KR200408182Y1 - Sensor for water supply system - Google Patents

Abstract

The present invention relates to a domestic water supply system for supplying water to each shopping mall or furniture in a building from a water tank of a building, and more particularly, is installed on a pipeline for operation of the water supply system, The present invention relates to a sensing device for a living water supply system in which a sensing is performed as a general signal. The sensing device includes a floating water level sensor S in a pipe joint 110 installed between pipe lines, thereby providing an existing machine. Not only can significantly reduce the failure rate compared to the conventional sensing device, but also enables fine sensing so that the problems of applying the mechanical sensing device, such as pumps and valves, are reached until a certain pressure can be achieved. The water supply system, including lamps, does not work, so low water pressure is supplied to each store or household. There are other related effects that can eliminate the hassle and inconvenience of use living unit.

Pipe Joint, Floating Water Level Sensor, Float, Metal Bar, Magnetic Field Sensor

Description

Sensor for water supply system

1 is an exploded perspective view showing a first embodiment of the present invention.

Figure 2a, Figure 2b shows the assembly and operating state of Figure 1,

2A is a cross-sectional view showing a state before operation.

Figure 2b is a cross-sectional view showing an operating state.

3a and 3b show a second embodiment of the present invention,

Figure 3a is an exploded perspective view.

Figure 3b is a cross-sectional view showing the assembled state.

4 is a cross-sectional view showing a third embodiment of the present invention.

Figure 5 is a cross-sectional view showing a sensing device for controlling the pump of the conventional water supply system for living water.

6a and 6b show the pressure switch of FIG.

6A is a front view showing a state before operation;

Figure 6b is a front view showing an operating state.

* Explanation of symbols for main parts of the drawings

S: Floating level sensor 10: Float

11: Injection 12: Jam jaw

13: Inclined surface 20: Electromagnetic field generating part

21: metal ring 22: metal rod

23: magnetic field sensor 24: insulator

24a: Insertion hole 25: Cap

25a: Lead wire through hole 26: Measurement tube

26a: graduation 26b: taper

 The present invention relates to a domestic water supply system for supplying water to each shopping mall or furniture in a building from a water tank of a building, and more particularly, is installed on a pipeline for operation of the water supply system, The present invention relates to a sensing device of a domestic water supply system in which sensing is performed as a general signal.

In general, when there are several shopping malls or furniture in a building, the water supplied to the building in the form of water is a pipe structure branched from the main pipe so that water can be supplied to each shopping mall or furniture. And a pressure difference due to the difference in height.

As a result, the shopping mall or furniture where low water pressure is supplied can not obtain the water pressure required for living appliances such as bidet or water ionizer, resulting in the inconvenience and inconvenience of use. The water tank is provided, and the water of the water tank is in the situation of constructing a water supply system for living water, which is forcibly supplied to each shop or household by means of a pump or a valve.

However, at this time, the pump and the valve is not always operated, but is configured to operate only when the inside of the conduit reaches a certain pressure, so that a device for detecting the pressure is installed on the conduit. The signal is transmitted to the control unit and configured to operate the pump only by the operation command of the control unit.

5 is a cross-sectional view showing a detection device of a conventional water supply system for living water.

As shown therein, the sensing device has a switch input tube 120 communicating with the inside of the pipe joint 110 on one side of the pipe joint 110 having an inlet 111 and an outlet 112, and the switch input. Pressure switch 130 is installed on the end side of the pipe 120 is configured to detect the internal pressure of the pipe by the operation of the pressure switch 130.

The pressure switch 130 is a switch that repeats contact and opening by mechanical pressure as shown in Figure 6a, the fixed contact 136 is connected to approximately (+) (-) terminals 135, 135a Is provided, the lower side of the fixed contact 136 is provided with a movable contact 134a which is always in contact with the fixed contact 136 by the elastic force of the upper spring 137, the movable contact 134a is a contact plate 134 It is configured to be supported by).

In addition, the lower side is provided with a spring support 131 that is elastically supported in the closing direction by the pressure input through the switch input tube 120 and the lower spring 132, the spring support (131) when the spring support (131) A movable piece 133 moving in the opposite direction with respect to 131 is provided, and the movable piece 133 and the contact plate 134 having the movable contact 134a are configured to interlock with each other in the same direction.

The pressure switch 130 configured as described above has a spring support 131 having a lower spring 132 as shown in FIG. 6B when the pressure input through the switch input tube 120 is greater than the elastic force of the lower spring 132. Overcome the elastic force of, and move to the upper side.

Accordingly, the movable piece 133 moves in the opposite direction to the spring support 131, that is, the lower side, and the contact plate 134 together with the movable piece 133 moves in the same direction while overcoming the elastic force of the upper spring 137. The fixed contact 136 and the movable contact 134a which are interlocked and in contact with each other are opened to be transmitted to the control unit as a detection signal.

However, the conventional sensing device of the water supply system for living water is configured to be in contact and open by mechanical repetitive operation, so that the failure rate is high, and the internal pressure of the pipeline reaches the set pressure determined by the elastic force of the lower spring. