KR20130075098A - Structure of rubber-seal for mechanical fitting and it's applied mechanical fitting - Google Patents

Abstract

The present invention relates to a pipe joint pipe, and more particularly, disposed between two synthetic resin pipes to be connected, one end of which is connected to a neighboring synthetic resin pipe by a heat-sealed joint method, and the other end thereof is adjacent to another synthetic resin pipe. When connecting with a fastening method, a pipe joint pipe for simple and convenient one-touch connection and a rubber seal configured to prevent leakage of fluid inside the pipe due to the gap between the joint pipes It is related with the rubber seal structure for the screw-type joint pipe and the joint pipe using the same, which have improved the structure to prevent the perfect leakage and improve the coupling force with the pipe.
Specific solution means of the present invention,
"Through thread state 100 is provided on the outer circumferential surface of the one side, the inner circumferential surface end of the inner thread of the thread 100 is provided with a push bump 101, and the other inner circumferential portion of the heat-sealed synthetic resin pipe connected to the heat-sealed joint method ( P1) is coupled to the joint body 10 and, in a penetrating state, a thread 200 is formed on an inner circumferential surface to be fastened to the thread 100 on one side, and a step 201 is provided on the other inner circumferential surface. The tightening nut 20 which is provided with the tightening part 202 integrally, and the tightening holder 30 inserted into the inner peripheral part of the tightening part 202 of the tightening nut 20 to crimp the outer peripheral surface of the fastening synthetic resin pipe P2. Retainer 40 is provided with a locking jaw 400 on one side of the inner circumference to prevent the tightening holder 30 from being pushed forward or detached when the tightening nut 20 and the fitting pipe body 10 are fastened. ) And the retainer 40 in front of the sieve That is tightly coupled to the outer peripheral surface of the synthetic resin pipe (P2) consisting of a tight and the rubber seal 50 for a watertight coupling prevents the adhesive surface of the inner peripheral surface of the fitting body 10,
The tightening holder 30 is provided with a plurality of engaging projections 301 radially on the outer peripheral surface of one end in the state in which the cutout 300 is provided in the longitudinal direction, and the inner peripheral surface forms a right angle on one side and an obtuse angle on the other side. It is provided with a plurality of toothed projection band 302 made,
The rubber seal 50 is provided with a rib 500 integrally at one end of the inner diameter in a state in which the fastening synthetic resin pipe (P2) and the ring surface in the form of a band to widen the ground plane, the rib 500 and the outer diameter The groove portion 501 is formed between one end ".
As described above, in the present invention, one end is connected to the synthetic resin tube in a heat-sealed joint method, and the other end is different from the conventional synthetic resin tube which is intended to be connected by loosening the tightening nut about two times without assembling the synthetic resin tube. The one-touch method of pushing in and tightening the parts allows for easy and convenient joining, which helps to speed up the process.
The rubber seal is band-shaped, and the ground area of the fastening synthetic resin pipe is relatively large, so it has excellent adhesion and the part of the fastening nut is loosened. Then, the fastening nut is inserted through the fastening part 202. The condensation crimping force of the rubber seal is increased, and at the same time, the action adhesion force between the joint pipe body and the rubber seal is exerted. Especially, the rib of the rubber seal is located at the inner diameter of the rubber seal, so It is inserted and compressed like a wedge into a gap, so that the sealing and watertightness of the joint can be increased.

Description

Structure of rubber-seal for mechanical fitting and it's applied mechanical fitting}

The present invention relates to a pipe joint pipe, and more particularly, disposed between two synthetic resin pipes to be connected, one end of which is connected to a neighboring synthetic resin pipe by a heat-sealed joint method, and the other end thereof is adjacent to another synthetic resin pipe. When connecting with a fastening method, a pipe joint pipe for simple and convenient one-touch connection and a rubber seal configured to prevent leakage of fluid inside the pipe due to the gap between the joint pipes The present invention relates to a rubber seal structure for a screw-type jointed pipe and a jointed pipe using the same, by improving the structure and preventing leaks.

Generally, a pipe is used as a means for transporting fluids such as water, sewage, and gas to a destination, and a pipe is selected according to the type of fluid, pressure, temperature used, and installation location. shall.

The pipes described above are mostly made of metal pipes such as cast iron pipes, steel pipes, copper pipes, lead pipes, and brass pipes, and synthetic resin pipes mainly composed of vinyl chloride (PVC), polyethylene (PE; polyethylene), and polypropylene (PP). Recently, synthetic resin pipes are widely used in water and sewage pipes instead of metal pipes. Synthetic resin tube has almost no material eluting from the tube itself, there is no fear of corrosion, and has the advantage of low semi-permanent life and low material cost and construction cost, unless artificial damage.

