KR20040017760A - Connector for Pipes - Google Patents

Abstract

PURPOSE: A pipe coupling is provided to form the different shapes of pressure rings to improve the contact property and the contact surface between the components. CONSTITUTION: A connecting pipe(1) has slopes(4) flared outward at an inner peripheral portion at both ends. A first pressure rings(14) at one side has an outer slope(18) having an outer diameter flared far away from a second pressure ring(16) at one side. A first pressure ring(15) at the other side has an outer slope(19) having an outer diameter flared far away from a second pressure ring(17) at the other side. The second pressure rings at one side and the other side have outer slopes(20,21) flared far way from the connecting pipe. The outer slopes of the second pressure rings are same to or less steep than the slope of the connecting pipe. The second pressure rings at one side and the other side have inner diameters flared far away from the connecting pipe and has inner slopes(22) same to or less steep than the outer slopes of the first pressure. The first pressure rings includes cut-out portions(24,25), respectively.

Description

Connector for pipes for fluid transfer {Connector for Pipes}

The present invention relates to a connection device for a fluid transfer pipe, and more particularly, a process in which a fluid is transferred as the sealing of the connection part is completely made in a state in which even a pipe made of a synthetic resin material as well as a metal material is connected in a different structure. In any case, it does not leak out.

In general, in the case of various fluids such as water and sewage or gas, there is a need to transfer from one area to another as needed. In this case, the fluid is usually made through a pipe for transferring fluid.

The fluid transfer pipe is installed and used in a state of being buried underground, or is installed and used in a state exposed to the ground, any one material such as metal or synthetic resin is selected according to the characteristics of the fluid to be transferred.

In other words, if you want to transfer the fluid of high pressure or if the installation position is on the ground regardless of the pressure of the fluid to be conveyed, it is for transporting the fluid of metal material that has strong internal pressure and is not easily damaged or deformed by external impact. Tubes must be used and non-metallic fluid conveying tubes free of internal pressure and external impact may be used to transfer low pressure fluids or to install them underground.

On the other hand, the fluid transport pipe is generally required to be used by connecting several in the longitudinal direction when installing the connection device is necessary for the connection of the pipe.

Then, first, a connection device of the conventional fluid transport pipe will be described.

There is a connection tube 101 of an appropriate length, one end of the male thread 102 is formed at one end of the outer periphery of the connection tube and the other male thread 103 is formed at the other end. A central inner diameter portion 104 is formed in the center of the inner circumference of the connecting tube 101 by a predetermined length, and the central inner diameter portion 104 of the inner circumference of the connecting tube 101 is interposed therebetween. The one side step 105 is formed in the stepped state by the other stepped portion 107 while the one side inner diameter portion 106 having an inner diameter larger than the central inner diameter portion 104 is formed in the stepped state. The other inner diameter portion 108 having a larger inner diameter than the central inner diameter portion 104 is formed, and at one end of the one inner diameter portion 106, one side connecting diameter so that the inner diameter becomes larger and larger from the inner side to the outer side. There is a deadlock 109 End of the other side to the inner diameter portion 108 has the other end connected diameter section (110) is formed such that the shape gradually increases from the inside to the outside more and the inside diameter.

One side of the connection pipe 101 is screwed with one side male thread 111 integrally formed in the inner diameter portion is screwed with one side male thread 102 formed in the connection pipe 101 to be tightened while moving straight toward the connection pipe 101. One side of the nut 112 is installed and the other side of the connection pipe 101 is connected to the other male thread formed integrally formed on the inner diameter portion 113 is screwed with the other male thread 103 formed on the connection pipe 101 The other nut 114 is installed to be tightened while being moved toward the pipe 101, and the one end nut of the one end nut 112 is connected to the outer end of the one nut 112 so that the connection part of the one side fluid transfer pipe to be connected to each other can be fitted. One side of the nut through hole 116 integrally formed with the step (115) and the outer end of the other nut 114, the other side so that the connection portion of the other fluid transfer pipe to be connected to each other can be fitted Nut step (117) The other nut hole 118 which is integrally formed is formed.

In addition, the inner diameter portion of the one side nut 112 has the inner diameter of the same diameter as the one side through-hole 116, and the one side first pressing ring 119 in which one side horizontal piece 119a and one side vertical piece 119b are integrated. The other first pressing ring 120 having the same inner diameter as the other nut through hole 118 and having the other horizontal piece 120a and the other vertical piece 120b integrated into the inner diameter portion of the other nut 114 is fitted. One side pressing ring 121 having the same inner diameter as the one nut through hole 116 is inserted into the inner side of the first pressing ring 119 of the inner diameter portion of the one side nut 112 and the other side nut. Inside the other side of the first pressure ring 120 of the 114, the other second pressure ring 122 having the same inner diameter as the other nut through hole 118 is fitted, the one side second pressure ring 121 At one end of the inner pressure portion of the first pressure ring 119, the inner diameter is wider and wider toward the side away from the connecting pipe 101. The inner side of the inclined portion 123 is formed in the form and the inner diameter of the second pressure ring 122 of the other side of the other side of the first pressure ring 120 side end of the inner diameter toward the farther away from the connecting pipe 101 The other inwardly inclined portion 124 is formed in an increasingly wider shape, and the outer diameter portion of the second pressure ring 121 on the one side has an outer diameter that is increasingly wider and farther away from the connecting pipe 101 and at an inclination angle. The outer inclined portion of the second pressure ring 122 on the other side is formed with one outer inclined portion 125 having a more gentle inclination angle than the inclination angle of the one side connecting tube inclined portion 109 formed in the connecting pipe 101 In the outer diameter of the outer tube is gradually wider toward the farther away from the connector 101, the inclination angle is the other external inclination angle having a gentler inclination angle than the inclination angle of the other connector tube inclined portion 110 formed in the connector 101 The part 126 is formed.

