KR200454571Y1 - Piping connector - Google Patents

Abstract

The present invention relates to a pipe connector used for connecting the pipe, and more specifically, bolt fastening rods that are fastened with clamping bolts are installed at both ends of the cutout formed in the longitudinal direction at the upper end to face each other, and the slide part is fixed to one end of the cutout. It consists of a cylindrical tubular housing installed and a rubber sleeve inserted into the housing, the grip end and the reinforcement ring is inserted into the left end of the rubber sleeve and the balance ring is inserted into the right end, thereby connecting the pipe. When the left end is firmly fixed to the outer surface of the pipe, it can be prevented from being pushed in one direction by the expansion and contraction of the pipe, and the right end is firmly adhered to the outer surface of the pipe to facilitate the expansion and contraction of the pipe. Absorbs and expands and contracts pipes connected by plumbing connections, It relates to a dynamic, shock, connector of the pipe being able to maintain a robust and stable installation state, even if impact is applied in the constant internal and external conditions, such as bending.

Piping, connector, housing, rubber sleeve, clamping bolt, grip ring, reinforcing ring, balance ring

Description

Coupling for pipe arrangement

The present invention relates to a pipe connector used for connecting the pipe, and more specifically, bolt fastening rods that are fastened with clamping bolts are installed at both ends of the cutout formed in the longitudinal direction at the upper end to face each other, and the slide part is fixed to one end of the cutout. It consists of a cylindrical tubular housing installed and a rubber sleeve inserted into the housing, the grip end and the reinforcement ring is inserted into the left end of the rubber sleeve and the balance ring is inserted into the right end, thereby connecting the pipe. When the left end is firmly fixed to the outer surface of the pipe, it can be prevented from being pushed in one direction by the expansion and contraction of the pipe, and the right end is firmly adhered to the outer surface of the pipe to facilitate the expansion and contraction of the pipe. Absorbs and expands and contracts pipes connected by plumbing connections, It relates to a dynamic, shock, connector of the pipe being able to maintain a robust and stable installation state, even if impact is applied in the constant internal and external conditions, such as bending.

Pipe fittings generally called coupling (coupling) is designed to solve the problem of the pipe connection method by welding or flange coupling commonly used for connecting pipes.

As shown in FIGS. 1 and 2, a conventional pipe connector has a cylindrical tube shape in which the flanges 2a and 2b are bent inwardly at the left and right ends, respectively, and a longitudinal cut is formed at the upper end thereof. Fastening rod mounting portions 5 and 6 are formed on both sides of the cutout portion, and bolt fastening rods 3 and 4 to which the clamping bolts 7 are fastened, respectively. A housing (2) having a slide (8) having a flange (8a) (8b) bent inwardly at its right end and a housing (2) fixedly inserted into the housing (2) is formed in a cylindrical tube shape and has left and right ends. In the inner circumference of the sealed wings (10, 11) are provided with a grate 12 at the ends, respectively, and the grate (12) of the sealed wings (10) (11) are sealed wing (10) ( A plurality of communication grooves for communicating the pressurized spaces 13 and 14 respectively formed by 11 to the outside ( It consists of the rubber sleeve 9 in which 12a) was formed.

As shown in FIG. 3, the conventional pipe connecting connector configured as described above is connected to the end of the pipes 31 and 32 to be connected, and then the pipe connecting connector 30 is inserted and installed to fasten the housing 2. The clamping bolt (7) is fastened to the bolt fastening rods (3) and (4) respectively installed in the rod mounting portions (5) and (6) so that the housing (2) is tightened in the circumferential direction along the slide portion (8). The rubber sleeve 9 inserted into the inside of the c) is brought into close contact with the outer surfaces of the pipes 31 and 32 so that the rubber sleeve 9 can be easily installed.

As shown in FIG. 3, a pipe connecting connector provided between the end portions of the pipes 31 and 32 is discharged to the end of the fluid passing through the inside of the pipes 31 and 32, and thus the housing ( 2) flows into the rubber sleeve (9) inserted into the interior of the rubber sleeve (9), and then to the grate (12) of the sealing wing (10) (11) formed on the inner circumference of the left and right ends of the rubber sleeve (9). Through the communication groove (12a) formed to enter the pressure space (13, 14) to pressurize the sealing wing (10, 11) of the rubber sleeve 9, the sealing wing (10) of the rubber sleeve (9) As the 11 is tightly adhered to the outer surfaces of the pipes 31 and 32, not only can maintain a stable sealing state, but also the elasticity of the rubber sleeve 9 inserted into the housing 2 can be maintained. This makes it possible to easily absorb the expansion and contraction of the pipes 31 and 32.