On the other hand, in order to transfer the fluid to the destination by using the above-described synthetic resin tube, the length of the synthetic resin tube should be extended, but in order to extend the length of the synthetic resin pipe for water and sewage, a joint pipe having a tightening joint method is used.

The pipe coupling method of the existing pipe and the joint pipe is a method of inserting into the joint pipe and tightening with a nut while sequentially inserting parts at the end of the pipe to be disassembled and connected. There is a problem that

In addition, the practical registration No. 0288643 relates to a screw-type joint pipe, the joint pipe used to joint the pipe and the pipe is leak-proof packing is inserted therein, the inside of the tooth so that the pipe can be crimped The pipe fixing holder is formed by the compression of the body and the cap is fixed by the pipe fixing holder is compressed and fixed to the pipe to finish the joint work.

The above-mentioned rubber packing is a long, thin strip-shaped long band, and the sealing part is composed of two parts, and the length of the body part is similar to or slightly longer than the sealing part, and the body part diameter is constant.

However, the conventional rubber packing similar to the above has a constant size (diameter) and even a short length, so that water leakage is prevented to some extent during initial installation, but when the rubber packing shrinks or relaxes due to environmental changes such as temperature change, expect full watertightness. There is no risk of falling out of the initial position.

On the other hand, in general, synthetic resin pipes have an allowable damage rate of less than 10% of the pipe thickness, and most synthetic resin pipes have low hardness, particularly when handling synthetic pipes for civil engineering sites. The surface of the pipe is easily damaged by soil, rock, and sharp foreign substances, and thus the watertight effect is reduced due to the voiding of the rubber packing, that is, the rubber seal. Also, since most rubber seals are circular in cross section, When working, it is often twisted and joined. Especially in the case of a circular cross section of rubber seal, the part that comes into close contact with the tube basically forms a line contact, and even if it is partially distorted by the compressive force, In the case of damage to the surface of the pipe due to the short distance, the watertightness drops considerably. Has a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

First, the one end is connected to the synthetic resin tube by the heat-sealed joint method, and the other end is separated from the parts, unlike the existing one, without pressing the synthetic resin tube and assembling it. By doing so, the construction is simple and convenient, which aims to speed up the process.

In addition, it is another object of the present invention to improve the adhesion between the rubber seal and the inner wall of the pipe and the synthetic resin pipe to enable the improvement of the sealing and watertightness.

Specific solution means of the present invention for achieving the above object,

"Through the threaded body on one side of the outer circumferential surface, a push-out jaw is provided on the end of the inner circumferential surface of the inner side of the screw thread, and the other inner circumferential portion of the heat-sealed synthetic resin tube is connected to the heat-sealed joint method, and In one state, a screw thread is formed on an inner circumferential surface to be fastened to the screw thread on one side, and a tightening nut having a tightening part integrally provided with a stepped portion on the other inner circumferential surface, and inserted into an inner circumferential part of the tightening part of the tightening nut Fastening holder for crimping the outer circumferential surface of the pipe, a retainer having a locking jaw on one side of the inner circumferential surface to prevent the tightening holder from being pushed forward or detached when the tightening nut and the joint pipe body are fastened, and the retainer is located in front of the retainer. And tightly coupled to an outer circumferential surface of the fastening synthetic resin pipe, Those made by closely bonding a surface of the main surface is bonded a rubber seal for watertight protection,

The tightening holder is provided with a plurality of engaging projections radially on the outer peripheral surface of one end in the state in which the incision is provided in the longitudinal direction, and the inner peripheral surface is provided with a plurality of sawtooth-shaped protruding bands forming a right angle on one side and an obtuse angle on the other side. What is there,

Wherein the rubber seal is integrally provided with a rib at one end of the inner diameter in a state of being formed in a band-shaped ring shape to widen the fastening synthetic resin pipe and the ground plane, and a groove is formed between the rib and the one end of the outer diameter ". By doing so, the above object can be achieved.

As described above, in the present invention, one end is connected to the synthetic resin tube in a heat-sealed joint method, and the other end is different from the conventional synthetic resin tube which is intended to be connected by loosening the tightening nut about two times without assembling the synthetic resin tube. The one-touch method of pushing in and tightening the parts allows for easy and convenient joining, which helps to speed up the process.