The process of connecting two different fluid transport tubes in the longitudinal direction by using the conventional apparatus configured as described above will be described in detail.

A heat nut tube 101 is positioned between two fluid transfer tubes to be connected, and then a nut nut hole 118 formed at one nut 112 as an end of a connection portion of one of the two fluid transfer tubes is connected to the fluid transfer tube. The other nut 114 is inserted through the other nut through hole 118 formed in the other nut 114 at the end of the connection portion of the other fluid transport pipe and the other nut 112 through the fitting.

Subsequently, one side of the first pressing ring 119 and one side of the second pressing ring 121 of the metal material is continuously inserted into the end of the connection portion of the one side of the fluid transfer pipe, and the other first pressing ring 120 and the other second pressing ring (122) is continuously inserted into the end of the connection portion of the other fluid transport pipe, wherein the one side first pressing ring 119 is one side vertical piece (119b) forming one side first pressing ring side one nut 112 side The other first pressure ring 120 is directed toward the other side, and the other vertical piece 120b constituting the other first pressure ring faces the other nut 114, and the one side second pressure ring 121 is The one side inner inclined portion 123 formed on one side of the second pressure ring faces the one side of the first pressure ring 119, and the other side second pressure ring 122 is formed on the other side of the second pressure ring. 124 is directed toward the other first pressure ring 120.

In this way, after one side nut 112, one side first pressure ring 119, and one side second pressure ring 121 are sequentially inserted into the end of the connection portion of the one side fluid transfer pipe, then the connection pipe 101 One side of the female thread 111 formed in the inner diameter portion of the one side nut 112 and one male thread 102 formed in one outer diameter portion of the connecting pipe 101 to be initially in contact lightly, After the other nut 114, the other first pressure ring 120 and the other second pressure ring 122 are sequentially inserted into the end of the connection portion of the pipe, the other nut is inserted into the other side of the connection pipe 101. The other female thread 113 formed on the inner diameter portion 114 of the 114 and the other male thread 103 formed on the other outer diameter portion of the connecting pipe 101 are initially brought into light contact. This state is shown in FIG. 3A.

As shown in FIG. 3A, one side of the first threaded ring 111 formed on one side of the nut 112 and one side of the male thread 102 formed on the connecting pipe 101 are initially contacted with one side of the first pressure ring 119 and one side of the first side. The pressure ring 121 surrounds the outer diameter portion of the one side fluid transport pipe at the inner diameter portion of one nut 112, and is connected to the other female thread 113 and the connection pipe 101 formed at the other nut 114. In the state in which the other male thread 103 formed is initially lightly contacted, the other first pressure ring 120 and the other second pressure ring 122 are positioned at the inner diameter of the other nut 114 so that It surrounds the outer diameter.

On the other hand, when the operator rotates the one side nut 112 in the tightening direction in the state as shown in Figure 3a, one side male thread 111 formed in the one nut and one male thread 102 formed in the connection pipe 101 is screwed together. While the one side nut 112 pushes the first pressure ring 119 and one side second pressure ring 121 strongly toward the connection pipe 101 at the same time, the tightening direction of the nut 112 is completed. In the axial contact force of the one side nut 112 and one side first pressure ring 119 and the axial contact force of the one side first pressure ring 119 and one side second pressure ring 121 and the one side second pressure ring ( The axial contact force between the 121 and the connecting pipe 101 is very strong, and when the other nut 114 is rotated in the tightening direction, the other female thread 113 formed on the other nut 113 and the other male thread formed on the connecting pipe 101 are formed. As the 103 is screwed together, the other nut 114 is Since the first pressure ring 120 and the other second pressure ring 122 are strongly pushed toward the connection pipe 101 at the same time, the other nut 114 and the other side in the tightening direction of the other nut 114 are completed. Axial contact force of the first pressure ring 120 and the axial contact force of the other first pressure ring 120 and the other second pressure ring 122 and the other second pressure ring 122 and the connection pipe 101 The axial contact force of ε occurs very strongly, which is the state in FIG. 3B.

3B is a state in which two fluid transfer connectors are connected in a longitudinal direction by a conventional apparatus, and one end portion of the connection portion of one fluid transfer tube has a central inner diameter 104 of an inner circumference of the connector 101. The end portion of the connection part of the one side fluid delivery tube is inserted into one inner diameter portion 106 having an inner diameter larger than the central inner diameter portion between the center inner diameter portion 104 and the one inner diameter portion 106. One end step 105 is a boundary portion, and the other end portion of the connection portion of the fluid transfer pipe end of the inner diameter of the inner tube of the connecting pipe 101 is larger than the inner diameter of the larger than the central inner diameter portion The other end of the inner diameter portion 108 is fitted with the other end portion of the connection pipe for the other fluid transfer pipe is caught on the other step 107 which is a boundary between the central inner diameter portion 104 and the other inner diameter portion 108. This time, descending toward the connector 101 While the one side external inclined portion 125 of the second pressure ring 121 is pushed into the one side tube inclined portion 109 formed at the outer end of the one inner diameter portion 106 of the connecting tube 101. One end of one side horizontal piece 119a of one side first pressure ring 119 strongly pushed toward one side second pressure ring 121 is fitted into one side internal inclined portion 123 of second side pressure ring 121. The other external inclined portion 110 of the other second pressing ring 122 that is strongly pushed toward the connecting tube 101 is formed at the outer end of the other inner diameter portion 108 of the connecting tube 101. The other end portion of the second horizontal pressing portion (120a) of the other first pressing ring 120, which is inserted into the second pressing ring 122 and is strongly pushed toward the other side of the second pressing ring 122 124).

