WO2010101320A1

WO2010101320A1 - Valve socket for water tap and tap coupling system using same

Info

Publication number: WO2010101320A1
Application number: PCT/KR2009/001104
Authority: WO
Inventors: 류희원
Original assignee: Ryu Hee Won
Priority date: 2009-03-05
Filing date: 2009-03-05
Publication date: 2010-09-10
Also published as: CN102341551A

Abstract

The present invention relates to a water tap coupling system for a double pipe to easily replace piping and pipe joints in the event of water leakage, to facilitate inspection and repair the pipe, wherein the front surface of embedded water tap header (20) is open without projections; tilt-adjusting groove (25) is formed at the rim of the front surface; tilt-adjusting projection (35) of valve socket (30) for a water tap is formed to correspond to the position of tilt-adjusting groove (25) and is mounted on water tap header (20); upper and lower coupling holes (33) on coupling plate (31) of valve socket (30) are fixed and coupled with water header (20) by coupling screw (21) which passes there-through, water receiving hole (32) and water distribution hole (34) of valve socket (30) for water tap connect to the front end of soft pipe (40) embedded in a pair of double pipes (10), and water tap (50) coupled to water discharge hole(36). Serial pipes can be installed by consecutively installing connection pipes on the adjacent water tap headers, and valve socket (30) can be extracted from and mounted to water tap header (20) through its frontal surface by installing a soft pipe receiving case for receiving soft pipe (40).

Description

[Calibration under Rule 26 05.10.2009] Receiving valve socket and faucet coupling system using the valve socket

The present invention relates to a power receiving valve socket and a faucet coupling system using the valve socket. More specifically, a double pipe faucet includes a three-way connector formed separately in a wall to form a pipe line communicating with a neighboring faucet. It relates to a water-receiving valve socket and a power receiving coupling system using the valve socket formed in the header inner body to facilitate the inspection and repair of the pipe.

In general, in the case of new construction or expansion of residential spaces such as houses and apartments, cold and hot water pipes introduced from the outside through a meter are connected to each demand destination such as a toilet, a bathroom, a boiler room, and a multipurpose room. However, the existing floor and wall laying method is difficult to check the cold and hot water pipes or faucet buried in the floor and wall if the cold and hot water pipes are damaged or damaged during use, and eventually, the floor or floor After dismantling the floor and the wall to look after one by one, after reconstruction and reconstruction after checking, renovation, renovation has been a problem that is not easy after work.

Therefore, in recent years, a splitter is installed instead of a floor buried method, and a 1: 1 double pipe parallel piping method in which a valve socket is directly connected to a double pipe on a wall of a toilet or a bathroom, and a valve socket is directly buried in a wall, is installed. A double pipe series piping system is used to bury the faucet boxes in and to interconnect the faucet boxes with double pipes.

The parallel piping method in which the valve socket is directly coupled to the conventional flush type header has a 1: 1 type parallel piping between the water supply distributor and the faucet header, resulting in a lengthy and complicated length of the entire piping. Since the socket is fixed and it is difficult to check and it is impossible to draw out the soft pipe under the condition that the hydraulic pressure is applied, install a pressure gauge on the pipe line and measure the pressure in the pipe to perform the hydraulic test in an indirect manner to determine whether the pipe is leaking. There was a problem that the inspection and repair by the naked eye is impossible.

On the other hand, the series piping system, which is connected to the faucet box, has the effect of reducing the length of the pipe compared to the parallel pipe, but it requires a working space for connecting work inside the faucet box. The work is complicated, such as the need for reinforcing steel reinforcement work by damaging the vertical reinforcing bar of the reinforcing bar, the connection work is complicated and the probability of leakage is increased due to the increased number of piping connections inside the faucet box. It is small in size and excellent in constructability, and it is possible to connect the valve socket formed in one body with the inlet and the outlet port directly to the embedded type faucet header, which is widely used. Hydraulic pressure when removing the valve socket from the faucet header while installing without using faucet box or distributor. It is possible to draw out the soft pipe even in the state of maintenance, so that it is easy to check and repair the pipes such as water leakage, and the valve socket for receiving power and the faucet coupling system using the valve socket can be adjusted so that the end face of the valve socket matches the finish line of the wall. It is to provide.