The rubber seal is band-shaped, and the ground area of the fastening synthetic resin pipe is relatively large, which is excellent in sealing force, and after loosening a part of the fastening nut, inserting the fastening synthetic resin pipe through the fastening part, and fastening the fastening nut, the rubber for the fastening synthetic resin pipe The condensation crimping force of the seal is increased and at the same time, the action adhesion between the fitting tube body and the rubber seal is exerted. Especially, the rib of the rubber seal is located in the inner diameter of the rubber seal, and when the fastening synthetic resin pipe is inserted into the gap between the fastening synthetic resin pipe and the fitting pipe body. Inserted and compressed as wedges get stuck, the sealing and watertightness of the joint can be increased.

In the above, the present invention has been illustrated and described by way of specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the general knowledge in the art to which the present invention pertains is not limited to the spirit of the present invention. Various changes and modifications may be made by the possessor.

1 is a perspective view of the rubber seal structure and the joint pipe joint using the same for the present invention
2 is an exploded perspective view of a rubber seal structure for a screw-type joint pipe and a joint pipe using the same,
3 is a cross-sectional view of a state in which the heat-sealed synthetic resin pipe is heat-sealed on the inner circumferential surface of the joint pipe body in the rubber seal structure for the screw-type joint pipe and the joint pipe using the same, and other components are combined at the same time;
Figure 4 is a rubber seal structure for the screw-type joint pipe of the present invention and the joint pipe using the same in the state that the heat-sealed synthetic resin pipe is heat-sealed on the inner circumferential surface of the joint pipe body part of the tightening nut is terminated from the joint pipe body to tighten the synthetic resin pipe Sectional view of inserting into the fastener,
5 is a fastening synthetic resin pipe after the tightening nut is partially released from the joint pipe body in a state in which the heat-sealed synthetic resin pipe is heat-sealed in the inner circumferential surface of the joint pipe body in the rubber seal structure for the screw-type joint pipe and the joint pipe using the same Section with the
6 is a fastening synthetic resin pipe after the tightening nut partially released from the joint pipe body in a state in which the heat-sealed synthetic resin pipe is thermally fused to the inner circumferential surface of the joint pipe body in the rubber seal structure for the screw-type joint pipe and the joint pipe using the same After inserting into the tightening part is a cross-sectional view of the fastening nut is tightly coupled to the joint pipe body.

Hereinafter will be described with reference to the drawings with respect to the concrete configuration and operation of the rubber seal structure for the screw-type joint pipe and the joint pipe using the same.

1 is a perspective view of the combination of the rubber seal structure for the screw-type joint pipe and the joint pipe using the same, Figure 2 is an exploded perspective view of the rubber seal structure for the screw-type joint pipe and the joint using the same, Figure 3 is The inventors are a cross-sectional view of a rubber seal structure for a screw-type joint pipe and a joint of a heat-sealed synthetic resin pipe in the state of joining other components at the same time as heat-sealed on the inner circumferential surface of the joint pipe body, and FIG. In the rubber seal structure for the joint pipe and the joint pipe using the same, a cross-sectional view where the fastening nut is partially removed from the joint pipe body in a state in which the heat-sealed synthetic resin pipe is heat-sealed on the inner circumferential surface of the joint pipe body so that the fastening synthetic resin pipe can be inserted into the fastener. 5 is a heat-sealed synthetic resin pipe in the rubber seal structure for the screw-type joint pipe and the joint pipe using the same Figure 6 is a cross-sectional view of the fastening nut is inserted into the fastening part after the tightening nut is partially removed from the joint pipe body in the state of heat-sealed joint pipe body, Figure 6 is a rubber seal structure for screw-type joint pipe In the joint pipe using this, the heat-sealing synthetic resin pipe is heat-sealed on the inner circumferential surface of the joint pipe body, and then the tightening nut is partially removed from the joint pipe body, and then the fastening synthetic resin pipe is inserted into the fastening part, and then the fastening nut is inserted into the joint pipe body. This is a cross-sectional view of the state closely coupled to and fastened.

The configuration of the present invention will be described with reference to the drawings.

Reference numeral 10 indicates a joint pipe body, wherein the joint pipe body 10 is in a penetrating state, and one side outer circumferential surface of the thread 100 is provided at the end of the inner circumferential surface 101 of the threaded stop 100. The other inner circumferential portion is a heat-sealed synthetic resin pipe (P1) is connected to the heat-sealed joint method.

Reference numeral 20 indicates a tightening nut, and the tightening nut 20 has a central portion penetrated in the longitudinal direction, such as the fitting pipe body 10, and has a screw thread on an inner circumferential surface thereof so as to be fastened to the thread 100 on one side thereof. 200 is formed and the other inner circumferential surface is a structure that is integrally provided with a tightening portion 202 is provided with a step 201.

