KR102337792B1 - A Water Socket Assembly and A Building Water Managing System - Google Patents

Abstract

The present invention relates to a water socket assembly and a water treatment system in a building, and the structure of the water socket assembly is formed in a rectangular parallelepiped, a space is formed inside, the front is open, and a pipe through hole through which the pipe can pass is formed. a housing that is inserted into the inner space of the housing and positioned on the upper front surface of the housing, and a water socket body having a pair of pipe connection ports formed thereunder, and a pair of holes positioned on the front surface of the water socket body It is formed of a plate and a pipe to which the connector of the pipe is exposed, one end is exposed through the front surface of the plate, the other end is formed of a first pipe communicating with an external water supply line, and a pipe, and one end is the A second pipe that is exposed through the front surface of the plate and the other end communicates with an external drain line, the first pipe and the second pipe are installed in the flow rate, pressure, temperature, and flow rate of the liquid flowing inside each pipe It is characterized in that it includes a sensing unit for detecting moisture.

Description

A Water Socket Assembly and A Building Water Managing System }

The present invention relates to a water treatment system in a building, and more particularly, to a water socket assembly capable of smoothly supplying and draining water in order to use water safely and conveniently in a building, and to a water treatment system in a building using the same.

Recently, the need for new products is increasing due to the government's smart city promotion plan and changes in consumer life trends, one example of which is related to water.

In the previous process of water utilization, large-scale equipment was used for washing, mixing, or eating water. Its use has been expanded to home appliances and household goods such as

Water is always shared with human life along with electricity, and a home is needed in every part.

However, in a stagnant structure, water is rapidly polluted by the propagation of bacteria and often requires water supply, cleaning, and replacement. .

As a result, in order to use water more safely and conveniently, a systemic infrastructure that can smoothly supply/discharge water around the equipment is required, and a typical example is an automatic water treatment system in a building. That is, a water socket (water outlet) is provided like an electrical outlet in a building to facilitate water supply/drainage anywhere in the room, but a strong safety device is used to fundamentally prevent water leakage into the room.

In addition, it automatically recycles water generated by the operation of devices such as air conditioners, dehumidifiers, and water purifiers, discarded water, or naturally generated water (rainwater) from the outside, ultimately conserving resources and enriching the lives of consumers. It is an important item.

Registered Patent No. 10-1979381

The present invention is to solve the above problems, and an object of the present invention is to provide a water socket assembly capable of simply and stably installing and controlling water supply and drainage in each space in a building and a water treatment system in a building. .

In order to achieve the above object, the water socket assembly of the present invention includes a housing that is formed as a rectangular parallelepiped, a space is formed therein, a front surface is opened, and a pipe through hole through which a pipe can pass is formed at a lower side of the housing; The water socket body is inserted into the inner space and positioned on the upper front surface of the housing, and a pair of pipe connection ports are formed on the lower side, and a pair of holes are formed on the front side of the water socket body so that the pipe connection port is formed. Each of the exposed plates and the pipe are formed so that one end is exposed through the front surface of the plate, and the other end is formed of a first pipe communicating with an external water supply line and a pipe, and one end is exposed through the front surface of the plate. The other end includes a second pipe communicating with an external drain line, and a sensing unit installed in the first pipe and the second pipe to sense the flow rate, pressure, temperature and moisture of the liquid flowing inside each pipe characterized in that

Another embodiment of the present invention includes a housing that is formed in a rectangular parallelepiped, a space is formed therein, a front surface is opened, and a pipe through hole through which a pipe can pass is formed below, and is inserted into the inner space of the housing and the housing It is provided with a water socket body located on the upper front surface of the water socket body, on which the electric parts are mounted, and a pair of pipe connectors on the lower side, and a display positioned on the front surface of the water socket body to show information on the electric parts, and the operation is carried out. a plate provided with a button for, a pair of polygonal holes formed at the bottom to expose the connector of the pipe, a cover positioned below the plate 30 to shield the front of the housing, and a pipe It is formed so that one end is exposed through the front surface of the plate, the other end is formed of a first pipe communicating with an external water supply line, and a pipe, one end is exposed through the front surface of the plate, and the other end is an external drain line and a second pipe in communication with the first pipe and a sensing unit installed in the first pipe and the second pipe to sense the flow rate, pressure, temperature, and moisture of the liquid flowing inside each pipe.