However, the conventional pipe fittings configured as described above have fixed positions of the pipes 31 and 32 when the pipes 31 and 32 are affected by continuous internal and external conditions such as expansion, vibration, impact, bending, and the like. There was a problem that the leakage phenomenon occurs while being pushed slightly in one direction from the connecting portion.

In order to solve this problem, conventionally, a stopper was welded to the outer surface of the pipes 31 and 32 so as to be located at the left and right sides of the pipe connector 30, or a fixing band for preventing rolling was installed. The more time and effort required to reduce not only the workability is significantly lowered, but also when the stopper is welded to the outer surfaces of the pipes 31 and 32 where the painting is completed, the paint surface is damaged. In the case of installing the anti-rolling fixing band, two fixing bands should be additionally provided for each pipe connecting connector, thereby increasing the required cost.

Therefore, there is an urgent need for the development of piping connectors that can maintain a stable and stable installation even when the internal and external influences such as expansion, vibration, impact, bending, etc. are applied to the pipes connected by the piping connectors.

The present invention has been devised to solve the above problems, the bolt fastening rod for fastening the clamping bolt to the both ends of the incision formed in the longitudinal direction at the upper end is installed facing the cylindrical tube shape of the slide portion is fixed to one end of the incision Comprising a pipe connecting connector consisting of a housing and a rubber sleeve inserted into the housing, the grip end and the reinforcement ring is inserted into the left end of the rubber sleeve and the balance ring is inserted into the right end, so that when connecting the pipe The left end is firmly fixed to the outer side of the pipe to prevent it from being pushed in one direction by the expansion and contraction of the pipe, and the right end is firmly adhered to the outer side of the pipe to easily absorb the expansion and contraction of the pipe. Expansion, vibration, and filling of pipes connected by piping connections And that a technical problem which to maintain a robust and stable installation state, even if impact is applied in the constant internal and external conditions, such as bending.

The present invention for achieving the above technical problem is made of a cylindrical tube shape in which the flange is inwardly bent inwardly formed at the left and right ends, and the incision is formed in the longitudinal direction at the upper end, and the bolt is fastened to the outside of both sides of the cutout A fastening rod mounting part having a fastening rod inserted therein is formed, and a housing having a slide part fixedly formed inwardly bent in a left side and a right end end in one side end portion of the incision portion, and inserted into an inner side of the housing. Rubbers are formed in the inner circumferential portion of the left and right end portions, each of which has an airtight wing portion provided with an end portion, and a plurality of communication grooves that communicate with the outside the pressurized space portions formed by the airtight wing portion, respectively. In the connector for piping consisting of a sleeve, the rubber sleeve A conical ring seating surface is formed at the left end of the ring, and the ring seating surface is formed in a C-shaped ring shape which is curved in a conical shape, and a grip ring in which a pipe fixing part is formed around the inner end is seated, and the ring seating of the rubber sleeve. Between the surface and the grip ring, a reinforcing ring made of a C-shaped ring shape is formed and inserted into a conical curved shape, and a balance having a C-shaped ring shape is provided between the sealant blade formed on the right end of the rubber sleeve and the inner circumferential surface of the rubber sleeve. The ring is characterized in that the installation.

The pipe connector according to the present invention configured as described above can be prevented from being pushed in one direction by the expansion and contraction of the pipe as the left end is firmly fixed to the outer surface of the pipe when connecting the pipe, the right end As it is firmly adhered to the outer surface of the pipe, it can easily absorb the expansion and contraction of the pipe, so that the pipe connected by the pipe connector is firm even if the influence of continuous internal and external conditions such as expansion, vibration, impact, bending, etc. is applied. It is effective to maintain a stable installation state.

Hereinafter, the present invention for achieving the above object will be described in detail with reference to FIGS. 4A to 10.

4A and 4B are explanatory views showing one embodiment of the present invention, and FIGS. 5A and 5B are explanatory views showing this embodiment of the present invention, and FIGS. 6A and 6B are explanatory views showing three embodiments of the present invention. 7 is an explanatory view showing a true embodiment of the present invention, Figure 8 is an explanatory view showing a fifth embodiment of the present invention, Figures 9a and 9b is an explanatory view showing a six embodiment of the present invention, Figure 10 Is an explanatory diagram showing a seven embodiment of the present invention.