In the faucet coupling system using the above-mentioned power receiving valve socket according to the present invention, the power receiving header 20 coupled to the double pipe 10 is embedded in the wall, and the water receiving header socket 20 is connected to the water receiving header socket 20. In a losing wall embedded faucet coupling system,

The faucet header 20 has an open front and easy inclination adjusting grooves 25 formed on the left and right sides of the faucet adjusting socket 25 to facilitate withdrawal of the receiving valve socket. Of the inclination adjustment protrusion 35 is inserted into the upper and lower coupling holes 33 of the valve socket 30 for power supply through the inclination adjustment screw 21 and fixed to the faucet header 20 and the valve socket 30 ), The inlet 32, the outlet 34, and the outlet 36 are provided in one body, and the inlet 32 and the outlet 34 are the ends of the soft pipe 40 embedded in the pair of double pipes 10. Each is connected to the outlet 36 to the faucet 50 is to be coupled.

In addition, the inlet portion 82 and the outlet portion 84 are formed in the elliptical CD tube and installed as a curved tube so that the curvature of the inner circumference 86 is smaller than the curvature of the outer circumference 88 so that the curvature of the inner circumference 86 The total length of the outer circumferential edge 88 is long, so that the extra length of the soft tube 40 is kept in close contact with the outer circumferential edge 88 to be embedded into the soft tube container 80, and the soft tube 40 When pulled out of the embedded faucet header 20 will be in close contact with the inner circumferential (86) will be able to withdraw without difficulty.

Although similar in size to a 1: 1 double pipe piping faucet header, it consists of three-way fittings such as inlet (32), outlet (34) and outlet (36), respectively. It is a serial pipe that can be moved to), and the pipe length is larger than the parallel pipe, and there is no effect of the distributor, and there is no distributor which is a component of the parallel pipe. Even though the rebar spacing is narrow to 10cm and overlaps with rebar, the size of the faucet header is small, the construction is simple because it does not affect the building structure even if the rebar is moved (3cm ~ 4cm) without cutting the rebar. Minimal pipe connection is generated, which makes the connection work simpler and reduces the probability of leakage compared to the conventional faucets for series connection pipes. There.

1 is a side view showing the overall configuration of the power receiving coupling system according to the present invention.

2 is a perspective view of an example of a valve socket for power receiving according to the present invention.

3 is a plan view of the valve socket for a power receiving according to the present invention.

Figure 4 is a soft pipe receiving state diagram of the faucet coupling system according to the present invention.

5 is an installation state of the power receiving coupling system according to the present invention.

6 is a cross-sectional view of the soft tube container according to the present invention.

Figure 7 is a valve socket vertical direction change and screw fixed state in accordance with the present invention.

Figure 8 is an elliptical tube soft tube accommodating state diagram of the faucet coupling system according to the present invention.

Explanation of symbols for main parts of the drawings

10: double pipe 20: faucet header

2: tilt adjusting screw 25: tilt adjusting groove

30: valve socket for power reception 31: coupling plate

32: inlet 33: coupling hole

34: discharge hole 35: inclined adjustment protrusion

36: outlet 38: ring groove

40, 40a, 40b: soft pipe 50: faucet

60: hermetic ring 70: fixed band

80: soft tube container 81: soft tube container

82: inlet 83: elliptical double tube

84: outlet 86; Inner Cast

88: Outer lead

In the present invention, the water-receiving valve socket 30 is formed with a water outlet 36 on the front surface of the coupling plate 31 having a smaller diameter than the finishing cover, which is a finishing material of the pipe and the wall portion that is commonly used and the coupling plate 31 The rear surface of the inlet 32 and the outlet 34 formed of nipples having a “단면” or “凹” shape in the same direction are formed in the same direction. Coupling hole (33) is provided and the rear left and right inclined adjustment projection (35) is protruding, the inlet port 32 and the outlet port 34 of the valve socket 30 for power supply to a pair of double pipe (10) The ends of the embedded flexible pipe 40 are connected to each other, and the outlet 50 is coupled to the faucet 50 and fixed to the faucet header 20.