It is characterized in that a wire through hole through which the power and communication cable can pass is further provided on the upper end or both sides of the housing.

The first pipe includes a first pipe body formed of a pipe and disposed perpendicular to the housing, a 1-1 connector passing through the front surface of the plate and connected to a water supply pipe of an external device, and the first pipe The first 1-2 connector connected to the lower end of the body and connected to one end of the external water supply line, and provided between the first pipe body and the 1-1 connector 54 to change the flow direction of the fluid It is characterized in that it includes a connection elbow.

In addition, the in-building water treatment system according to another embodiment of the present invention uses the above-described water socket assembly, is provided between raw water and the first pipe of the water socket assembly, is formed as a pipe, and connects the raw water and the first pipe. line, a water supply manual valve provided in the direction of the raw water among the water supply lines to selectively control the water supply line, and a pressure reducing valve provided on one side of the water supply manual valve among the water supply lines to adjust the pressure of the fluid in the water supply line; a water supply automatic valve provided on one side of the pressure reducing valve of the water supply line to selectively control the water supply line, and a water supply pressure sensor provided on one side of the automatic water supply valve of the water supply line to measure the pressure of the fluid inside the water supply line , a water supply flow rate sensor provided on one side of the water supply pressure sensor of the water supply line to measure the flow rate of the fluid inside the water supply line, and a water supply flow rate sensor provided on one side of the water supply line to direct the fluid inside the water supply line to the sewer It is characterized in that it further comprises an automatic drain valve for selectively discharging.

The present invention has the following effects in a water socket assembly and a water treatment system in a building.

Consisting of a single socket assembly type structure, it can be easily installed on a pipeline for water supply and drainage in a building, so installation is easy. , When water is not used for a certain period of time, the automatic drain valve is operated through the sensor to keep the pressure in the pipe constant, thereby preventing water from flowing into the room, thereby ensuring high stability.

In particular, by stably establishing indoor water supply and drainage infrastructure, expansion and development into various forms such as water-related home appliances and equipment is expected. There is an advantage that an opportunity to improve quality can be provided.

1 is an exploded perspective view showing the configuration of a water socket assembly according to the present invention;
Fig. 2 is an exploded perspective view showing the configuration of a part of the water socket assembly of Fig. 1;
FIG. 3 is a perspective view showing a configuration in which parts of the water socket assembly of FIG. 2 are assembled;
4 is a configuration diagram showing a water treatment system of a building using the water socket assembly of the present invention.
5 is a configuration diagram showing another embodiment of the water treatment system of the building using the water socket assembly of the present invention.
6 is a perspective view showing another embodiment of the water socket assembly of the present invention.

Hereinafter, a preferred embodiment of a water socket assembly according to the present invention and a water treatment system in a building using the same will be described in detail with reference to the accompanying drawings.

First, as shown in FIG. 1, the water socket assembly according to the present invention is formed in a rectangular parallelepiped, a space is formed therein, a front surface is opened, and a pipe through hole 12 through which a pipe can pass is formed at the bottom. The housing 10 and the water socket body 20 inserted into the inner space of the housing 10 and positioned on the upper front surface of the housing 10, on which the electric components are mounted, and a pair of connecting ports for the pipe formed therein. ) and the water socket body 20 is positioned on the front side of the display to show the information of the electric parts, and a button for operation is provided, and a pair of holes is formed at the bottom to expose the connection port of the pipe, respectively. a plate 30 to be used, a cover 40 positioned below the plate 30 to shield the front surface of the housing 10, and a pipe with one end exposed through the front surface of the plate 30 The other end is formed of a first pipe 50 communicating with the external water supply line (I) and a pipe, and one end is exposed through the front surface of the plate 30, and the other end is in communication with the external drain line A second pipe 60 and a sensing unit 52 installed in the first pipe 50 and the second pipe 60 to sense the flow rate, pressure, temperature and moisture of the liquid flowing inside each pipe; 62) may be included.