On the other hand, the one side external inclined portion 125 formed on one side of the second inclined ring 121 is connected to the one side tube inclined portion 109 formed in one side inner diameter portion 106 of the connecting pipe 101, the one side external inclined portion. While the outer diameter becomes wider as the 125 is farther from the connector 101, the inclination angle has a gentler inclination angle than the inclination angle of the one side tube inclination part 109 formed in the connector 101. Of course, the one side of the tube inclined portion 109 has an inner diameter gradually wider from the inner side to the outer side while the inclination angle of the inclined angle of the one side external inclined portion 125 formed on the second pressing ring 121 Since the angle of inclination is more inclined than that shown in FIG. 1, the portion of the second pressure ring 121 inserted into one side of the tube inclined portion 109 of the connector 101 is guided along the inclined surface of the one side of the tube inclined portion. One end of the connecting pipe 101 side of the second pressure ring 121 pressurizes the one side fluid transfer pipe to the circumferential center, and one end of the one side horizontal piece 119a of the one first pressure ring 119 is one side. In the state in which the one side inclined portion 123 formed in the second pressing ring 121 is fitted, the inner diameter of the one side inclined portion becomes wider and wider toward the direction away from the connecting pipe 101. One side of the first pressing ring 119 because the portion of the one side horizontal inclined portion 119a of the one side of the second pressing ring 121 is fitted along the inclined surface of the one side inner inclined portion 119. One side of the horizontal piece (119a) of the end is to press the one side fluid transfer pipe to the circumferential center, so that only one specific portion of the one side first, second pressure ring (119) 121 in the narrow area range for one side fluid transfer It is pressurized tightly by the tube and it is hermetic As the first and second pressure rings 119 and 121 are pressurized toward the connecting pipe 101 by screwing one nut 112, the first and second pressure rings 119 and 121 are connected to the connection pipe 101. The end of the 101 side is to be reduced to be closer to the circumferential center of the one side fluid transfer tube, but the end opposite to the connecting tube 101 side of the first and second pressure rings 119 and 121 is for one side fluid transfer. This is possible because it tries to stretch away from the circumferential center of the tube.

In addition, when the other external inclined portion 126 formed on the other second pressure ring 122 is fitted into the other connecting tube inclined portion 110 formed in the other inner diameter portion 108 of the connecting pipe 101, the other external inclined portion 110. The outer diameter becomes wider and wider as 126 moves away from the connecting pipe 101, and the inclination angle is gentler than the inclination angle of the other connecting pipe inclination part 110 formed in the connecting pipe 101. Of course, while the other side of the tube inclined portion 110 has a form in which the inner diameter becomes wider from the inside to the outside, the inclination angle is the inclination angle of the other external inclined portion 126 formed on the second pressure ring 122 on the other side Since the angle of inclination is more inclined than that of the other side, the portion of the second pressure ring 122 that is fitted to the other connector tube inclined part 110 of the connector 101 is guided along the inclined surface of the other connector tube inclined part. The other end of the connecting pipe 101 side of the second pressure ring 122 presses the other fluid transfer pipe to the circumferential center, and the other end of the other horizontal piece 120a of the first pressure ring 120 is In the state in which the other inner inclined portion 124 formed on the other side second pressure ring 122 is fitted, the inner diameter of the other inner inclined portion becomes wider and wider toward the side away from the connecting pipe 101. Since the portion of the one side horizontal piece 120a of the 120 that is fitted to the other inner inclined portion 124 of the other second pressure ring 122 is guided along the inclined surface of the other inner inclined portion, the other first pressure ring 120 The other side of the horizontal piece (120a) of the pressurizes the other fluid transfer pipe to the circumferential center, so that only a specific portion of the other first and second pressure rings (120, 122) is transferred to the other fluid within a narrow area range. It is hermetically contacted with strong pressure on the tube As the other first and second pressure rings 120 and 122 are pressed toward the connection pipe 101 by screwing the other nut 114, the connection pipes of the other first and second pressure rings 120 and 122 are (101) end is to be reduced to close to the circumferential center of the other fluid transport pipe, but the end opposite to the connection pipe 101 of the other first and second pressure rings (120, 122) for the other fluid transport This is possible because it tries to stretch away from the circumferential center of the tube.

Therefore, the conventional apparatus may be used by connecting several fluid transfer tubes as necessary lengths through the same process as connecting the two fluid transfer tubes in the longitudinal direction.

However, in the related art, the connection device for the fluid transfer pipe has a cylindrical body in which both the first pressure ring and the one side second pressure ring, which serve as a seal between the one side nut and the connection pipe, are completely connected. When the screw is tightened to one side of the first pressure ring and one side of the second pressure ring is weak, and the other first pressure ring and the other second pressure ring that serves as a packing between the other nut and the connecting pipe is also completely Since a continuous cylindrical body is formed, when the other nut is screwed to the other side of the connecting pipe, the deformation force of the other first pressure ring and the other second pressure ring is weak so that the sealing force due to contact with the fluid transfer connector to be connected is reduced. Inevitably, a part of the fluid leaked out in the process of transferring the fluid after the connection was completed.

