WO2016080694A1 - Wall-embedded installation structure of multistage branching water distributor - Google Patents

Abstract

The present invention relates to a wall-embedded installation structure of a multistage branching water distributor, the structure comprising: a housing (300) provided inside the wall so as to ensure a predetermined space; and a water distributor (100) accommodated in the housing (300), provided with an inflow port (110) into which water flows and a branch port (120) through which the inflowing water branches off, and having a discharge port (130) for discharging the water, wherein the housing (300) has an inlet formed toward the outside of the wall such that the water distributor (100) is provided in the housing (300) through the inlet, and bolts (B) are fastened to the housing (300) by penetrating the water distributor (100) such that the water distributor (100) is fixed to the housing (300).

Description

Wall embedment installation structure of multi-stage divergent water distributor

The present invention relates to a structure in which a water distributor is embedded in a wall, and more particularly, a coupling structure of a wall embedded installation structure of a water supply distributor for a multi-stage branch to securely fix a water distributor.

In buildings, a water supply system for supplying water from a water supply or a boiler to a bathroom, a veranda, and a sink is essential. To this end, piping is required. Currently, the most commonly used method is a one-to-one method of supplying water by connecting pipes to a desired point through a single distributor.

The one-to-one method is a method in which water supplied from a water supply source is distributed to a sink, a washing machine, a bath, a basin, a toilet, and the like, which are final water supply units directly connected through a distributor and a pipe through a distributor. However, in the above manner, since the distributor and each final water supply destination are directly connected to each other by pipes, the length of the pipe becomes longer when the distance to the final water supply destination is far. In this case, when water is used at several points at once, the water pressure is lowered at a distant point, which causes a problem that smooth water supply is not achieved.

In order to solve the above problems, a technique for a multi-stage branched water supply system capable of supplying water in multiple stages has been proposed. Patent application No. 10-2012-0132185 "water supply system" is that. The multi-stage divergent water supply system is arranged to be connected in multiple stages by sequentially connecting a plurality of faucets 200a, 200b, and 200c from the supply unit M for supplying water, as shown in FIG. It is possible to supply, but the farther distance to the water supply to reduce the diameter of the pipe in order to maintain the water pressure relatively constant.

In the multi-stage branched water supply system, water distribution is required to distribute water in multiple stages. Such a water distributor has been published in Patent Registration No. 10-1456616, "Power Tap for Multi-Stage Branching System." When the water distributor is installed in the building is required to be installed so as not to harm the aesthetics by being embedded in the wall, it was necessary to be installed so that the pipe can be easily connected while being stably fixed inside the wall.

In the present invention, an object of the present invention is to stably install a water distributor on a wall to distribute water in multiple stages. Furthermore, the purpose is to improve the convenience of construction by making it easy to connect the pipe to the water distributor installed in the wall.

In the present invention, by installing a housing embedded in the wall to install a water distributor in the housing, by fixing the water distributor to the housing to prevent movement and to stably fixed and to prevent the pipe from falling out of the housing to supply the pipe water The above object is achieved by making it easy to connect to the distributor.

According to the present invention it is possible to easily install the water distributor on the wall to be stable. In addition, since the pipe does not exit the housing, it is possible to easily secure and connect the pipe when installing or replacing the water distributor.

1 is an exemplary view showing a multi-stage divergent water supply system,

2 is a perspective view of a feedwater distributor according to the present invention;

3 is an exploded view showing a relationship in which a water distributor is accommodated in a housing according to the present invention;

4 is an exemplary view showing a state in which a water supply distributor according to the present invention is accommodated in a housing;

5 is a cross-sectional view taken along line A-A of FIG.

6 is a view illustrating a state in which a water distributor according to the present invention is accommodated in a housing and installed on a wall;

Figure 7 is an exemplary view showing a state in which the switchgear is installed in the inlet and the branch in the water supply distributor according to the present invention.

The present invention allows a water distributor for stably distributing water in multiple stages to be stably installed on the wall, multi-stage branch water distributor for improving the convenience of construction by making it easy to connect the pipe to the water distributor installed embedded in the wall We propose a wall reclamation installation structure.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 7.

Figure 1 is an exemplary view showing a multi-stage divergent water supply system, Figure 2 is a perspective view of the water distributor according to the present invention, Figure 3 is an exploded view showing the relationship that the water distributor is accommodated in the housing according to the present invention, Figure 4 is the present invention Figure 5 is an exemplary view showing a state in which the water dispenser is accommodated in the housing, Figure 5 is a cross-sectional view of Figure 4 AA, Figure 6 is an exemplary view showing a water dispenser according to the present invention installed in the housing installed on the wall, Figure 7 It is an exemplary view showing a state in which the switchgear is installed in the inlet and the branch in the water distributor.

The wall embedded installation structure of the multi-stage branch water supply distributor according to the present invention is achieved by providing a housing 300 installed inside the wall to secure a predetermined space and detachably installing the water supply distributor 100 in the housing 300. .

The housing 300 has an inlet formed toward the outside of the wall and a hole formed to allow the pipe 400 to pass toward the bottom thereof. The inlet is exposed as it is when the housing 300 is installed on the wall to install the water distributor 100 in the housing 300 through the inlet. The housing 300 is formed by molding a synthetic resin.

The water distributor 100 has an inlet 110 through which water is introduced and a branching port 120 through which the introduced water is branched, and a discharge port 130 for discharging water is formed.