First, a housing 10 is provided in the water socket assembly according to the present invention. The housing 10 forms the body of the water socket assembly according to the present invention, is formed in a rectangular parallelepiped, and has a space therein.

Various parts constituting the water socket assembly according to the present invention, which will be described below, may be installed in the space. In addition, the front of the housing 10 is opened and a pipe through hole 12 is provided at the lower side.

Through the open front surface of the housing 10, various parts such as the water socket body 20 and the plate 30 to be described below can be installed and replaced simply. The pipe through hole 12 allows the pipes 50 and 60 for supply and drainage to be described below to pass therethrough.

In addition, a wire through hole 14 is further provided on the upper end, both sides or the rear surface of the housing 10 . The wire through hole 14 allows a power cable (not shown) and a communication cable (not shown) capable of receiving power and a signal to be installed through the electric component in the housing 10 .

A water socket body 20 is provided in the housing 10 . The water socket body 20 is located on the upper front surface of the housing 10, various electric parts are mounted therein, and the lower part is fixed to which the pipe sockets 55 and 65 of polygonal or circular pipe can be mounted. The hole 22 is formed, so that the water socket assembly of the present invention and the water treatment system can be operated.

In addition, a plate 30 is provided on the front surface of the water socket body 20 . The plate 30 is located on the front surface of the water socket body 20, and may be provided with a display unit displaying information of the electric components and various buttons for operation. A hole through which the connector of the pipe is exposed to the outside is formed below the plate.

A cover 40 is further provided on the front surface of the housing 10 . The cover 40 is formed in a plate shape and provided below the front surface of the housing 10 to selectively shield the space of the housing 10 . It may be located below the plate 30 .

In addition, a first pipe 50 and a second pipe 60 are provided in the housing 10 . The first pipe 50 and the second pipe 60 are each formed of a pipe.

One end of the first pipe 50 is exposed through the front surface of the plate 30, and the other end passes through the pipe passage 12 below the housing 10 so as to communicate with the external water supply line I. is positioned That is, raw water is guided to be supplied to the 1-1 connector 54 of the first pipe 50 through the first pipe 50 .

And, one end of the second pipe 60 is exposed through the front surface of the plate 30, and the other end is a pipe passage 12 under the housing 10 so that it communicates with the external drain line O. located through That is, the sewage discharged to the 2-1 connector 64 of the second pipe 60 through the second pipe 60 is guided to be drained to the drain line O. As shown in FIG.

In addition, sensing units 52 and 62 are provided in the first pipe 50 and the second pipe 60 . The sensing units 52 and 62 serve to sense the flow rate, pressure, temperature, and moisture of the liquid moving through the first pipe 50 and the second pipe 60 . That is, the information sensed by the sensing units 52 and 62 is transmitted to the electric part of the water socket body 20 to be controlled by the internal microcomputer and displayed on the display unit of the plate 30 .

As shown in FIGS. 1 and 2 , the first pipe 50 includes a first pipe body 53 formed of a pipe and disposed perpendicular to the housing 10 , and the front surface of the plate 30 . The 1-1 connector 54 through which is connected to the water supply pipe of an external device, and the first 1-2 connector connected to the lower end of the first pipe body 53 and connected to one end of the external water supply line (I) A connector 56 and a first connector elbow 58 provided between the first pipe body 53 and the 1-1 connector 54 to change the flow direction of the fluid may be included.

Here, the outer diameter of the 1-1 connector 54 may be configured to have a shape corresponding to the fixing hole 22 on the front surface of the water socket body 20 so that it can be molded-coupled. More specifically, a first pipe socket 55 may be further provided between the 1-1 connection part 54 and the first connection elbow 58 . The outer circumferential surface of the first pipe socket 55 may be formed to correspond to the polygonal shape of the fixing hole 22 on the front surface of the water socket body 20 to be molded.

And, as shown in FIGS. 1 and 2 , the second pipe 60 includes a second pipe body 63 formed of a pipe and disposed perpendicular to the housing 10 , and the plate 30 . The 2-1 connector 64 is connected to the drain pipe of an external device through the front of (66) and a second connection elbow (68) provided between the second pipe body (63) and the 2-1 connector (64) to change the flow direction of the fluid.