In addition, only one end portion of one side of the horizontal piece forming one side of the first pressure ring when the one side nut is screwed to one side of the connecting pipe, while only one end portion of the one end portion is pushed toward the circumferential center of the one side of the fluid transport pipe. In addition, the fluid conveying tube is strongly pressed within a narrow area, and only a portion of the end contacting the connecting tube of the second pressurizing ring retracts toward the circumferential center of the one side fluid conveying tube, thereby moving the one side fluid conveying tube. When the pressure is tightly pressed within a narrow area range and the other nut is screwed to the other side of the connecting pipe, only the end portion of the other horizontal piece forming the first pressure ring on the other side of the other side contacting the second pressure ring is the circumference of the other fluid transfer pipe. While pressing toward the center of the direction of the other side of the fluid conveying pipe is strongly pressed in a narrow area range of course the other side Only a part of the end of the second pressure ring contacted with the connection tube is squeezed toward the circumferential center of the other fluid transport pipe, so that the other fluid transport pipe is strongly pressed within a narrow area, so that the first and second pressure rings Since the pressure area (sealing area) for the fluid transfer pipe of the other first and second pressure rings was narrow, this also acted as another problem of leaking to the outside in the process of fluid transfer after the connection was completed.

As described above, only a portion of one end of the first and second pressure rings on the one side of the first and second pressure rings is strongly pressed toward the center in the direction orthogonal to the longitudinal direction within the narrow area range, as well as the other first and second pressure rings. Since only a part of the end portion of the end portion of the narrow fluidized area is strongly pressed toward the center in the direction perpendicular to the longitudinal direction, the fluid transport pipe to be connected may be made of synthetic resin or weak metal, even if it is in a rigid state. In this case, the pressurized portion of the fluid conveying pipe must be crushed toward the inner diameter portion (see FIG. 3B), and when the fluid is conveyed in the use process after completion of the connection, the fluid is not smoothly transferred due to the interference by the crushed portion. Failure to do so eventually leads to an increase in the internal pressure of the fluid conveying tube (separately connected or connected to a specific part of the fluid conveying tube). There is also the problem loss) is taking place.

The present invention has been made in order to solve the above-mentioned conventional problems, one side of the first pressure ring and one side pressurized in the circumferential direction to the one side fluid transfer pipe in the one side nut when screwing the one side nut to the connecting pipe 2The shape of the pressure ring is different, and when the other nut is screwed into the connecting pipe, the shape of the other first pressure ring and the other second pressure ring circumferentially pressed against the other fluid transport pipe in the other nut is also different. Therefore, in the state where the fluid transport pipe is connected, the sealing force is further improved by improving the contact force and increasing the contact area between the respective components, as well as to ensure that the fluid flow is always smooth in the use process after connection.

1 is an exploded perspective view showing a connection device of a conventional fluid transport tube

Figure 2 is a longitudinal cross-sectional view showing an exploded connection of the conventional fluid transfer pipe connection

Figure 3a is a longitudinal cross-sectional view showing a state connecting two fluid transfer pipes by a conventional device, a state diagram before the two pipes are connected

Figure 3b is a longitudinal cross-sectional view showing a state connecting two fluid transfer pipes by a conventional device, a state diagram after the two pipes are connected

Figure 4 is an exploded perspective view showing a connection device of the present invention fluid transport pipe

Figure 5 is a longitudinal cross-sectional view showing an exploded connection of the fluid transfer pipe of the present invention

Figure 6a is a longitudinal cross-sectional view showing a state connecting two fluid transfer pipes by the device of the present invention, a state diagram before the two pipes are connected

Figure 6b is a longitudinal cross-sectional view showing a state connecting two fluid transfer pipes by the apparatus of the present invention, a state diagram after the two pipes are connected

Explanation of symbols for the main parts of the drawings

1: connector 4: connector inclination part

5: other side connector inclination part 7: one side nut

9: other side nut 14: one side pressing ring

15: other side first pressure ring 16: one side second pressure ring

17: other side second pressure ring 18: one side first external inclined portion

19: other first external inclined portion 20: one second external inclined portion

21: second external inclined portion on the other side 22: one internal inclined portion on the other side