The pipe connector according to the present invention can be prevented from being pushed in one direction by the expansion and contraction of the pipe as the left end is firmly fixed to the outer surface of the pipe when connecting the pipe, the right end is the outer surface of the pipe As the tight contact makes it easy to absorb the expansion and contraction of the pipe, it maintains a solid and stable installation even under the influence of continuous internal and external conditions such as expansion, vibration, shock, bending, etc. It will be possible.

One embodiment of the connector for piping according to the present invention, as shown in Figures 4a and 4b, a circle (2a) (2b) is formed in each of the left and right ends inwardly bent inwardly and a longitudinal cut in the upper end A fastening rod installation part (5) (6) formed in a clearance shape and having bolt fastening rods (3) and (4) into which clamping bolts (7) are fastened is formed on both sides of the incision and is formed on one side of the incision. Inside the end portion, the housing 2 is fixed to the left and right end portions of the slide 8, the flanges 8a and 8b being bent inwardly, and is inserted into the housing 2 so as to have a cylindrical tube shape. On the inner circumference of the left and right ends, sealed wings 10 and 11 each having a grate 12 are formed at the ends thereof, and the grate 12 of the sealed wings 10 and 11 is respectively sealed. To communicate the outside with the pressurized spaces 13 and 14 respectively formed by the portions 10 and 11. Is composed of a rubber sleeve (9) formed with a plurality of communication grooves (12a), the left end of the rubber sleeve (9) is formed with a conical ring seating surface (9a), the ring seating surface (9a) in a conical shape A grip ring 15 having a curved C-shaped ring and having a pipe fixing part 15a formed around the inner end thereof is seated, and a ring seating surface 9a and a grip ring 15 of the rubber sleeve 9 are seated. Between the reinforcement ring 16 formed of a C-shaped ring shape formed to be curved in a conical shape is inserted, the grate 12 and the rubber sleeve (12) of the sealing wing (11) formed at the right end of the rubber sleeve (9) Between the inner circumferential surface of 9), a balance ring 17 having a C-shaped ring shape is inserted and installed.

At this time, the grip ring 15 is made of a C-shaped ring shape formed to be curved in a conical shape as shown in (a) of Figure 4a and the pipe fixing portion (15a) is formed around the inner end, the pipe When the clamping bolts 7 are fastened to the bolt fastening rods 3 and 4 respectively installed at the fastening rod mounting portions 5 and 6 of the housing 2, they are tightened in the circumferential direction to the outside of the pipe 31. Since it is bitten by the side, the left end of the pipe connector 1 is firmly fixed to the outer surface of the pipe 31 so as to prevent the pipe connector 1 from being pushed in one direction by the expansion and contraction of the pipe. do.

In addition, the reinforcing ring 16 has a C-shaped ring shape that is curved in a conical shape as shown in (a) of FIG. 4A and the ring seating surface 9a and the grip ring 15 of the rubber sleeve 9. ), Which is installed between the pipes and grips the left end of the pipe connector 1 securely to the outer surface of the pipe 31 under a high fluid pressure applied to the inside of the pipe connector 1 during pipe connection. The ring 15 serves to reinforce the strength of the grip ring 15 to maintain a firm fixed state without deformation.

In addition, the balancing ring 17 is formed in a C-shaped ring shape having the same width as the toothpick 12 formed at the ends of the closed wing parts 10 and 11 as shown in (b) of FIG. 4A. When connecting the clamping bolt (7) to the bolt fastening rods (3) (4) respectively installed on the fastening rod mounting portion (5) (6) of the housing (2) at the time of piping connection Prevents the end from being tightened relatively more than the left end of the pipe connector 1, in which the grip ring 15 and the reinforcing ring 16 are installed, so that the left and right clamping force can be balanced. The left and right ends of the rubber sleeve 9 inserted into (1) are uniformly adhered to the outer surfaces of the pipes 31 and 32 to serve to maintain a tight and stable sealing state.

According to one embodiment of the present invention configured as described above, the left end of the pipe connector 1 when the pipe connection is securely fixed to the outer surface of the pipe 31 by the grip ring 15 and the reinforcing ring 16 By the expansion and contraction of the pipe 31, 32 can be prevented from being pushed in one direction, the right end is firmly in close contact with the outer surface of the pipe 32 by the balance ring 17, the pipe Since the expansion and contraction of the (32) can be easily absorbed, the pipes (31) (32) connected by the piping connector (1) is robust even if the influence of continuous internal and external conditions such as expansion, vibration, impact, bending, etc. is applied And stable installation can be maintained.

