KR102259022B1 - Piping airtight device - Google Patents

Abstract

The present invention has a cylindrical hollow shape and constitutes a first part 11 circumscribed or inscribed with the pipe 26 and a second part 15 circumscribed or inscribed with the first part 11 in a cylindrical shape, and the first part Between (11) and the second portion 15, the inclined portion 23 having an inclination angle to prevent the retreat of the second portion 15 from the first portion 11 is configured to correspond to each other. That is, when the pipe airtight device is mounted on the pipe and the second part 15 is retracted from the pipe 26, the inclined part 23 of the first part 11 and the second part 15 is pushed to each other and the first part ( 11) is pressed and fixed in close contact with the pipe, and the second part 15 is no longer able to retreat from the limit line at the inclination angle.
Conventionally, when connecting or blocking the pipe, a lot of tools and time are required, such as making screws or welding, but by using the pipe sealing device of the present invention, the work can be easily performed. In addition, the fluid inlet part 43 is configured so that it is possible to easily perform a pipe tightness test for each section.

Description

Piping airtight device

The present invention relates to a pipe tightness device used for blocking the end of a pipe or connecting the end of a pipe with an adjacent pipe, and more particularly, to a pipe tightness device designed to facilitate pipe tight construction.

In general, sealing the pipe end or connecting the adjacent pipe to each other is performed by screwing or welding, but such pipe tight construction requires not only a lot of tools but also a lot of money and time. There was a problem being

An object of the present invention is to solve the above problems, and an object of the present invention is to provide a pipe sealing device that can easily block the end of a pipe or connect it with an adjacent pipe without a separate working tool.
An object of the present invention is to provide a pipe tightness device that enables an easy airtight test at any point even in a state where the airtight construction of the pipe is not completed.

The present invention relates to a device necessary for piping construction, in a piping airtight device installed at the end of a pipe, it has a cylindrical and hollow shape, an insertion hole 18 into which the pipe 26 can be inserted, and the pipe is outside. The first part 11 having an inclined portion 23 whose outer diameter gradually increases toward the end 29, is cylindrical and has a hollow shape, and the inner diameter gradually increases toward the pipe end 29 to correspond to the inclined portion 23 on the inside. It has an inclined portion 23 and has a second portion 15 having a blocking surface 32 formed on the end surface of the pipe end 29 side.

In addition, an elastic part 41 is formed between the pipe end 29 side so that the inclined part 23 of the first part 11 and the second part 15 is in contact.

In addition, the blocking surface 32 is made of a resilient material so that the presence or absence of pressure of the constructed pipe can be known.

In addition, the second part 15 constitutes a safety part on one side.

In addition, the first part 11 having a cylindrical shape and a hollow shape, the outer side is parallel to be inserted into the pipe 26, and has an inclined part 23 whose inner diameter at the pipe end side becomes smaller and smaller inside, in a cylindrical shape on the outside. It has a second portion 15 constituting the inclined portion 23 of which the outer diameter of the pipe end side is gradually smaller to correspond to the inclined portion 23 .

In addition, the second part 15 constitutes a fluid inlet part 43 on one side.

In addition, a stop part 37 for preventing over-entry is formed at the end of the first part 11 on the pipe end side.

In addition, the second part 15 constitutes a through hole 55 in the center and a fluid inlet portion 43 extending from the inlet of the pipe end side of the through hole 55 .

In addition, the first part 11, a cylindrical shape having a cylindrical and hollow shape, an insertion hole 18 into which the pipe 26 can be inserted, and an inclined part 23 whose outer diameter at the end of the pipe is gradually increased to the outside. and a second portion 15 having an inclined portion 23 whose inner diameter gradually increases toward the end of the pipe so as to correspond to the outer side of the first portion 11 on the inside in a hollow shape, and the second portion 15 in the longitudinal direction A symmetrical portion 57 configured on both sides to be symmetrical with each other, the symmetrical portion 57 configures the first portion 11 symmetrically on both sides of the second portion 15 , respectively.

In addition, a tightening portion 47 is formed on one side of the intermediate portion 45 .

In addition, the second part 15 constitutes an external tightening part 51 to the outside of the pipe center side.

In addition, an elastically deformable portion 19 is formed at one end of the first portion.