At this time, the embedded faucet header 20 is open at the front of the faucet header rim and formed inclined adjustment groove 25 on the left and right of the rim to be in a position corresponding to the inclination adjusting projection 35 of the valve socket 30 for power receiving. As the inclination adjustment protrusion 35 of the power receiving valve socket 30 is inserted into the inclination adjustment groove 25 of the faucet header 20, the valve fitting 30 of the power receiving valve socket 30 is mounted on the embedded faucet header 20 and is coupled to the screw. Through the upper and lower coupling holes to be fixed to the faucet header 20 is to be made.

In addition, opening the front edge of the head of the faucet header 20, making the locking jaw on the entire edge of the faucet header 20, mounting the valve socket for the socket, and through the upper and lower coupling holes with the coupling screw to fix the faucet header 20 also It is one of the same bonding methods.

The coupling plate 31 of the valve socket 30 is configured to open a portion except for the upper and lower coupling holes 33 and the left and right inclination adjusting protrusions 35 to observe abnormalities in the piping state of the faucet header 20. Can be.

The coupling hole 33 is drilled up and down the coupling plate 31, the coupling screw 21 is fixed to the embedded faucet header 20 through the coupling hole 33, the embedded faucet header 20 By adjusting the tightening degree of the coupling screw 21 to form a coupling with the up and down inclination of the valve socket 30 for power receiving,

The inclination adjustment protrusion 35 is formed by cutting the inclination adjustment protrusion 35 to correspond to the left and right inclination of the wall to have a different protruding length, so that the left and right inclination can be adjusted.

A cross section of the inlet port 32 and the effluent water 34 of the valve socket 30 for receiving power has a shape of “凸” or “凹”, so that the soft pipe 40 may have an inlet 32 and an outflow port 34. By injecting or extrapolating the pipe to make the connection to the pipe to form a thread on the outer surface of the end and joining with the coupling nut to form the pipe of the soft pipe 40 than the inlet 32 and the outlet 34 The overall width can be reduced, and the front of the embedded faucet header 20 is opened without protrusions, so that the entrance of the faucet header 20 is used as it is without making it larger than the finishing cover, which is a finishing material for pipes and walls. Even when the valve socket 30 is connected to the pair of flexible pipes 40, the valve socket 30 may be easily installed and detached in the embedded faucet header 20.

When the inlet 32 and the outlet 34 of the valve socket 30 for receiving are formed so as to have a “凸” shape so as to extrapolate the soft pipe 40 to the outside surface of the soft pipe 40. By fixing with a fixing band 70 to prevent any disassembly of the soft pipe 40 and to improve the airtightness.

At this time, a ring groove 38 for interposing at least one airtight ring 60 is provided on the outer circumference of the water inlet 32 and the water outlet 34 to prevent leakage by the airtight ring 60.

In addition, in the case where the inlet 32 and the outlet 34 are formed to have a cross-section “凹” shape to interpolate the soft pipe 40 to be connected, the fitting material is used to maintain airtightness and not to disassemble arbitrarily. It can be.

On the other hand, the double tube 10 is formed to be divided as shown in Figure 5 between the divided double tube 10 further formed a soft tube container 80 to the length of the soft tube 40 than the length of the double tube 10 The longer formed flexible pipe 40 is drawn out of the water-receiving valve socket 30 to the front of the recessed faucet header 20, and the inspection and repair work of the pipe is possible, and the water-receiving valve socket 30 Can be easily remounted.

The soft tube container 80 is formed of a curved tube having an inlet portion 82 and an outlet portion 84 having a predetermined angle so that the curvature of the inner circumference 86 is smaller than the curvature of the outer circumference 88. The total length of the outer periphery 88 is longer than the total length of 86) so that the extra length of the soft tube 40 is in close contact with the outer periphery 88 to maintain the embedded state into the flexible tube receiving box 80. When the soft pipe 40 is drawn out of the recessed faucet header 20, the soft pipe 40 is brought into close contact with the inner circumferential edge 86 and can be easily pulled out.

In addition, the inlet portion 82 and the outlet portion 84 are formed in the elliptical double tube 83 and installed as a curved pipe so that the curvature of the inner circumferential edge 86 is smaller than the curvature of the outer circumferential edge 88. The total length of the outer periphery 88 is longer than the total length, the extra length of the soft tube 40 is in close contact with the outer periphery 88 can maintain the state embedded in the soft tube container (80) and soft tube ( When 40) is drawn out of the embedded faucet header 20, it is possible to draw while being in close contact with the inner circumferential edge (86).