Here, the outer diameter of the 2-1 connector 64 may be configured to have a shape corresponding to the fixing hole 22 on the front surface of the water socket body 20 so that it can be molded-coupled. More specifically, a pipe socket 65 may be further provided between the 2-1 connection part 64 and the second connection elbow 68 . The outer circumferential surface of the second pipe socket 65 may be formed to correspond to the polygonal shape of the fixing hole 22 on the front surface of the water socket body 20, and may be molded-coupled.

The water socket assembly according to the present invention can be installed in a necessary part of the inner wall or floor of a building. That is, a groove corresponding to the housing 10 is formed in the inner wall of the building, etc. and the present invention is installed in the groove. More specifically, the housing 10, the first pipe 50 and the second After the pipe 60 is first constructed, a water socket may be installed inside the housing 10 to be installed.

Next, the configuration of the in-building water treatment system using the water socket assembly of the present invention will be described.

As shown in FIG. 4 , in the water treatment system in a building according to the present invention, it is provided between raw water and the first pipe 50 of the water socket assembly, and is formed as a pipe to connect the raw water and the first pipe 50. A line (i), a drain line (O) provided between the sewer and the second pipe of the water socket assembly, and a water supply line (I) provided in the raw water direction to selectively control the water supply line (I) A water supply manual valve 72, a pressure reducing valve 74 provided on one side of the water supply manual valve 72 of the water supply line (I) to adjust the pressure of the fluid inside the water supply line (I), and the water supply line ( Among I), an automatic water supply valve 76 provided on one side of the pressure reducing valve 74 to selectively control the water supply line (I), and one side of the automatic water supply valve 76 among the water supply line (I), the water supply A water supply pressure sensor 77 for measuring the pressure of the fluid inside the line (I), and provided on one side of the water supply pressure sensor 77 of the water supply line (I) to measure the flow rate of the fluid inside the water supply line (I) and a drain automatic valve 79 provided on one side of the water supply flow rate sensor 78 of the water supply line (I) to selectively discharge the fluid inside the water supply line (I) in the direction of the sewer. It may be composed of

First, a water supply line (I) is provided in the in-building water treatment system according to the present invention. The water supply line (I) is formed of a pipe and serves to connect the first pipe 50 of the above-described water socket assembly and raw water.

The water supply line (I) is provided with a water supply manual valve (72). The water supply manual valve 72 serves to selectively block the movement of water moving along the water supply line (I). The water supply manual valve 72 is applicable to any configuration as long as it is a configuration of a valve having the above-described function. The water supply manual valve 72 may be provided close to the raw water in the water supply line (I).

And, the pressure reducing valve 74 is provided in the water supply line (I). The pressure reducing valve 74 is provided on one side of the water supply manual valve 72 of the water supply line (I) and serves to adjust the pressure of the fluid inside the water supply line (I).

And, the water supply line (I) is provided with an automatic water supply valve (76). The automatic water supply valve 76 is provided on one side of the pressure-reducing valve 74 and serves to selectively control the flow of fluid moving along the water supply line (I). The automatic water supply valve 76 serves to block the water supply line (I) by receiving a signal from the control unit when the control unit (not shown) blocks water supply, which will be described below.

And, the water supply line (I) is provided with a water supply pressure sensor (77). The water supply pressure sensor 77 is provided on one side of the automatic water supply valve 76 of the water supply line (I) and serves to measure the pressure of the fluid inside the water supply line (I). That is, the water supply pressure sensor 77 measures the pressure of the fluid in the water supply line (I) and serves to transmit the information to the control unit.

The water supply line (I) is provided with a water supply flow rate sensor (78). The water supply flow rate sensor 78 is provided on one side of the water supply pressure sensor 77 of the water supply line (I) to measure the flow rate of the fluid inside the water supply line (I). That is, the water supply flow rate sensor 78 measures the flow rate of the fluid in the water supply line I, and serves to transmit the information to the control unit.

