economically advantageous in that cost can be reduced and productivity can be improved.

10: movable crimping tool 11: block groove
11a: arcuate projection 12: assembly groove
12a: Pin hole 13: Lever groove
13a: pinhole 14: pinhole
14a: spring 14b:
15: Stopper 20: Fixed crimping tool
20a: inner wall 21: block groove
21a: arched protrusion 22: fixed pin hole
23: Assembly piece 23a: Pin hole
24: stopper 30: compression block
30a: arc-shaped groove 31: pressed groove
32a: Clearance groove 32b: Fixing groove
33: spring groove 34: spring
40: Lever 41: Pinhole
42: pinhole 50: link
51: roller groove 52: lever groove
52a: Pinhole P1, P2, P3: Hinge pin
S1, S2, S3: Snap ring

Claims (8)

A pair of both-side movable pressing tools 10 having arc-shaped block grooves 11 formed inwardly inward; A fixed pressing tool 20 having both ends thereof connected to a central portion of the both side movable pressing tool 10 by a hinge pin P1 and having an arc-shaped block groove 21 and a central fixed pin hole 22; A compression block 30 mounted on the block grooves 11 and 21 of the both side movable compression tool 10 and the fixed compression tool 20 and having pressing grooves 31; A pair of side levers (40) connected to the rear side of the both side movable pressing frame (10) by the hinge pins (P2), respectively; And a link (50) connected to one end of the both side levers (40) by a hinge pin (P3) and having a pair of roller grooves (51). The press-molding method according to claim 1, wherein a pair of arc-shaped protrusions (11a) (21a) and arc-shaped grooves (30a) are assembled to the block grooves (11) Pipe connector presser. The method of claim 1, wherein a pair of assembly grooves (12) and an assembly piece (23) are rotatably assembled on both sides of the center of the movable compression bonding tool (10) and the fixed compression tool (20) Wherein a hinge pin (P1) is inserted into a pin hole (12a) (23a) formed in a pair of mounting grooves (12) and an assembly piece (23) and fixed with a pair of snap rings (S1). The lever pressing apparatus according to claim 1, wherein a lever groove (13) is formed in the rear of the both side pressing tool (10) such that the other ends of the both side levers (40) are rotatably fitted, Wherein the hinge pin (P2) is inserted into the pinhole (13a) (41) formed at the other end of the hinge pin (P2) and fixed by a pair of snap rings (S2). The link (50) according to claim 1, wherein a lever groove (52) is formed in the link (50) such that one end of the both side lever (40) is rotatably fitted, and a pin hole And the hinge pin (P3) is inserted into the first and second fitting holes (52a, 42) and fixed by a pair of snap rings (S3). The pin presser according to claim 1, wherein a pin groove (14) is formed in an inner center portion of the side pressing tool (10), and a pin (14a) (14b) are in contact with the inner side walls (20a) on both sides of the fixed pressing tool (20). The apparatus according to claim 1, wherein stoppers (15) and (24) are provided on both sides of the movable and movable pressing tool (10) and the stationary pressing tool (20) The stopper 24 is inserted into a compression block 30 mounted on the stationary compression tool 20 so that the stopper 15 is inserted into the compression block 30, And a fixing groove (32b) is formed in the fixing groove (32b). The method according to claim 1, wherein a spring groove (33) is formed on a surface of each of the lower compression block (30) mounted on the fixed compression tool (20) and the opposite compression block (30) mounted on the movable compression tool And both sides of the spring (34) are inserted into the spring grooves (33) facing each other.

Images