23: other internal inclined portion 24: one side cutout

25: other cutout

In the present invention for achieving the above object, one side of the male thread is formed on one side of the outer peripheral surface and the other side is provided with a connecting tube formed with the other male thread, one side of the male thread formed on the inner tube formed on the inner peripheral surface One side of the nut is screwed and the other male thread is screwed on the other male thread by the other female thread formed on the inner circumferential surface thereof, and the inner diameter of the one nut is wrapped around the one side fluid transfer pipe to be connected. When the one side of the nut is screwed on one side of the connecting pipe and the one side of the first pressure ring and one side of the second pressure ring and the inner diameter of the other nut is installed to act as a sealing material while being strongly pressurized to the connection pipe and one side fluid transfer pipe The other nut is screwed to the other side of the connection pipe while the other fluid transport pipe to be connected When the other first pressure ring and the other second pressure ring is installed to act as a sealing material while being strongly pressurized to the connection pipe and the other fluid transport pipe when being provided, the one end of the inner peripheral surface of the connection pipe from the inside to the outside One side connecting tube inclined portion of the inner diameter is formed larger and the other end of the inner peripheral surface is formed with the other side connecting tube inclined portion of the inner diameter is gradually increased from the inner side to the outer side, the outer side of the first pressure ring In the circumference of the outer side of the first pressure ring is formed one side first outer inclined portion of the outer diameter is gradually wider toward the direction away from the one side second pressure ring, and the outer diameter of the other first pressure ring toward the farther side toward the other second pressure ring The other first outer inclined portion is formed in a wider shape, the other side of the second pressure ring on one side The inclined angle becomes wider and wider toward the side away from the connecting pipe, and the second pressure ring on the other side is formed along with the second external inclined part having the same or gentler inclination angle than the inclination angle of the one connecting pipe inclined part formed in the connecting pipe. In the outer circumference of the outer diameter is wider toward the farther away from the connecting tube and the angle of inclination is formed the other second external inclined portion having the same or gentler inclination angle of the other connecting tube inclined portion formed in the connecting tube On the inner circumference of the one side second pressing ring, the inner diameter of the second inclined ring is wider and wider in the direction away from the connecting pipe, and the inclination angle is the same as the inclination angle of the first outer inclined portion of the one side or the gentle inclination angle of which is gentler. While the inner diameter of the second pressure ring on the other side is formed, the inner diameter is far from the connecting pipe The inclined angle is gradually wider toward the other side, and the other inner inclined portion having the same or gentler inclination angle as the inclined angle of the other first external inclined portion is formed, and the one side first pressing ring is formed at one side thereof. In addition, the other first pressure ring is provided with a connection device for the fluid transport pipe formed with the other side cut-out portion.

Hereinafter, with reference to the accompanying Figures 4 to 6 showing an embodiment of the present invention in more detail as follows.

4 is an exploded perspective view showing a connection device of the fluid transport pipe of the present invention, Figure 5 is a longitudinal cross-sectional view showing an exploded connection device of the fluid transport pipe of the present invention, Figure 6a and 6b is a device by the present invention A longitudinal cross-sectional view showing a state in which two fluid transfer pipes are connected, and there is a connection pipe 1 having an appropriate length, and one male thread 2 is formed at one end of the outer circumference of the connection pipe and the other end thereof. The other side male thread (3) is formed on one side, and one end of the inner circumference of the connecting pipe (1) is formed with one side connecting pipe inclined portion (4) so that the inner diameter is gradually increased from the inside to the outside The other end portion of the other end tube inclined portion 5 is formed so that the inner diameter is gradually increased from the inner side to the outer side.

One side of the connector (1), one side of the female thread (6) integrally formed in the inner diameter portion is screwed with one side male thread (2) formed in the connecting tube (1) as one side nut to move linearly toward the connector (1) (7) is coupled to the other side of the connector (1), the other female thread (8) integrally formed in the inner diameter portion is screwed with the other male thread (3) formed in the connector (1) as the connector (1) The other side nut 9 is installed to move linearly toward one side, and the one end of the nut 10 is integrally connected to the outer end of the one side nut 7 so that the connection portion of the one side fluid transfer tube to be connected to each other can be fitted. One side of the nut through hole 11 is formed and the other end of the nut (12) to the other end of the nut end 12 to be integrally connected so that the connection portion of the other fluid transfer pipe to be connected to each other The other nut hole 13 which has is formed.

In addition, the inner diameter portion of the one nut 7 is fitted with the first pressure ring 14 having the same inner diameter as the one nut through hole 11, and the other nut hole 13 is inserted into the inner diameter portion of the other nut 9. The other first pressure ring 15 having an inner diameter substantially equal to) is fitted, and the inner diameter of the one side nut 7 is substantially the same as the one nut hole 11 in the inner side of the first pressure ring 14. The second pressure ring 16 having one side is fitted and the other side inside having the same inner diameter as the other nut hole 13 inside the other first pressure ring 15 of the inner diameter of the other nut 9. The pressure ring 17 is fitted, and the outer circumference of the first pressure ring 14 on one side of the first outer inclined portion having an outer diameter gradually wider toward the side away from the second pressure ring 16 on the one side ( 18) and the outer diameter of the first pressure ring 15 on the other side can go toward the other side away from the second pressure ring 17 on the other side The first outer inclined portion 19 is formed to be wider and wider, and the outer diameter of the second pressure ring 16 is wider and wider as the outer diameter is further away from the connecting pipe 1. At the same time, the inclination angle is one side of the second external inclined portion 20 having the same or gentler inclination angle of the one side of the tube inclined portion 4 formed on the connection pipe or a gentler inclination angle, and the outside of the second pressure ring 17 on the other side. In the circumference, the outer diameter becomes wider and wider toward the side away from the connecting pipe 1, and the inclination angle is the other side having the same or gentler inclination angle as that of the other connecting pipe inclined part 5 formed in the connecting pipe 1. A second outer inclined portion 21 is formed, and the inner diameter of the one side of the second pressing ring 16 is wider and wider toward the direction away from the connecting pipe 1, and the inclination angle is one side of the first outer side. Angle of inclination of the inclined portion 18 While one inner inclined portion 22 having the same or gentler inclination angle is formed and the inner circumference of the second pressure ring 17 on the other side, its inner diameter becomes wider and wider toward the side away from the connecting pipe 1. The inclination angle is formed with the other inner inclined portion 23 having the same or more gentle inclination angle than the inclination angle of the other first external inclined portion 19, and the one side of the first pressing ring 14 has one side cut off. While the connection part 24 is formed, the other side cut-out part 25 is formed in a part of the other side 1st press ring 15. Here, the cutouts 24 and 25 formed in the first pressing rings 14 and 15 preferably have a predetermined inclination angle. Meanwhile, second external inclined portions 98 and 99 are formed in the first pressing rings 14 and 15 in the opposite directions to the first external inclined portions 18 and 19, respectively. 98 and 99, the inclination angle is preferably equal to or greater than the inclination of one nut step 10 and the other nut step 12 formed on one side and the other side.