The inlet 110 and the branching hole 120 communicate with each other forming a U-shaped flow path on the same plane. When the water distributor 100 is installed in the housing 300, the inlet 110 and the branching hole 120 are bottomed. Will face. Therefore, the pipe 400 which is constructed along the floor of the building and penetrates the hole formed in the housing 300 under the housing 300 may be connected to the inlet 110 and the branch 120, respectively.

The outlet 130 is formed at an intermediate point between the inlet 110 and the branch 120, the direction is toward the outside of the wall. The water outlet 130 is connected to the outlet 130 so that the water flowing into the inlet 110 flows along the flow path, partly branched to the branch 120, and partly flows to the outlet 130 to be discharged through the tap. do. By the above configuration, water can be sequentially supplied to the plurality of faucets 200a, 200b, and 200c.

The water supply distributor 100 has a bolt hole 104 is formed. The bolt hole 104 may be formed in plural in the body of the water distributor 100, the bolt (B) through the bolt hole 104 is fastened to the housing 300 by housing the water distributor (100) It becomes possible to fix firmly to (300). As a result, the water distributor 100 is installed firmly so as not to move inside the housing 300.

The bolt hole 104 may be formed on the outer periphery of the water distributor 100 as shown, but is not limited thereto, and may be formed to penetrate the body of the water distributor 100. .

On the other hand, the wall-mounted installation structure of the multi-stage branch water supply distributor according to the present invention is coupled to the support ring 420 to the pipe 400 as shown in Figures 5 and 6 pipe 400 to the outside of the housing 300 It is provided with a structure to prevent the departure.

The support ring 420 has a grab ring formed on the inner circumferential surface thereof, so that when the pipe 400 is fitted, the support ring 420 can move in one direction but cannot easily move in the opposite direction. The support ring 420 formed as described above is coupled to the end of the pipe 400. Through the pipe 400 through the hole formed toward the bottom in the housing 300 is coupled to the support ring 420 to the end of the pipe 400 in the state in which the pipe 400 end enters the housing 300 As the support ring 420 is caught by the inner wall of the housing 300, the pipe 400 is prevented from escaping out of the housing 300.

Here, the water supply distributor 100 according to the present invention, as shown in FIG. 7, the opening and closing device 160 may be installed at any one or both places of the inlet 110 and the branch outlet 120.

The opening and closing device is configured to open and close the inlet 110 and the branch 120 similarly to opening and closing the faucet. According to this configuration, when the water supply system is not necessary in the situation where the water supply system is installed in a multi-stage branching system as shown in FIG. 1, the water distributor 100 installed at a desired point among the multi-stage faucets 200a, 200b, and 200c. By controlling the opening device 160 in the intermittent flow of water it is possible to control whether or not the branch of the water.

A process of installing the feedwater distributor 100 in the housing 300 according to the present invention described above will be described.

First, the lower portion of the feedwater distributor 100 enters into the housing 300. In this state, the pipe 400 is maintained in the housing 300 by the support ring 420 and pulls the pipe 400 to the inlet port 110 and the branch port 120 formed in the water distributor 100. )).

When the connection of the pipe 400 is completed, the whole water distributor 100 is completely pushed into the housing 300. Then, the bolt (B) is driven into the bolt hole 104 and tightened until the end of the bolt (B) is lodged in the housing 300 to fix the water distributor 100 firmly to the housing 300.

When the installation of the water supply distributor 100 is completed, a discharge means such as a faucet is connected to the discharge port 130, and the cover of the inlet of the housing 300 is covered with a cover. As a result, the work of installing the water distributor 100 on the wall is completed, and the water distributor 100 can be easily and quickly installed.

Claims (4)

1. A housing 300 installed inside the wall to secure a predetermined space;

   The water supply distributor 100 is accommodated in the housing 300 and includes a water inlet 110 through which water flows in and a branching hole 120 through which the water flows through, and a discharge port 130 through which water is discharged. But

   The housing 300 is formed with an inlet toward the outside of the wall to install the water distributor 100 in the housing 300 through the inlet and the bolt (B) penetrates through the water distributor 100 to the housing 300. Wall buried installation structure of the multi-stage branch water supply distributor is fixed to the water supply distributor 100 is fixed to the housing 300.
2. According to claim 1,

   The inlet port 110 and the branch port 120 is connected to form a U-shaped flow path on the same plane to face the bottom is connected to the pipe 400 through the housing 300, respectively, the outlet 130 is It is formed at an intermediate point between the inlet 110 and the branch 120 to face the outside of the wall so that the water flowing into the inlet 110 flows along the flow path and branches to the branch 120, and the outlet 130 is opened. If a portion of the water flowing in the flow path is embedded in the wall of the multi-stage branch water supply distributor discharged to the outlet 130.
3. The method of claim 2,

   A support ring 420 having a grab ring is coupled to the pipe 400, and the support ring 420 is caught by an inner wall of the housing 300 to prevent the pipe 400 from being separated out of the housing 300. Wall embedding structure of multi-stage divergent water distributor.
4. According to claim 1,

   The water distributor 100 is a multi-stage branching water distributor for at least one of the inlet 110 and the branch opening 120 is provided with an opening and closing device 160 to control the branching of the water by controlling the flow of water. Wall reclamation installation structure.

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