This embodiment of the connector for piping according to the present invention is configured in the same manner as the configuration of the one embodiment, the gushing 12 and the rubber sleeve (9) of the sealing wing (11) formed on the right end of the rubber sleeve (9) Instead of the configuration in which the balance ring 17 having a C-shaped ring is inserted between the inner circumferential surfaces of the ring), ring inserting grooves (not shown) are formed on the outer peripheral surface of the right end of the rubber sleeve 9 as shown in FIGS. 5A and 5B. 9b) is formed, and the ring insertion groove 9b is configured such that a balancing ring 18 having a C-shaped ring shape is inserted and installed.

At this time, the ring insertion groove (9b) and the balance ring (18) is preferably formed to have a width as wide as the length of the closed wing portion 11 formed on the right end of the rubber sleeve (9).

According to this embodiment of the present invention configured as described above, it is possible to assemble the rubber sleeve 9 and the balance ring 18 more easily and easily at the time of assembling the pipe connector 1, thereby greatly improving the assembly workability. In addition, the balance ring 18 for balancing the right and left clamping force is installed on the outer circumferential surface of the right end of the rubber sleeve 9 so as to have the same width as the length of the sealing wing 11. Since the right end portion of the rubber sleeve 9 inserted into the connector 1 for the inside can be in close contact with the outer surface of the pipe 32 over a larger area, it is possible to maintain a more firm and stable sealed state.

The third embodiment of the connector for piping according to the present invention is configured in the same manner as the configuration of the embodiment or this embodiment, as shown in Figure 6a and 6b, the flange (2a) and the grip ring of the housing (2) It is characterized in that the fixing force reinforcing ring 19 of the C-shaped ring shape between the (15) is inserted and installed.

At this time, as the fixing force reinforcing ring 19, as shown in Fig. 6a, it is preferable to use a wire having a circular cross section like a wire.

According to the third embodiment of the present invention configured as described above, the high pressure introduced into the pressurized space 13 to pressurize the sealed wing 10 of the rubber sleeve 9 as shown in FIG. When a force is applied to the grip ring 15 while the left end of the rubber sleeve 9 is expanded by the fluid of the fluid, the conical curved grip ring 15 is connected to the flange 2a and the grip ring 15 of the housing 2. The upper end of the pipe connector 1 is further pinched on the outer surface of the pipe 31 by the lever effect having the clamping force reinforcing ring 19 inserted therebetween as a support point. By being able to fix more firmly, it is possible to more effectively prevent the pipe connector 1 from being pushed in one direction by the expansion and contraction of the pipe.

As shown in FIG. 7, a flange 2a and 2b are bent inwardly at the left and right ends thereof, respectively, and a longitudinal cutout is formed at the upper end of the pipe connector according to the present invention. Consisting rod mounting portion (5) (6) is formed in each of the two ends of the incision and the bolt fastening rod (3) (4) to which the clamping bolt (7) is fastened, respectively, the one end of the incision In the left and right ends, the flange 8a, 8b is formed in a cylindrical tube shape by being inserted into the housing (2) is fixed to the housing 8, the slide portion 8 is formed to be bent inwardly formed inside the housing (2) The sealed wings 10 and 11 are formed on the inner circumference of the right end, respectively, and the sealed wings 10 and 11 are formed on the inner circumferential surface of the left and right ends which the sealed wings 10 and 11 contact. In the pressing space 12 to form a pressure space 13, 14 is formed in each of the The grate 12 is composed of a rubber sleeve 9 formed with a plurality of communication grooves 12a for communicating the pressurized space portions 13 and 14 formed inside the sealing wings 13 and 14 with the outside. In the pipe connector, a conical ring seating surface 9a is formed at the left end of the rubber sleeve 9, and the ring seating surface 9a is formed in a C-shaped ring shape which is curved in a conical shape. A grip ring 15 having a pipe fixing part 15a formed thereon is seated, and a clamping force reinforcing ring 19 having a C-shaped ring shape is formed between the flange 2a of the housing 2 and the grip ring 15. The balance ring 17 is inserted into and installed between the sealing wing portion 11 formed at the right end of the rubber sleeve 9 and the toothing 12 formed at the inner circumferential surface of the right end of the rubber sleeve 9. ) Is configured to be inserted and installed.

In this case, the grip ring 15 and the balance ring 17 are the same as the grip ring and the balance ring used in the embodiment, and the fixing force reinforcing ring 19 is used in the third embodiment. Since the same as the fixing force strengthening ring is used, a detailed description thereof will be omitted.