The process of connecting two different fluid transport tubes in the longitudinal direction by using the apparatus of the present invention configured as described above will be described in detail.

A heat nut tube 1 is positioned between two fluid transfer tubes to be connected, and then a nut nut hole 11 formed at one nut 7 as an end of a connection portion of one of the two fluid transfer tubes is connected to the fluid transfer tube. The other nut (9) is inserted through the other nut through hole (13) formed in the other nut (9) to the end of the connection portion of the other fluid transport pipe and the other nut (7) through.

Subsequently, one side of the first pressure ring 14 and one side of the second pressure ring 16 are inserted into the ends of the connection portion of the one side fluid transfer pipe, and the other first pressure ring 15 and the second pressure ring 17 on the other side. Is inserted into the end of the connection portion of the other fluid transfer pipe, wherein the one side of the first pressure ring (14) so that the wide outer diameter side of one side first external inclined portion (18) toward one nut (7) side. In addition, the other side first pressing ring 15 has a wider outer diameter side of the other first outer inclined portion 19 toward the other nut 9, and the one side second pressing ring 16 is one side second. The wide outer diameter side of the pressure ring faces one side of the first pressure ring 14, and the second side pressure ring 17 has a wider outer diameter side of the other side of the second pressure ring. Face it.

In this way, after the one side nut (7), the one side first pressure ring (14) and the one side second pressure ring (16) are sequentially inserted into the end of the connection portion of the one side of the fluid transfer pipe, then the connection tube (1) One side of the female thread (6) formed on the inner diameter portion of the one side nut (7) and one male thread (2) formed on the one outer diameter portion of the connecting pipe (1) to make a light initial contact, the other fluid transfer After the other nut (9), the other first pressure ring (15) and the other second pressure ring (17) are sequentially inserted into the end of the connecting portion of the pipe, the other nut is then inserted by inserting the other side of the connection pipe (1). The other female screw thread 8 formed in the inner diameter part of (9) and the other male thread thread 3 formed in the other outer diameter part of the connection pipe 1 are made to make light initial contact, and this state is FIG. 6A.

As shown in FIG. 6A, one side of the first pressure ring 14 and one side of the first pressure ring 14 and one side of the female thread 6 formed on the one side nut 7 and the one side of the male thread 2 formed on the connecting pipe 1 are initially in light contact state. The pressure ring 16 surrounds the outer diameter of the one side fluid transfer pipe at the inner diameter of the one nut 7, and is connected to the other female thread 8 and the connection pipe 1 formed at the other nut 9. In the state in which the other male thread (3) formed is initially in light contact, the other first pressure ring (15) and the other second pressure ring (17) are positioned at the inner diameter of the other nut (9), so that It surrounds the outer diameter.

On the other hand, when the operator rotates the one side nut (7) in the tightening direction in the state as shown in Figure 6a, one female thread (6) formed on the one nut and one male thread (2) formed on the connecting pipe (1) is screwed together. While one side of the nut (7) is to push the first pressure ring 14 and one side of the second pressure ring (16) strongly toward the connecting pipe (1) at the same time the rotation of the tightening direction of the one nut (7) is completed In the axial contact force of the one side nut (7) and one side first pressure ring 14 and the axial contact force of the one side first pressure ring (14) and one side second pressure ring (16) and the one side second pressure ring ( 16) and the axial contact force between the connecting pipe 1 is very strong, and when the other nut 9 is rotated in the tightening direction, the other female thread formed on the other nut 8 and the other male thread formed on the connector 1 (3) is screwed together and the other nut (9) is the other first pressure ring (15) and the other side Since the pressing ring 17 is pushed strongly toward the connecting pipe 1 at the same time, the axial contact force between the other nut 9 and the other first pressing ring 15 is completed when the tightening direction of the other nut 9 is completed. And the axial contact force between the other first pressure ring 15 and the other second pressure ring 17 and the axial contact force between the other second pressure ring 17 and the connecting pipe 1 are very strong. The state is FIG. 6B.

6B is a state in which two fluid transfer connectors are connected to each other in the longitudinal direction by the apparatus of the present invention, and one end portion of the connection portion of one fluid transfer tube is fitted at one side to an inner circumference of the connector 1. The end portion of the connecting portion of the one side of the fluid transport pipe is fitted on the inner side of the connecting pipe (1) on the other side so that the opposite ends are close to each other, in this case the second pressure is strongly pushed toward the connecting pipe (1) One side second external inclined portion 20 of the ring 16 is fitted into one side tube inclined portion 4 formed at the outer end of one inner diameter portion of the connecting pipe 1 and one side second pressing ring 16. The first outer inclined portion 18 of one side of the first pressure ring 14 on one side is pushed into the one inner inclined portion 22 of the second pressure ring 16 on the side, and toward the connecting pipe 1. The second external inclined portion of the other side of the second pressure pressing ring 17 that is pushed strongly (21) is fitted into the other connecting tube inclined portion (5) formed at the outer end of the other inner diameter portion of the connecting pipe (1) and the other first pressure ring (15) strongly pushed toward the other second pressure ring (17) The other first external inclined portion 19 is fitted into the other internal inclined portion 23 of the second second pressing ring 17.