Reference numeral 30 indicates a tightening holder, and the tightening holder 30 is inserted into the inner peripheral part of the tightening part 202 of the tightening nut 20 to compress, tighten and fix the outer peripheral surface of the fastening synthetic resin pipe P2. Specifically, in the state in which the cutout 300 is provided in the longitudinal direction, a plurality of locking projections 301 are radially provided at one end of the outer circumferential surface, and the inner circumferential surface has a right angle at one side and an obtuse angle at the other side. A plurality of toothed projecting bands 302 are provided.

Reference numeral 40 denotes a retainer, wherein the retainer 40 is provided on one side of the inner circumference to prevent the tightening holder 30 from being pushed forward or detached when the tightening nut 20 and the fitting pipe body 10 are fastened. The locking jaw 400 is provided.

Next, the reference numeral 50 denotes a rubber seal, which is located in front of the retainer 40 and is tightly coupled to the outer circumferential surface of the fastening synthetic resin pipe P2 to the inner circumferential surface of the fitting pipe body 10. In order to close the adhesive surface to prevent watertightness, specifically, the rib 500 is integrally provided at one end of the inner diameter in a state in which the fastening synthetic resin pipe (P2) is formed in a band-like ring shape to widen the ground surface. And when the fastening synthetic resin pipe (P2) is inserted is the groove portion 501 is formed between the rib 500 and one end of the outer diameter.

Hereinafter, the operation of the present invention will be described.

Looking at the assembly process of the present invention first, as shown in Figure 2 and 3 fixed the heat-sealed synthetic resin pipe (P1) as shown in Figure 3 by the heat-sealed joint to the other inner peripheral portion of the pipe body (10) After coupling, the rubber seal 50, the retainer 40, and the tightening holder 30 are sequentially coupled to the inner circumferential portion in which one side thread 100 of the fitting pipe body 10 is formed, as shown in FIGS. 2 and 3. After finally coupling the thread 100 of the tightening nut 20 to the thread 100 as shown in FIG.

That is, as mentioned above, after fixing the heat-sealed synthetic resin pipe (P1) to the other inner peripheral portion of the joint pipe body 10 in a heat-sealed joint method, the other components as described above, but the rubber seal 50 In order not to be pushed in the inner circumferential surface of the inner surface of the fitting pipe body 10 is provided with a jaw-proof jaw 101, which causes the rubber seal 50 is no longer pushed as a result of the retainer 40, tightening holder 30, etc. It is designed to be combined at the optimum position.

In addition, in the case of the tightening holder 30, the locking projection 301 is provided so as not to fall out in the direction of the tightening part 202, so that the rubber seal 50, the retainer 40, the tightening toward the tightening nut 20 end up. At the same time that the holder 30 is not detached and is no longer pushed toward the joint body 10.

That is, the retainer 40 serves to closely compress the rubber seal 50 in the lateral direction, and the rubber seal 50 shown in FIGS. 2 to 4 has rubber as its flexible name. It is a state made of a material is a state in which the rib 500 of the rubber seal 50 is formed vertically inward.

In order to couple the fastening synthetic resin pipe (P2) in the above state as shown in Figure 4 about 200 threads from the screw thread thread 100 of the joint pipe body 10 of the threaded nut 20 When it is released, a phenomenon in which the tightening holder 30 provided inside the tightening nut 20 is expanded, and in this state, the fastening synthetic resin pipe P2 is inserted into the tightening part 202 as shown in FIG. 5. When the tightening holder 30 is expanded by the cutout 300, the fastening synthetic resin pipe P2 is easily coupled, and in this state, the thread 200 of the tightening nut 20 is shown in FIG. 6. When tightly coupled to the thread 100 of the fitting pipe body and the expansion tightening holder 30 is pushed in the direction of the fitting pipe body 10, in this state is provided on the inner peripheral surface of the tightening holder 30 Protruding band 302, that is, toward one side of the fitting tube body 10. Is a right angled and obtuse-shaped protruding strip 302 of the obtuse angle toward the tightening portion 202 is a state in which the fastening synthetic resin pipe (P2) is in close contact with the wedge shape is impossible to terminate the fastening synthetic resin pipe (P2) It is.

On the other hand, the state as described above, as shown in Figure 6, the fastening synthetic resin pipe (P2) is inserted into the rubber seal 50 is tightly fitted to the outer peripheral surface of the fastening synthetic resin pipe (P2) of the rubber seal 50 The thin rib 500 integrally formed at one end of the inner diameter is pushed into a gap between the fitting pipe body 10 and the fastening synthetic resin pipe P2 as shown in FIG.