In addition, the first part 11, a cylindrical shape having a cylindrical and hollow shape, an insertion hole 18 into which the pipe 26 can be inserted, and an inclined part 23 whose outer diameter at the end of the pipe is gradually increased to the outside. and a second portion 15 having an inclined portion 23 whose inner diameter gradually increases toward the end of the pipe so as to correspond to the outer side of the first portion 11 on the inside in a hollow shape, and the second portion 15 in the longitudinal direction A series part 69 comprising one more of the serial parts 69, the serial part 69 constitutes the first part 11 on both sides of the second part 15 side by side, respectively, and the first part 11 and the second part ( 15), a tightening device is configured for close contact.

In addition, the first part 11 has an extension part 24 on the pipe center side.

In addition, the first portion 11 and the second portion 15 constitute a tightening portion 47 in order to be in close contact.

Further, the first portion 11 and the second portion 15 constitute an intermediate portion 45 therebetween.

In addition, the tightening device constitutes a traction tightening portion 61 on one end side of the serial portion 69 .

In addition, in order to connect pipes of different outer diameters, both diameters of the device may be configured differently.

The pipe sealing device of the present invention does not need to be formed by machining a thread at the end of the pipe, and it is possible to block the end of the pipe or connect it to an adjacent pipe without a welding process.

The pipe tightness device of the present invention can easily perform a tightness test in a required section even in a state where the pipe tightness construction is not completed.

The pipe airtight device of the present invention can easily perform a leak test even when constructing a drainage pipe with a pvc pipe, which has been difficult to test for leaks due to a large number of pores.

1 is a perspective view of a pipe sealing device according to an embodiment of the present invention.
2 is an exploded perspective view of the first part and the second part of the pipe sealing device.
3 is a cross-sectional view of the pipe sealing device and a front view of the blocking surface.
4 is a cross-sectional view of a pipe airtight device configured with a fluid inlet.
5 is a cross-sectional view of a pipe sealing device configured with an intermediate portion.
6 is a cross-sectional view of a pipe airtight device configured with an outer tightening unit.
7 is a cross-sectional view of a pipe sealing device configured with an elastically deformable portion.
8 is a perspective view and a cross-sectional view of a pipe sealing device according to the sixth embodiment.
9 is a perspective view and a cross-sectional view of a pipe hermetic apparatus configured with a fluid inlet and outlet according to a seventh embodiment.
10 is a perspective view and a cross-sectional view of a pipe hermetic device configured with an intermediate portion of the eighth embodiment.
11 is a cross-sectional view of a pipe hermetic device configured with an elastically deformable portion according to the ninth embodiment.
12 is a perspective view of a pipe sealing device according to the tenth embodiment.
13 is an exploded perspective view of a pipe sealing device according to the tenth embodiment.
Fig. 14 is a cross-sectional view of the pipe sealing device of the tenth embodiment.
Fig. 15 is a cross-sectional view of the pipe sealing device of the eleventh embodiment.
Fig. 16 is a perspective view of a pipe sealing device according to a twelfth embodiment.
Fig. 17 is a cross-sectional view of the pipe sealing device of the twelfth embodiment.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings.

However, the embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer description, and elements indicated by the same reference numerals in the drawings are the same elements.

The present invention relates to a device necessary for piping construction, and to a device that makes it easy to block the pipe or connect the pipe.

As a first embodiment, as shown in Figs. 1 to 3, the pipe sealing device has a cylindrical hollow shape, an insertion hole 18 into which a pipe 26 can be inserted, and a pipe end 29 to the outside. ) side of the pipe end ( 11 ) having an inclined portion ( 23 ) whose outer diameter gradually increases, and a cylindrical and hollow shape on the inside to correspond to the inclined portion ( 23 ) of the first portion ( 11 ). 29) has an inclined portion 23 with a gradually increasing inner diameter, and has a second portion 15 having a blocking surface 32 formed on the end surface of the pipe end 29 side.

The inclined portion 23 has a small angle so that the frictional force between the first portion 11 and the pipe 26 is greater than the kinetic force generated by the pressure applied to the blocking surface 32 of the second portion 15 . consist of The blocking surface 32 of the second part 15 may be configured to have anti-elasticity so as to know whether pressure is applied to the pipe, and a safety part may be configured to relieve the pressure when excessive pressure is applied. In addition, the first part 11 may constitute a cylindrical extension part 24 parallel to the central direction of the pipe to facilitate the removal of the device. 3 shows that the safety part 35 is configured in the form of a half incision on the blocking surface 32 . The first part 11 and the second part 15 so that the inclined part 23 of the first part 11 and the second part 15 is always in contact with each other in order to prevent the initial pressure leakage when the fluid pressure is applied to the pipe. ) may constitute an elastic part 41 between the pipe end 29 side. A stop part 37 for preventing the first part 11 from entering the pipe end 29 side of the first part 11 may be configured. The pipe end side expressed here refers to the direction in which the end of the pipe is placed when the pipe sealing device is installed, and the pipe center side refers to the direction toward the center of the pipe when the pipe sealing device is installed. When the inclined part 23 is in full and uniform contact, the first part 11 and the second part 15 are integrated and can move together when a force is applied. In order to prevent this, the inclined part 23 is configured in various forms. can do. The inclined portion 23 may be constituted only by the first portion 11 and the second portion 15 may be constituted by the protrusion, or the inclined portion 23 may be constituted only by the second portion 15 and the first portion 11 . may be configured only with the protrusion, and the slope may be configured only in a linear short section, may be non-linear, and may be configured in various shapes as needed, which corresponds to all slopes of the present invention.

In the present invention, it should be understood in the sense that the same name can be used if the same role is performed even if the form is different.

When explaining the above embodiment in detail, in order to block one end of the pipe 26, the first part 11 and the second part 15 are combined and inserted into one end of the pipe through the insertion hole 18, and When pressure is applied from the other end side, the pressure pushes the blocking surface 32 of the second part 15, and then the second part 15 is pushed out and presses the inclined part 23 of the first part 11, Since the first part 11 receives more force in the lateral direction than the force in the longitudinal direction, the first part 11 remains stationary in place and the second part 15 moves slightly along the inclined part 23 . It is stopped at the escape threshold by the angle of inclination.

As a second embodiment, as shown in FIG. 4 , a fluid inlet part 43 is configured on one side of the pipe end side of the second part 15 so that it can be connected to a pressurizer or a pressure gauge for the airtight test of the pipe.

In detail, a hole is made in the blocking surface 32 of the second part 15 to form a fluid inlet part 43 extending vertically so that pressure can be applied to the piping cycle or pressure can be detected through this. .

As a third embodiment, an intermediate part 45 is formed between the first part 11 and the second part 15 as shown in FIG. 5 . In order to have a greater frictional force against the pipe 26 of the first part 11 by the inclined part 23 than the escape force of the second part 15 by the pressure, the inclination angle should be small. In this case, the second part 15 and The first part 11 is severely pinched and it is difficult to restore it back to its original state. In order to solve this problem, a cylindrical and hollow intermediate portion 45 is formed between the first portion 11 and the second portion 15, and the inclined portion 23 of the intermediate portion 45 is higher than the inner inclination angle. Makes the angle of inclination of the outside large. The inner inclined portion 23 of the intermediate portion 45 is configured to correspond to the outer inclined portion 23 of the first portion 11 , and the outer inclined portion 23 is the inner inclined portion of the second portion 15 . It is configured to conform to (23). The middle part 45 may be made of a material having elasticity.

A cylindrical extension portion parallel to the pipe center side of the intermediate portion 45 may be configured, or a tightening portion 47 may be configured in the extension portion. The fastener (47) is rotatable and has a fastener (48) that is advanced and retracted by screwing.

In detail, the pipe airtight device is mounted on the end of the pipe and the fastener 48 of the fastener 47 is tightened so that the middle part 45 is in close contact with the second part 15 as much as possible and can enter the pipe center side. let there be In order to mount the device to the pipe 26 , fluidity such as free space and elasticity was required between the first part 11 , the middle part 45 , and the second part 15 . This means that when the second part 15 is subjected to pressure, it retreats as much as fluidity, and since the smaller the width of the retreat, the better, the tightening part 47 can be configured to reduce fluidity. One side of the middle portion 45 on which the tightening portion 47 is configured may be made of a material having no elasticity. The middle part 45 may be configured in multiples. When the pressure in the pipe is released and the device is recovered, the inclination angle between the second part 15 and the middle part 45 is large, so that the second part 15 is easily separated from the middle part 45 and the middle part 45 is It can be easily detached from the first part 11 by expanding due to its elasticity.

As a fourth embodiment, as shown in FIG. 6 , an external tightening part 51 is formed on the outside of the pipe center side of the second part 15 . The external fastener 51 is rotatable and has an external fastener 53 that advances and retreats by screwing. The external fastener 53 of the external fastener 51 has an inclined portion coupled to the second part 15 and presses the second part 15 according to the depth of the coupling. One side of the external tightening part of the second part 15 may be made of a material having elasticity.