On the other hand, when the one side second external inclined portion 20 formed on one side of the second pressing ring 16 is fitted to the one side tube inclined portion 4 formed on one side of the inner diameter portion of the connecting pipe 1, the one second external inclined portion As the part 20 has a shape in which the outer diameter becomes wider toward the side away from the connecting pipe 1, the inclination angle is the same as or more gentle to the inclination angle of the one connecting pipe inclined part 4, and thus the one side agent Since the portion of the pressure ring 16 fitted into the one-side connecting tube inclined portion 4 of the connecting pipe 1 is guided along the inclined surface of the one-side connecting tube inclined portion, the connecting tube 1 of the second pressing ring 16 on the one side The inner diameter portion of the side pressurizes the one side fluid transfer pipe to the circumferential center, and the one side first external inclined portion 18 of the one side first pressure ring 14 is formed on the one side second pressure ring 16. In the state fitted to the inclined portion 22, the one side inclined portion The inclined angle has a shape that is gradually wider and farther away from the connecting pipe (1), the inclination angle is equal to or less gentle than the inclination angle of the first external inclined portion (18), so that the one side first pressing ring ( 14, the inner portion of the first pressing ring 14 is evenly distributed on one side of the first pressing ring 14 because the portion of the second pressing ring 16 inserted into the one side inner inclined portion 22 is guided along the inclined surface of the one inner inclined portion. The inner side of the first pressure ring 14 is pressurized to the circumferential center of the fluid transfer pipe, and the one side cutout 24 is formed in the first pressure ring 14 on the one side. The reduction occurs more reliably so that the entire inner diameter portion of one side first pressure ring 14 and the entire inner diameter portion of one side second pressure ring 16 are tightly pressurized while being tightly pressed against the one side fluid transfer tube, which As the first and second pressure rings 14 and 16 are pressurized toward the connecting pipe 1 by screwing one nut 7, the inner diameter of the first pressure ring 14 and the second pressure are applied. The inner diameter of the ring 16 is possible because it is intended to decrease closer to the circumferential center, which is a direction orthogonal to the longitudinal direction of the one-side fluid transport tube.

In addition, in the state where the other second external inclined portion 21 formed on the other second pressure ring 17 is fitted into the other connection tube inclined portion 5 formed on the other side of the inner diameter portion of the connection pipe 1, the other second external inclined portion (21) has a form in which the outer diameter becomes wider toward the farther away from the connecting pipe (1) while the inclination angle is the same as or more gentle to the inclination angle of the other connecting pipe inclined portion (5), the other side second Since the portion of the pressure ring 17 fitted into the other connector pipe inclined part 5 of the connecting pipe 1 is guided along the inclined surface of the other connector pipe inclined part, the inner diameter of the second pressure ring 17 is transferred to the other fluid. The tube is pressurized to the circumferential center, and the other first external inclined portion 19 of the other first pressure ring 15 is fitted into the other internal inclined portion 23 formed in the second second pressure ring 17. In the state that the inner diameter of the other internal inclined portion is the connecting pipe (1) As the inclination angle is wider toward the farther side and the inclination angle is the same as or more gentle to the inclination angle of the other first external inclined portion 19, the other side of the other first pressing ring 15 Since the part fitted into the other inner inclined portion 23 of the pressure ring 17 is guided along the inclined surface of the other inner inclined portion, the inner diameter of the other first pressure ring 15 circumscribes the entire fluid transfer pipe evenly. The other side cutout portion 25 is formed in the other first pressing ring 15 so that the inner diameter portion of the other first pressing ring 15 is reduced more reliably due to the other cutout portion. As a result, the entire inner diameter portion of the other first pressure ring 15 and the entire inner diameter portion of the other second pressure ring 17 are hermetically contacted while being strongly pressurized to the other fluid transport pipe, which is the other side first and second pressures. The inner diameter of the other first pressure ring 15 and the inner diameter of the other second pressure ring 17 are different from each other when the pressure is increased toward the connecting pipe 1 by screwing the other nut 9. This is possible because it is intended to decrease closer to the circumferential center, which is a direction orthogonal to the longitudinal direction of the fluid transport tube. Furthermore, the one side and the other side of the nut step 10 and the other nut step 12 formed on one side and the other side 12, one side of the second external inclined portion 98 and the other side of the first pressure ring (14). The second external inclined portion 99 is in contact with each other, and the inclination of the nut steps 10 and 12 is inclined with the inclination angles of the second external inclined portions 98 and 99 of the first pressing rings 14 and 15. If it is the same or gentler, we find that the tightness is better.

Therefore, the apparatus of the present invention may be used by connecting a plurality of fluid transport tubes as necessary through the same process as connecting two fluid transport tubes in the longitudinal direction.

Meanwhile, in the present invention, one side first pressure ring 14 and one side second pressure ring 16 and the other side first pressure ring 15 and the other side second pressure ring 17, and a connecting pipe 1 and one nut ( 7) and the other side of the nut (9) need not be particularly limited, but the use of engineering plastics (Engineering Plastics) rather than metal materials or general plastics will be advantageous in many ways, the engineering plastics compared to the general plastic, heat resistance, high strength, Since it is excellent in abrasion resistance and chemical resistance, it can be understood that it can be used without degrading performance for a long time.