An automatic drain valve 79 is provided in the water supply line (I). The automatic drain valve 79 is provided on one side of the water supply flow rate sensor 78 of the water supply line I to selectively discharge the fluid inside the water supply line I in the direction of the sewer. That is, when the automatic water supply valve 76 is closed, the fluid remaining in the water supply line (I) receives information from the water supply pressure sensor 77 and the water supply flow rate sensor 78 and the drain automatic valve 79 opens and closes and discharges to the sewer.

And, the water supply line (I) is further provided with a water distribution distributor (80). As shown in FIG. 4, the water distributor 80 serves to distribute water to the living room as well as the master bedroom, kitchen, children's room, and multi-purpose room. can

The water supply line (I) and the drain line (O) can apply metal and non-metal pipes, and can use a tube made of an elastic material that withstands water pressure and has a long lifespan. In particular, for the wall and floor concrete buried part, as shown in FIG. 1 , a synthetic resin corrugated pipe having a larger diameter and flexible like the 1-2 connector 56 and the 2-2 connector 66 can be applied together. This is a structure in which the water supply line (I) and the drain line (O) are drawn out through the 1st and 2nd connector 56 and the 2nd-2nd connector 66. The reason for applying this is, above all, installation and replacement. to make it easy

In addition, a storage unit 90 may be further provided in the drain line O connected to the second pipe 60 . The storage unit 90 is provided with a filter (not shown) therein so that it can be reused after purifying foreign substances from the wastewater moving along the drain line (O).

In more detail, the storage unit 90 serves to purify foreign substances from the drainage water moving along the drainage line O, and then store it so that it can be used as regenerated water supplied to plants and the like.

In addition, by installing a drainage distributor 81 in the storage unit 90, water formed by an operation such as an air conditioner or a dehumidifier installed in a room, and water and rainwater drained through the automatic drain valve 79 are stored in the storage unit ( 90) and can be collected and recycled.

In addition, a control unit for controlling the automatic water supply valve 76 , the pressure sensor 77 , the flow rate sensor 78 , the automatic drain valve 79 and the distributor 80 is provided.

Next, the operation of the water socket assembly of the present invention and the water treatment system in a building using the same will be described in detail.

A user installs a device that uses or discharges water, such as a water purifier, air conditioner, or dehumidifier, in each of the 1-1 and 2-1 connectors 54 and 64 of the water socket assembly installed on the inner wall of the building. In more detail, it will be described based on a water purifier in which both supply and drainage are performed. First, it is connected to the 1-1 connector 54 of the first pipe 50 through a tube from the water supply port of the device.

Then, the tube is connected to the 2-1 connector 64 of the second pipe 60 from the drain port through which water is discharged from the device.

That is, the water of external raw water is supplied to the device through the first pipe 50 , and the water used in the device is again discharged to the drain line O through the second pipe 60 .

On the other hand, when the water supply manual valve 72 of the water supply line (I) connected to the raw water is opened, the external raw water flows into the building water treatment system and is discharged through the sewer, and the external raw water flows through the pressure reducing valve 74. As it passes through, the pressure of the water increases by the required pressure.

And, when it is input to supply water through the control unit, water is introduced along the water supply line (I) while the automatic water supply valve 76 is opened, and the water is guided along the flow path of the home pipe through the water supply distributor 80. .

The water introduced through the pipe is supplied to the device connected to the water socket assembly, and the water used in the device is discharged through the water socket assembly and is guided to the sewer through the drain line (O).

On the other hand, when the control unit blocks the water supply line (I), the automatic water supply valve 76 is closed. Then, the pressure sensor 77 and the flow sensor 78 sense information about the fluid remaining in the water supply line I and transmit it to the control unit, and the control unit opens the automatic drain valve 80 to open the automatic drain valve. The water remaining in the water supply line (I) is automatically discharged through the valve (80), and as a result, the pressure inside the water supply line (I) is removed to fundamentally prevent water leakage into the room.

In addition, the pressure sensor 77 and the flow sensor 78 in the system shown in FIG. 4 serve as the first sensing unit 52 in FIG. 1 , and a drain valve is formed in the water supply line (I). to forcibly remove the water inside the water supply line (I) of each water socket assembly.

In addition, as another embodiment of the water socket assembly of the present invention, the configuration is the same as that of FIG. 1 , but the electric parts are not mounted on the water socket body 20 as in the example of the master bedroom, kitchen, children's room, and utility room of FIG. 4 . , it may be configured so that the display and the button are not provided on the plate 30 .

As such, those skilled in the art to which the present invention pertains will understand that the above-described technical configuration of the present invention may be implemented in other specific forms without changing the technical spirit or essential characteristics of the present invention.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is shown in the claims to be described later rather than the detailed description, and the meaning and scope of the claims and their equivalents All changes or modifications derived from the concept should be construed as being included in the scope of the present invention.

10: housing 12: pipe through hole
14: wire through hole 20: water socket body
22: fixing hole 30: plate
40: cover 50: first pipe
52: first sensing unit 54: no. 1-1 connector
55: first pipe socket 56: second connector
58: first connection elbow 60: second pipe
62: second sensing unit 64: no. 2-1 connector
65: second pipe socket 66: second 2-2 connector
68: second connection elbow 72: water supply manual valve
74: pressure reducing valve 76: automatic water supply valve
77: pressure sensor 78: flow sensor
79: automatic drain valve 80: water distributor
81: drainage distributor 90: storage unit

Claims (5)

The housing is formed in a rectangular parallelepiped, the space is formed therein, the front is open and a pipe through hole through which the pipe can pass at the lower side is formed;
a water socket body inserted into the inner space of the housing and positioned on the upper front surface of the housing, the water socket body having a pair of connecting ports formed therein;
a plate positioned on the front surface of the water socket body and having a pair of holes to expose the connection ports of the pipe;
a first pipe formed of a pipe, one end exposed through the front surface of the plate, and the other end communicating with an external water supply line;
a second pipe formed of a pipe, one end exposed through the front surface of the plate, and the other end communicating with an external drain line; and
and a sensing unit installed in the first pipe and the second pipe to sense the flow rate, pressure, temperature, and moisture of the liquid flowing inside each pipe. The housing is formed in a rectangular parallelepiped, the space is formed therein, the front is open and a pipe through hole through which the pipe can pass at the lower side is formed;
a water socket body inserted into the inner space of the housing, positioned on the upper front surface of the housing, on which electric components are mounted, and a pair of connecting ports for pipes formed thereunder;
a plate positioned on the front side of the water socket body, provided with a display showing information on the electrical components, provided with a button for operation, a pair of polygonal holes formed at the lower side to expose the connector of the pipe;
a cover positioned below the plate 30 to shield the front surface of the housing;
a first pipe formed of a pipe, one end exposed through the front surface of the plate, and the other end communicating with an external water supply line;
a second pipe formed of a pipe, one end exposed through the front surface of the plate, and the other end communicating with an external drain line; and
and a sensing unit installed in the first pipe and the second pipe to sense the flow rate, pressure, temperature, and moisture of the liquid flowing inside each pipe. The method of claim 1,
The housing is a water socket assembly, characterized in that installed on the inner wall of the building. The method of claim 1,
The first pipe,
a first pipe body formed of a pipe and disposed perpendicular to the housing;
a 1-1 connector connected to a water supply pipe of an external device through the front surface of the plate;
first and second connectors connected to the lower end of the first pipe body and connected to one end of an external water supply line; and
and a first connection elbow provided between the first pipe body and the 1-1 connector to change the flow direction of the fluid. Using the water socket assembly of claim 1,
a water supply line provided between raw water and the first pipe of the water socket assembly, the water supply line being formed of a pipe and connecting the raw water and the first pipe;
a water supply manual valve provided in the raw water direction among the water supply lines to selectively control the water supply line;
a pressure reducing valve provided at one side of the water supply manual valve in the water supply line to adjust the pressure of the fluid inside the water supply line;
an automatic water supply valve provided on one side of the pressure reducing valve of the water supply line to selectively control the water supply line;
a water supply pressure sensor provided on one side of the automatic water supply valve in the water supply line to measure the pressure of the fluid inside the water supply line;
a water supply flow rate sensor provided on one side of the water supply pressure sensor of the water supply line to measure the flow rate of the fluid inside the water supply line; and
and an automatic drain valve provided on one side of the water supply flow rate sensor of the water supply line to selectively discharge the fluid inside the water supply line toward an external sewer.

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