According to the actual example of the present invention configured as described above, through the communication groove 12a of the gland 12 formed on the inner circumferential surface of the left and right ends of the rubber sleeve 9 as shown in FIG. As the sealing wing parts 10 and 11 of the rubber sleeve 9 are pressurized by the fluid introduced into the pressurizing spaces 13 and 14 to be more firmly adhered to the outer surfaces of the pipes 31 and 32. In addition to maintaining a more stable sealing state, when the left end of the rubber sleeve (9) is expanded by the high pressure fluid introduced into the pressure space 13, the force is applied to the grip ring 15 into a conical shape. The curved grip ring 15 is formed on the outer surface of the pipe 31 by a lever lever effect of using a fixed force reinforcing ring 19 inserted between the flange 2a of the housing 2 and the grip ring 15 as a supporting point. Since the bite is stronger, the left end portion of the pipe connector 1 is added to the outer surface of the pipe 31. By being able to fix more firmly it is possible to more effectively prevent the pipe connector 1 is pushed in one direction by the expansion and contraction of the pipe.

The fifth embodiment of the connector for piping according to the present invention is configured in the same manner as the configuration of the actual embodiment, but the grate 12 and the rubber sleeve (9) of the sealing wing (11) formed at the right end of the rubber sleeve (9) The ring insertion groove 9b is provided on the outer circumferential surface of the right end of the rubber sleeve 9 as shown in FIG. It is formed, it characterized in that the ring insertion groove (9b) is configured to be inserted into the balance ring 18 of the C-shaped ring shape is installed.

At this time, the ring insertion groove (9b) and the balance ring (18) is preferably formed to have a width as wide as the length of the closed wing portion 11 formed on the right end of the rubber sleeve (9).

According to the fifth embodiment of the present invention configured as described above, the rubber sleeve 9 and the balance ring 18 can be more easily and easily assembled during the assembling of the pipe connector 1, thereby greatly improving the assembly workability. In addition, the balance ring 18 for balancing the right and left clamping force is installed on the outer circumferential surface of the right end of the rubber sleeve 9 so as to have the same width as the length of the sealing wing 11. Since the right end portion of the rubber sleeve 9 inserted into the connector 1 for the inside can be in close contact with the outer surface of the pipe 32 over a larger area, it is possible to maintain a more firm and stable sealed state.

In the sixth embodiment of the pipe connector according to the present invention, as shown in Figs. 9A and 9B, a circle (2a) and (2b) are bent inwardly at the left and right ends, respectively, and a circular cut is formed at the upper end. A fastening rod installation part (5) (6) formed in a clearance shape and having bolt fastening rods (3) and (4) into which clamping bolts (7) are fastened is formed on both sides of the incision and is formed on one side of the incision. Inside the end portion, the housing 2 is fixed to the left and right end portions of the slide 8, the flanges 8a and 8b being bent inwardly, and is inserted into the housing 2 so as to have a cylindrical tube shape. On the inner circumference of the left and right ends, sealed wings 10 and 11 are formed, respectively, and on the inner circumferential surface of the left end where the sealed wings 10 are in contact, the pressurized space portion 13 is formed inside the sealed wing 10. Is formed in the grate 12 is formed in the grate 12 In the pipe connector consisting of a rubber sleeve (9) formed with a plurality of communication grooves (12a) for communicating the pressurized space (13) formed inside the sealing wing (13) with the outside, the rubber sleeve (9) Conical ring seating surface (9a) is formed at the left end of the), the ring seating surface (9a) is formed in a C-shaped ring shape formed to be curved in a conical shape, the grip is formed with a pipe fixing part (15a) around the inner end Ring 15 is seated, and between the flange 2a of the housing 2 and the grip ring 15, a clamping force reinforcing ring 19 having a C-shaped ring shape is inserted, and the rubber sleeve 9 A ring inserting groove 11a is formed in the inner surface of the sealed wing portion 11 formed at the right end, and the pressurizing space portion 14 is formed in the ring inserting groove 11a in the sealed wing portion 11. Ring-shaped coil spring 20 is configured to be inserted.

At this time, the same grip ring used in the embodiment is used as the grip ring 15, and the same as the fixing force used in the third embodiment as the fixing force reinforcing ring 19, Detailed description thereof will be omitted.