In detail, the second part 15 is reduced by mounting the pipe airtight device to the pipe 26 and tightening the external fastener 53 to bring the second part 15 into close contact with the first part 11 . Then, when pressure is applied, the width of the retraction of the second part 15 can be reduced, and when returning the device to its original state after completing the airtight test, it is easy to loosen the external tightening part 51 and return the second part 15 to its original state. The second part 15 may be separated from the first part 11 .

As a fifth embodiment, as shown in FIG. 7 , an elastically deformable part 19 is configured at one end of the pipe end side of the first part so that the airtightness is completed in the first part. The elastically deformable 19 part is made of a material with high elasticity and is in surface contact with the second part, and expansion is limited. In this way, the interface between the first part and the second part is freed from airtightness and may be composed of an inelastic material. The first part and the elastically deformable part 19 may be integrally configured or may be configured as a separate type.

In detail, when pressure is applied from the other end of the pipe, pressure is applied to the elastically deformable part that extends from one side of the penetrating first part and blocks one side of the first part. will stop Then, the interface of the first part and the second part is free from airtightness and may be made of a material with less elasticity, which provides ease of removal of the device.

As a sixth embodiment, as shown in FIG. 8, a pipe airtight device is configured inside the pipe 26. It has a cylindrical shape and a hollow shape on the outside, parallel to the outside, and an inclined part 23 with a diameter gradually decreasing toward the end of the pipe. ), and the outer diameter toward the end of the pipe is located inside the first portion 11 and has a cylindrical outer diameter to correspond to the inner inclined portion 23 of the first portion 11. It is a piping airtight device which has the 2nd part 15 which comprises the inclination part 23 which gradually becomes smaller.

And by configuring the stop part 37 at the end of the pipe end side of the first part 11 to prevent the device from entering the pipe 26 excessively. By configuring the tightening part 47 in the second part 15 , it is possible to prevent the device mounted on the pipe 26 from falling off and to prevent the second part 15 from falling into the pipe 26 .

As the seventh embodiment, as shown in FIG. 9 , it is substantially the same as the sixth embodiment, and constitutes a through hole 55 in the center of the second part 15 , and the inlet of the through hole 55 at the end of the pipe. to configure the fluid inlet (43). The through hole 55 enables the flow of the fluid, and the fluid inlet 43 allows the pressure to be increased or decreased or detected.

As an eighth embodiment, as shown in FIG. 10 , an intermediate part 45 is formed between the first part 11 and the second part 15 in the pipe airtight device inserted into the pipe 26 . In order for the frictional force of the first part 11 by the inclined part 23 to be greater than the escape force of the second part 15 by the pressure, the inclination angle should be small. In this case, the second part 15 and the first part (11) is severely pinched and it is difficult to restore it back to its original state. In order to solve this problem, a cylindrical and hollow intermediate portion 45 is formed between the first portion 11 and the second portion 15, and the inclined portion 23 of the intermediate portion 45 is higher than the outside inclination angle. Makes the angle of inclination of the inside large. The outer inclined portion 23 of the intermediate portion 45 is configured to correspond to the inner inclined portion 23 of the first portion 11 , and the inner inclined portion 23 is the outer inclined portion of the second portion 15 . It is configured to conform to (23). The middle part 45 may be made of a material having elasticity. When the pressure in the pipe is released and the device is recovered, the inclination angle between the second part 15 and the middle part 45 is large, so that the second part 15 is easily separated from the middle part 45 and the middle part 45 is Since there is elasticity, it can be easily separated from the first part 11 .

And the tightening part 47 is comprised in the intermediate part 45. A pipe airtight device is mounted on the end of the pipe and the tightening part 47 is tightened so that the middle part 45 is in close contact with the second part 15 as much as possible. The middle part 45 may be configured in multiples.

As a ninth embodiment, as shown in FIG. 11, a highly elastic elastically deformable part 19 is formed at one end of the first part on the central side of the pipe. Then, the airtightness is completed in the first part, and the elastically deformable part is in surface contact with the second part and the first part, and expansion is limited. In this way, the interface between the first part and the second part is freed from airtightness and may be composed of an inelastic material.

As a tenth embodiment, as shown in FIGS. 12 to 14, the pipe airtight device is cylindrical and hollow, and there is an insertion hole 18 of a parallel shape into which the pipe 26 can be inserted, and the pipe end side on the outside. The first part 11 having an inclined portion 23 whose outer diameter gradually increases, the inner diameter of the pipe end side corresponding to the inclined portion 23 of the first portion 11 in a cylindrical and hollow shape on the inside is gradually increased. A second portion 15, a symmetrical portion 57 constituting the second portion 15 on both sides symmetrically in the longitudinal direction, and the first portion 11 on both sides of the symmetrical portion 57 ( 15) is configured on both sides symmetrically in the longitudinal direction so that it can be linked.

A tightening part may be configured to make the first part 11 and the second part 15 close together. The fastener (47) is rotatable and has a fastener (48) which is advanced and retracted by screwing. The first part 11 may be made of a material having elasticity. The tightening part 47 side of the first part 11 may be made of a material having no elasticity.

In detail, in order to mount the device to the pipe, the pipe is inserted into the insertion hole 18 of the first part 11 and the fastener 48 of the fastener 47 is rotated to rotate the first part 11 and the second part ( When 15) is pressed, the second part 15 is pushed and the first part 11 is pressed by the inclined part 23 to be in close contact with the pipe, and the second part 15 is also stopped at the retraction limit point. In this way, when the work of both sides of the pipe sealing device is completed, the airtightness of the pipe is maintained and the pipe is also fixed.

An intermediate part 45 may be formed between the first part 11 and the second part 15 .

In order to connect pipes of different outer diameters, both diameters of the device may be configured differently.

As the eleventh embodiment, much the same as the tenth embodiment as shown in FIG. 15 , and an external tightening part 51 is formed on the outer side of the end side of the second part 15 . The external fastener 51 is rotatable and has an external fastener 53 that advances and retreats by screwing. The external fastener 53 of the external fastener 51 has an inclined portion coupled to the second part 15 and presses the second part 15 according to the depth of the coupling. One side of the second part 15 on the side of the external tightening part 51 may be made of a material having elasticity.

In detail, if both sides of the pipe are fixed, insert the pipe on both sides of the pipe tightness device and rotate both fasteners 48 together so that the first part 11 comes with the second part 15 without moving forward or backward. The first part 11 and the second part 15 are brought into close contact as much as possible. And by rotating the external fastener 53 to reduce the second part 15 to complete the airtightness of the pipe.
As the twelfth embodiment, it is partially identical to the tenth embodiment as shown in FIGS. 16 and 17 . The pipe airtight device of this embodiment for airtightly connecting the ends of the mutually adjacent pipes is provided with a first part at the end of the first pipe and the end of the second pipe, respectively, the outer diameter of the end of the first pipe is enlarged toward the end of the pipe, the inclined surface At the ends of the provided first part 11 and the second pipe, the first part 11 having an inclined surface by reducing the outer diameter toward the pipe end is provided, respectively, and at the rear end of the first part 11, respectively It is provided with a tightening part and a traction tightening part that are male threads, and a fastener 48 and a traction fastener 63 that are fastened correspondingly thereto.
A second portion 15 having two inclined surfaces formed in the same direction on an inner circumferential surface so as to surround the inclined surfaces of the first portion 11 disposed on the two adjacent pipes, respectively, wherein the second portion 15 includes The inclined surface 23 formed to be spaced apart from the inner surface is integrally formed by the connecting portion 57 .

The pipe sealing device of this embodiment constitutes a tightening device at the end of the first part 11 provided at each end of the adjacent pipe. That is, the tightening device may include a tightening part 47 at one end of the first part 11 and a traction tightening part 61 at the other end of the first part 11 . The fastener 47 is rotatable and has a fastener 48 that is advanced and retracted by screwing, and the traction fastener 61 is rotatable and has a traction fastener 63 that is rotatable and advances and retreats by screwing, wherein the traction fastener (63) is provided with a locking member 67 coupled to the projection 65 provided on one side of the second part.

In detail, since the tightening part 47 and the traction tightening part 61 push the second part 15 in the same direction, it can be said that it is a preferable method that can be used when the pipes on both sides are fixed. Since both tightening parts 47 push and drag one body, it is preferable to alternately tighten little by little or tighten at the same time. The protruding member 65 and the locking member 67 of the traction tightening unit 61 allow for free rotation and towing, and the screw coupling allows to move forward and backward through rotation. One side tightening part 47 pushes the second part 15 by rotating the fastener 48, so that the one side first part 11a is in close contact with the one side pipe, and the traction fastener 61 is a traction fastener 63. As it rotates, the second part 15 is pulled, so that the other first part 11b is also in close contact with the other pipe.

11: Part 1 15: Part 2 18: Insertion port 19: Elastic deformation part 23: Inclined part 24: Extension part 26: Piping 29: Pipe end 32: Blocking surface 35: Safety part 37: Stop part 41: Elastic part 43: Fluid inlet 45: Middle part 47: Fastening part 48: Fastener 51: External fastener 53: External fastener 55: Through hole 57: Symmetrical part 61: Traction fastener 63: Traction fastener 65: Protrusion 67; Clamp 69: Series part

Claims (13)

In the pipe sealing device installed at the end of the pipe (26),
a first part 11 having a cylindrical hollow tube body into which the end of the pipe 26 can be inserted, and having an inclined part 23 that gradually expands in the direction of the end of the pipe into which the outer diameter of the outer circumferential surface is inserted;
A cylindrical hollow tube body inserted so as to surround the outer circumferential surface of the first part, the inner circumferential surface having an inclined portion 23 corresponding to the inclined portion 23 and gradually expanding the inner diameter in the direction of the end of the pipe, and a blocking surface ( 32) formed second portion 15;
A pipe sealing device comprising a. The method of claim 1,
An elastic part (41) is further provided between the end of the first part (11) and the second part (15) to prevent the initial pressure leakage when the fluid pressure is applied to the pipe (26).
delete The method of claim 1,
A pipe sealing device comprising an external tightening part (51) on the outside of the pipe center side of the second part (15). In the pipe sealing device installed at the end of the pipe (26),
A cylindrical hollow tube body capable of being inserted into the end of the pipe 26, the outer circumferential surface of which is in contact with the inner surface of the pipe, and the inner circumferential surface of the first part having an inclined portion 23 whose inner diameter is gradually reduced toward the end of the pipe ( 11);
Piping airtight having; a second portion 15 having an inclined portion 23 whose outer diameter is gradually reduced in the end direction of the pipe so as to be inscribed with the inner circumferential surface of the first portion 11 as a circular solid body Device. 6. The method of claim 1 or 5,
The second part 15 is a piping airtight device constituting the fluid inlet part 43 on one side. 6. The method of claim 1 or 5,
A piping airtight device constituting an intermediate portion (45) between the first portion (11) and the second portion (15). 6. The method of claim 1 or 5,
One end of the first part is formed to be wrapped by the elastically deformable part (19), so that airtightness is maintained, but the second part is in surface contact and expansion is limited. The method of claim 5,
The second part (15) is a pipe hermetic device constituting a through hole (55) in the center. In the pipe tightness device for connecting the ends of adjacent pipes to be airtight,
A pair of first portions 11 formed as a cylindrical hollow tube body and respectively installed at the ends of the adjacent pipes by having a pair of adjacent pipes 26 are respectively inserted into the inner circumferential surface and having an inclined section whose outer diameter is gradually enlarged in the opposite direction;
A cylindrical hollow tube body having a pair of inclined parts on the inner peripheral surface such that the inner diameter gradually enlarges in the opposite direction to correspond to the inclined part of the outer peripheral surface of the first part 11, and the second part 15 integrally formed by the connecting part 57 ;
Tightening portions 53 are provided on both ends of the second portion 15 to press the second portion 15 to the first portion 11 by the tightening action of the tightening portion 53. Device.
delete In the pipe tightness device for connecting the ends of adjacent pipes to be airtight,
A pair of first portions 11 formed as a cylindrical hollow tube body and respectively installed at the ends of the adjacent pipes by having a pair of adjacent pipes 26 are inserted into the inner circumferential surface, respectively, and having an inclined section whose outer diameter is gradually enlarged in one direction;
A second part 15 integrally formed by a connecting part 57, which is a cylindrical hollow tube body having a pair of inclined parts on the inner peripheral surface such that the inner diameter gradually enlarges in one direction to correspond to the inclined part of the outer peripheral surface of the first part 11;
A tightening device fastened to a screw portion provided at the rear end of the first portion 11 is provided, respectively,

The tightening device includes a tightening portion 47 at the rear end of one first portion 11 and a traction tightening portion 61 at the rear end of the other first portion 11, and the tightening portion 47 ) is rotatable and provided with a fastener 48 that advances and retreats by screwing, and the traction fastener 61 is rotatable and has a traction fastener 63 that is rotatable and advances and retreats by screwing,
The traction clamp (63) is a pipe sealing device having a lock (67) coupled to the protrusion (65) formed at one end of the second part.
delete

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