Accordingly, the molding material of one side first pressure ring 14 and one side second pressure ring 16, the other side first pressure ring 15, and the other side second pressure ring 17, which is a component of the apparatus of the present invention, is made of engineering plastic. In the used state, even when an external impact is applied when the fluid transfer pipe connected by the device of the present invention is not easily damaged, it does not corrode even when the transport fluid is chemically strong. It can be used without degradation.

Therefore, the connecting device of the fluid conveying pipe of the present invention is one side of the first pressure ring and one side of the second pressure ring that acts as a packing in the connection pipe when screwing one side of the nut to one side of the connection pipe. The inclination angle of one side second external inclined portion of the connector is the same as or more gentle than the inclination angle of one side of the tube inclined portion of the connecting pipe, and the inclination angle of one side of the first external inclined portion of the first pressure ring on one side and the second pressure ring of one side The inclination angle of one side of the inner inclined portion of the same or a gentler angle of inclination, and the one side of the first pressing ring is formed with one cutout as well as when connecting the other nut to the other side of the connection pipe The inclination angle of the other second external inclined portion of the second second pressure ring of the other first pressure ring and the other second pressure ring serving as a packing in the inclination angle of the other connection pipe inclination portion of the connection pipe The inclination angle is the same as or more gentle, and the inclination angle of the other first external inclined portion of the other first pressing ring and the inclination angle of the other internal inclined portion of the other second pressing ring are the same or more gentle. As the other first pressing ring is formed with the other side cutout, the diameter contraction force of the first first pressure ring and the second second pressure ring is increased, and the contact area with the one side fluid transfer tube is widened and the other side. As the diameter contraction force of the first pressure ring and the second pressure ring increases, the contact area with the other fluid transfer pipe also increases, and eventually leaks to the outside in the process of transferring the fluid after the connection is completed due to the improvement of the sealing force. This has almost no effect.

In addition, when the fluid transport pipe is connected by the present invention, the inner diameter of the fluid transport pipe is not bent and is smooth, so that the transport is very smooth when the fluid is transported in the subsequent use process, and thus the fluid transport pipe It does not occur due to the increase in internal pressure of the safety accident (the connection part is separated or the specific part breakage of the fluid transfer pipe) is also prevented in advance.

Claims (3)

One side male thread is formed on one side of the outer circumferential surface, and the other side is provided with a connection tube formed with the other male thread. On one side of the male thread formed in the connection tube, one nut is screwed by one female thread formed on the inner circumferential surface thereof. The other nut is screwed to the other male thread by the other female thread formed on the inner circumferential surface thereof, and the inner nut of the one nut is wrapped on one side of the fluid transfer pipe to be connected to the one nut on one side of the connecting pipe. When the screw is tightened, the first pressure ring and the second pressure ring on one side are installed to act as a sealing material while being strongly pressurized to the connection pipe and the one side of the fluid transfer pipe, and the other fluid transfer pipe to be connected to the inner diameter of the other nut. If the other nut is screwed on the other side of the connecting pipe while wrapped, the connecting pipe and the other fluid transport pipe In the other sealing material being strongly to act as the first pressure as the pressure ring and the other end a second pressure ring is provided, One end of the connecting tube inclined portion is formed in one end of the inner peripheral surface of the inner diameter is getting larger toward the outside from the inside, and the other end of the inner peripheral surface of the form of the inner diameter becomes larger toward the outside The other side of the tube inclined portion is formed, the outer periphery of the one side of the first pressure ring is formed with the outer side of the first outer inclined portion is formed in a wider direction toward the far side away from the one side of the second pressure ring and the other side of the first pressure ring In the outer circumference of the outer diameter is formed toward the further side toward the farther away from the second pressure ring, the other first outer inclined portion is formed, the outer circumference of the one side of the second pressure ring toward the farther away from the connector The angle of inclination is wider and wider than the angle of inclination of one side of the tube inclined portion formed in the tube. The second outer inclined portion having a gentle inclination angle is formed and the outer periphery of the other second pressing ring has an outer diameter that becomes wider and wider toward the side away from the connecting tube, and the inclination angle is the other inclined connector formed on the connecting tube. The second outer inclined portion having the same or gentler inclination angle of the other side is formed, and the inner circumference of the one side of the second pressing ring is wider and wider toward the side away from the connecting pipe while the inclination angle is one side The inner side of the second pressure ring is formed with one inner inclined portion having the same or gentler inclination angle with the first outer inclined portion, and the inner diameter of the second second pressing ring becomes wider and wider as it goes away from the connecting pipe. The other internal inclined portion having the same or gentler inclination angle as that of the other first external inclined portion. And forming the one side the first pressure ring has the side cut-out portion is formed and the other first pressure ring has a connection pipe for fluid transportation device, it characterized in that the other end portion thereof formed with a cut-out in the. The method of claim 1, The first pressure ring and one side second pressure ring, the other first pressure ring and the other second pressure ring, and the connecting pipe, one nut and the other nut is made of engineering plastics. Connector. The inclination of one side nut step and the other side nut step formed on one side and the other side is equal to the inclination angles of one side second external inclined portion and the second side external inclined portion of the first pressure ring and the other side first pressure ring. Connection device for a fluid transport pipe, characterized in that more or less gentle.