In addition, the coil spring 20 is formed of a coil spring in a round ring shape, as shown in FIG. 9A, and bolts respectively installed at the fastening rod mounting portions 5 and 6 of the housing 2 during piping connection. When the clamping bolt 7 is fastened to the fastening rods 3 and 4, the right end of the pipe connector 1 of the pipe connector 1 is provided with a grip ring 15 and a fixing force reinforcing ring 19. The left and right ends of the rubber sleeve 9 inserted into the piping connector 1 are prevented from being tightened relatively more than the left end, so that the left and right ends of the pipe 31 ( 32 is uniformly in close contact with the outer surface not only serves to maintain a solid and stable sealing state, but also serves as a passage for communicating the pressurized space portion 14 formed inside the sealing wing 11 to the outside. Will be

According to the sixth embodiment of the present invention configured as described above, the ring-shaped coil spring 20 is inserted between the inner circumferential surface of the right end of the rubber sleeve 9 and the inner surface of the sealing wing 11 is connected to the pipe By acting as a balancing function to balance the left and right clamping force at the same time and acts as a passage for communicating the pressurized space portion 14 formed in the interior of the wing 11 to the outside, the above embodiments Since it is possible to completely omit the configuration of the balancing used in the simplification of the overall configuration can greatly reduce the manufacturing cost.

A seventh embodiment of the connector for piping according to the present invention is configured in the same manner as the configuration of any one of the above embodiment to the sixth embodiment, as shown in Figure 10 ring seating surface of the rubber sleeve (9) Characterized in that the reinforcing ring (16) made of a C-shaped ring shape is formed between the (9a) and the grip ring (15) to be curved in a conical shape.

At this time, the same reinforcement ring used in the embodiment as the reinforcing ring 16 is used, so a detailed description thereof will be omitted.

According to the seventh embodiment of the present invention configured as described above, as the strength of the grip ring 15 is reinforced by the reinforcing ring 16, the pipe is connected under the high fluid pressure applied to the inside of the pipe connector 1 when the pipe is connected. Since the grip ring 15 which firmly fixes the left end of the connector 1 to the outer surface of the pipe 31 can be maintained without being deformed, the left end of the pipe connector 1 can be maintained. By being able to more firmly fix the outer surface of the pipe 31 it is possible to more effectively prevent the pipe connector 1 is pushed in one direction by the expansion and contraction of the pipe.

Referring to the working relationship of the connector for piping according to the present invention is configured as described above are as follows.

As shown in FIG. 4b, the connector for piping according to the present invention is inserted between the end portions of the pipes 31 and 32 to be connected, and then the fastening rod mounting portions 5 and 6 of the housing 2 are installed. As the clamping bolt 7 is fastened to the bolt fastening rods 3 and 4 respectively installed in the housing, the housing 2 is gradually tightened in the circumferential direction along the slide portion 8 and inserted into the inside of the housing 2. As well as the left and right ends of the rubber sleeve (9) is provided in close contact with the outer surface of the pipe 31, 32, the grip ring 15 inserted into the left end of the rubber sleeve (9) is tightened in the circumferential direction. Since it is bitten by the outer surface of the pipe 31, it is possible to maintain a solid installation state.

In addition, the pipe connector according to the present invention flows into the end of the fluid passing through the interior of the pipes 31 and 32 flows into the interior of the rubber sleeve 9 is inserted into the housing 2, the rubber The rubber is introduced into the pressurized space 13 and 14 through the communication groove 12a formed in the grate 12 of the sealed wings 10 and 11 formed at the inner circumference of the left and right ends of the sleeve 9. By pressurizing the sealing wing parts 10 and 11 of the sleeve 9, the sealing wing parts 10 and 11 of the rubber sleeve 9 are more firmly attached to the outer surfaces of the pipes 31 and 32. As it is in close contact, a stable sealing state can be maintained.

In addition, the pipe connector according to the present invention can be prevented from being pushed in one direction by the expansion and contraction of the pipes 31 and 32 as the left end is firmly fixed to the outer surface of the pipe 31 when connecting the pipe. Since the right end is firmly adhered to the outer surface of the pipe 32, it is possible to easily absorb the expansion and contraction of the pipe 32, so that the pipe is connected to the pipe connected by the pipe connector 1. Even under the influence of continuous internal and external conditions such as impact and bending, it is possible to maintain a solid and stable installation state.

1 is a perspective view showing a conventional pipe connector.

2 is a cross-sectional view showing the configuration of a conventional pipe connector.

3 is a cross-sectional view showing a state of use of a conventional pipe connector.

Figure 4a and 4b is an explanatory diagram showing an embodiment of the present invention.

5a and 5b are explanatory views showing this embodiment of the present invention.

Figure 6a and 6b is an explanatory diagram showing a third embodiment of the present invention.

7 is an explanatory diagram showing an example of the fact of the present invention.

8 is an explanatory diagram showing a fifth embodiment of the present invention.

9A and 9B are explanatory views showing six embodiments of the present invention.