When the rubber seal 50 is clearly shown in Figures 2 to 4 and 5 and 6 the shape of the rubber seal 50,

Since the shape of the rubber seal 50 shown in FIGS. 2 to 4 has already been described, a detailed description of the deformed state of the rubber seal 50 shown in FIGS. 5 and 6 will be omitted.

2 to 4, the rubber seal 50 shown in FIGS. 5 and 6 has the fastening synthetic resin pipe (P2) and the joint pipe body 10 as the rib 500 is inserted into the fastening synthetic resin pipe (P2) Closely sandwiched between the fastening synthetic resin pipe (P2) and the joint pipe body (10) to prevent the air gap, which increases the condensation compression force between the rubber seal 50 and the fastening synthetic resin pipe (P2), while the joint pipe The body 10 is to improve the water tightness by increasing the action adhesion.

That is, the rubber seal 50 has a band shape, and the ground area of the fastening synthetic resin tube P2 is relatively wide, so that the adhesive force is excellent, and the fastening nut 20 is partially loosened, and then the fastening portion 202 is fastened to the fastening synthetic resin tube P2. When the fastening nut 20 is fastened after insertion through the condensation crimping force of the rubber seal 50 to the fastening synthetic resin pipe P2, the action adhesion between the joint pipe body 10 and the rubber seal 50 is exerted. In particular, the rib 500 of the rubber seal 50 is located at one end of the inner diameter of the rubber seal 50, and when the fastening synthetic resin pipe (P2) is inserted between the fastening synthetic resin pipe (P2) and the fitting pipe body (10) It is inserted and compressed like a wedge into the gap, so that the sealing and watertight force is increased in the joint area.

When the synthetic resin pipe is used for civil engineering sites as mentioned in the prior art, it is easy to damage the surface of the pipe due to soil, rock, and sharp foreign matters when handling and transporting the pipe. As the gap is generated, the problem of inferior watertightness is solved. Also, since most rubber seals are circular in cross section, they are often twisted and coupled during piping work. Even if the part is basically in the form of line contact and partially distorted by the compressive force, if the distance to the tube or the joint contact is short, there is a problem that the water tightness drops significantly when there is damage to the tube surface.

10: fitting pipe body 20: tightening nut
30: tightening holder 40: retainer
50: rubber seal 100: thread
101: jaw bump 200: thread
201: step
202: tightening part 300: incision
301: locking projection 302: protruding band
400: jam jaw 500: rib
501: groove P1: heat-sealed synthetic resin tube
P2: Fastening synthetic resin pipe

Claims (3)

One side outer circumferential surface of the threaded thread 100 is provided with a push bump 101 at the end of the inner circumferential surface of the inner side of the thread 100, and the other inner circumferential portion is a heat-sealed synthetic resin pipe (P1) ) Is coupled to the joint pipe body (10),
A screw nut 200 is formed on an inner circumferential surface to be fastened to the screw thread 100 on one side, and a tightening nut 202 integrally provided with a tightening part 202 provided with a step 201 on the other inner circumferential surface. 20) with,
A tightening holder 30 inserted into the tightening part 202 of the tightening nut 20 to compress the outer peripheral surface of the fastening synthetic resin pipe P2;
Retainer 40 is provided with a locking jaw 400 on one side of the inner circumference to prevent the tightening holder 30 from being pushed forward or detached when the tightening nut 20 and the fitting pipe body 10 are fastened;
Located in front of the retainer 40 and tightly coupled to the outer circumferential surface of the fastening synthetic resin pipe (P2) is a rubber seal for preventing watertightness by closely bonding the adhesive surface with the inner circumferential surface of the joint pipe body (10) Rubber seal structure for screwing type joint pipe, characterized in that the coupling is made and the joint pipe using the same.
The method of claim 1,
The tightening holder 30 is provided with a plurality of engaging projections 301 radially on the outer peripheral surface of one end in the state in which the cutout 300 is provided in the longitudinal direction, and the inner peripheral surface forms a right angle on one side and an obtuse angle on the other side. A rubber seal structure for a threaded type joint pipe and a joint pipe using the same, characterized in that a plurality of toothed protrusion bands 302 are provided.
The method of claim 1,
The rubber seal 50 is provided with a rib 500 integrally at one end of the inner diameter in a state in which the fastening synthetic resin pipe (P2) and the ring surface in the form of a band to widen the ground plane, the rib 500 and the outer diameter A rubber seal structure for a screw-type joint pipe and a joint pipe using the same, characterized in that a groove portion 501 is formed between one end.

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