One of the soft pipes 40a of each of the soft pipes 40 embedded in the pair of double pipes 10 is connected to the inlet 32 of the valve socket 30, and the soft pipe 40b on the other side thereof has one end. A neighboring faucet header 20 connected to the inlet 34 and the other end connected to an inlet 32 of the valve socket 30 for power receiving coupled to the recessed faucet header 20 embedded in a wall of a neighboring receiving destination. It is possible to make series piping by making connection piping continuously between).

Since there is always the risk of water leakage in places where heating and water supply pipes are installed, such as apartments, houses, buildings, schools, etc., it is a technology selected at construction sites such as new construction and remodeling, and it is constructed with technology that reduces the life cycle cost of buildings. It is a necessary technology for the industry.

Claims

In the wall-mounted faucet coupling system in which the faucet header 20 coupled to the double pipe 10 is embedded in the wall and the faucet valve socket 30 is connected to the faucet header 20, the faucet header 20 The front edge is opened, the inclination adjustment groove 25 is formed on the left and right sides of the front edge, the inclination adjustment protrusion 35 of the valve socket 30 for receiving is inserted into the corresponding portion of the inclination adjustment groove 25 is mounted. The upper and lower coupling holes 33 of the valve socket 30 pass through the inclination adjusting screw 21 and are fixed to the head of the power receiver 20. The valve socket 30 of the power receiving socket 32 has an inlet 32 and a discharge hole ( 34) and the outlet port 36 is provided in one body, and the inlet 32 and the outlet port 34 are connected to the ends of the flexible pipe 40 embedded in the pair of double pipes 10, respectively, and the outlet 36 is connected to the faucet ( Wall-mounted faucet coupling system, characterized in that 50) is coupled.
According to claim 1, wherein the inlet 32 and the outlet 34 is inserted into the inside of the soft pipe 40 in the nipple ("ipple") of the cross section is coupled to the outside of the soft pipe (40) Wall-mounted faucet coupling system, characterized in that fixed to the fixed band 70 is coupled to the faucet header 20 and the faucet (36) is coupled to the faucet (50).
The inlet 32 and the outlet 34 are nipples having a cross-sectional shape of “凹”, and the soft pipe 40 is inserted into the nipple and coupled to the nipple. Wall outlet type faucet coupling system, characterized in that coupled to the outlet (36) to the faucet 50 is coupled to.
According to claim 1, The coupling plate 31 of the valve socket 30 for receiving the upper and lower coupling holes 33 and the left and right inclination adjusting projection 35 to open the portion to enable the observation of the internal state of the coupling plate Wall-mounted faucet coupling system, characterized in that.
According to claim 1, The valve socket 30 for receiving is adjusted to the upper and lower inclination by adjusting the tightening degree of the inclined adjustment screw 21 fitted in the coupling hole 33 formed up and down in the coupling plate 31, the coupling plate (31) The wall-mounted faucet coupling system characterized in that the front end surface is adjusted to match the finish line of the wall by adjusting the height of the left and right by adjusting the protrusion height of the inclined adjustment protrusion 35 formed to protrude from the rear left and right.
The method of claim 1, wherein the engaging jaw is formed so that the engaging plate 31 of the valve socket 30 for power receiving header 20 is caught on the front rim of the power receiving header 20, the valve socket 30 for receiving power is mounted, and the upper and lower coupling holes pass through. Wall-mounted faucet coupling system, characterized in that for fixing the valve socket (30) for power distribution.
The inlet portion 82 and the outlet portion 84 of claim 1, wherein the double tube 10 is formed to be divided, and between the divided double tube 10 is accommodated for the soft tube 40 corresponding to the extra length. It consists of a curved tube having a constant angle and the curvature of the inner circumferential edge 86 is smaller than the curvature of the outer circumferential edge 88 so that the full length of the outer circumferential edge 88 is longer than the full length of the inner circumferential edge 86 ( Wall-mounted faucet coupling system characterized in that it is further provided.
According to claim 1, wherein the faucet header 20 is formed to be divided and between the divided faucet header 20 and the faucet header 20, the soft length corresponding to the extra length for withdrawing and mounting the valve socket 30 Wall-mounted faucet coupling system, characterized in that the installation of the elliptical double tube (83) to make the tube 40 receiving space.