10 is an explanatory diagram showing a seven embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

1 pipe connection 2 housing 2a, 2b flange

3, 4: bolt fastening rod 5, 6: fastening rod mounting portion 7: clamping bolt

8 slide portion 8a, 8b flange 9 rubber sleeve

9a: ring seating surface 9b: ring insertion groove 10, 11: sealing wing

11a: ring insertion groove 12: dent 12a: communication groove

13, 14: pressurized space 15: grip ring 15a: pipe fixing

16: reinforcing ring 17, 18: balancing ring 19: holding force reinforcing ring

20: coil spring

Claims (7)

Flange (2a) (2b) is formed in each of the left and right ends inwardly bent in the form of a cylindrical tube formed with a longitudinal cut in the upper end, the bolt fastening rod to which the clamping bolt (7) is fastened to the outside of both ends of the cut (3) (4) Slide parts 8 having fastening rod mounting parts 5 and 6 respectively inserted therein are formed and flanges 8a and 8b bent inwardly at left and right ends inside one end of the cutout. ) Is fixed to the housing (2), It is inserted into the inside of the housing 2, it is made of a cylindrical tube shape, the inner wings of the left and right ends are formed with sealed wings 10, 11 having a grate 12 at the ends, respectively. A plurality of communication grooves for communicating with the outside the pressurized spaces 13 and 14 respectively formed by the sealing wings 10 and 11 in the grate 12 of the sealed wings 10 and 11. In the pipe connector consisting of a rubber sleeve (9) having a 12a), A conical ring seating surface 9a is formed at the left end of the rubber sleeve 9, The ring seating surface (9a) is formed in the shape of a C-shaped ring formed to be curved in a conical shape, the grip ring 15 is formed with a pipe fixing part (15a) is formed around the inner end, Between the ring seating surface (9a) and the grip ring (15) of the rubber sleeve (9) is inserted into the reinforcement ring 16 made of a C-shaped ring shape formed to be curved in a conical shape, A balancing ring 17 having a C-shaped ring shape is inserted between the gland 12 of the sealing wing 11 formed at the right end of the rubber sleeve 9 and the inner circumferential surface of the rubber sleeve 9. Plumbing connections. Flange (2a) (2b) is formed in each of the left and right ends inwardly bent in the form of a cylindrical tube formed with a longitudinal cut in the upper end, the bolt fastening rod to which the clamping bolt (7) is fastened to the outside of both ends of the cut (3) (4) Slide parts 8 having fastening rod mounting parts 5 and 6 respectively inserted therein are formed and flanges 8a and 8b bent inwardly at left and right ends inside one end of the cutout. ) Is fixed to the housing (2), It is inserted into the inside of the housing 2, it is made of a cylindrical tube shape, the inner wings of the left and right ends are formed with sealed wings 10, 11 having a grate 12 at the ends, respectively. A plurality of communication grooves for communicating with the outside the pressurized spaces 13 and 14 respectively formed by the sealing wings 10 and 11 in the grate 12 of the sealed wings 10 and 11. In the pipe connector consisting of a rubber sleeve (9) having a 12a), A conical ring seating surface 9a is formed at the left end of the rubber sleeve 9, The ring seating surface (9a) is formed in the shape of a C-shaped ring formed to be curved in a conical shape, the grip ring 15 is formed with a pipe fixing part (15a) is formed around the inner end, Between the ring seating surface (9a) and the grip ring (15) of the rubber sleeve (9) is inserted into the reinforcement ring 16 made of a C-shaped ring shape formed to be curved in a conical shape, A ring insertion groove 9b is formed at the outer peripheral surface of the right end of the rubber sleeve 9, The ring insertion groove (9b) is a connector for piping, characterized in that the C-shaped ring-shaped balancing ring (18) is inserted. The pipe according to claim 1 or 2, wherein a clamping force reinforcing ring (19) having a C-shaped ring shape is inserted between the flange (2a) and the grip ring (15) of the housing (2). Connector. Flange (2a) (2b) is formed in each of the left and right ends inwardly bent in the form of a cylindrical tube formed with a longitudinal cut in the upper end, the bolt fastening rod to which the clamping bolt (7) is fastened to the outside of both ends of the cut (3) (4) Slide parts 8 having fastening rod mounting parts 5 and 6 respectively inserted therein are formed and flanges 8a and 8b bent inwardly at left and right ends inside one end of the cutout. ) Is fixed to the housing (2), It is inserted into the inside of the housing (2), made of a cylindrical tube shape, the inner edge of the left and right end of the sealing wings (10, 11) are formed respectively, the sealing wings (10, 11) On the inner circumferential surface of the left and right end portions that are in contact with each other, there are formed glands 12 for forming the pressurized spaces 13 and 14 in the sealed wings 10 and 11, respectively. In the pipe connector consisting of a rubber sleeve (9) formed with a plurality of communication grooves (12a) for communicating the pressurized space (13, 14) formed in the interior of the wing (13) (14) with the outside, A conical ring seating surface 9a is formed at the left end of the rubber sleeve 9, The ring seating surface (9a) is formed in the shape of a C-shaped ring formed to be curved in a conical shape, the grip ring 15 is formed with a pipe fixing part (15a) is formed around the inner end, Between the flange 2a of the housing 2 and the grip ring 15, a high tension reinforcing ring 19 having a C-shaped ring shape is inserted and installed. A balancing ring 17 having a C-shaped ring shape is inserted and installed between the sealing wing portion 11 formed at the right end of the rubber sleeve 9 and the toothing 12 formed at the inner circumferential surface of the right end of the rubber sleeve 9. Pipe fittings, characterized in that the. Flange (2a) (2b) is formed in each of the left and right ends inwardly bent in the form of a cylindrical tube formed with a longitudinal cut in the upper end, the bolt fastening rod to which the clamping bolt (7) is fastened to the outside of both ends of the cut (3) (4) Slide parts 8 having fastening rod mounting parts 5 and 6 respectively inserted therein are formed and flanges 8a and 8b bent inwardly at left and right ends inside one end of the cutout. ) Is fixed to the housing (2), It is inserted into the inside of the housing (2), made of a cylindrical tube shape, the inner edge of the left and right end of the sealing wings (10, 11) are formed respectively, the sealing wings (10, 11) On the inner circumferential surface of the left and right end portions that are in contact with each other, there are formed glands 12 for forming the pressurized spaces 13 and 14 in the sealed wings 10 and 11, respectively. In the pipe connector consisting of a rubber sleeve (9) formed with a plurality of communication grooves (12a) for communicating the pressurized space (13, 14) formed in the interior of the wing (13) (14) with the outside, A conical ring seating surface 9a is formed at the left end of the rubber sleeve 9, The ring seating surface (9a) is formed in the shape of a C-shaped ring formed to be curved in a conical shape, the grip ring 15 is formed with a pipe fixing part (15a) is formed around the inner end, Between the flange 2a of the housing 2 and the grip ring 15, a clamping force reinforcing ring 19 having a C-shaped ring shape is inserted and installed. A ring insertion groove 9b is formed at the outer peripheral surface of the right end of the rubber sleeve 9, The ring insertion groove (9b) is a connector for piping, characterized in that the C-shaped ring-shaped balancing ring (18) is inserted. Flange (2a) (2b) is formed in each of the left and right ends inwardly bent in the form of a cylindrical tube formed with a longitudinal cut in the upper end, the bolt fastening rod to which the clamping bolt (7) is fastened to the outside of both ends of the cut (3) (4) Slide parts 8 having fastening rod mounting parts 5 and 6 respectively inserted therein are formed and flanges 8a and 8b bent inwardly at left and right ends inside one end of the cutout. ) Is fixed to the housing (2), Inserted into the inside of the housing 2, it is made of a cylindrical tube shape, the inner side of the left and right end of the sealing wings 10, 11 are formed respectively, the left side of the sealing wing 10 is in contact with On the inner circumferential surface of the end portion there is formed a gland 12 to form a pressurized space 13 in the interior of the wing 10, the pressurized space 12 is formed in the interior of the wing 13 for sealing. In the pipe connector consisting of a rubber sleeve (9) formed with a plurality of communication grooves (12a) to communicate (13) with the outside, A conical ring seating surface 9a is formed at the left end of the rubber sleeve 9, The ring seating surface (9a) is formed in the shape of a C-shaped ring formed to be curved in a conical shape, the grip ring 15 is formed with a pipe fixing part (15a) is formed around the inner end, Between the flange 2a of the housing 2 and the grip ring 15, a clamping force reinforcing ring 19 having a C-shaped ring shape is inserted and installed. A ring inserting groove 11a is formed in the inner surface of the sealing wing portion 11 formed at the right end of the rubber sleeve 9, The ring insertion groove (11a) is a connector for piping, characterized in that the ring-shaped coil spring (20) is inserted into the pressurized space (14) to be inserted into the sealed wing (11). The reinforcing ring (16) according to any one of claims 4 to 6, wherein the reinforcing ring (16) is formed between the ring seating surface (9a) and the grip ring (15) of the rubber sleeve (9) in a conical curved shape. Pipe fittings, characterized in that the insertion).

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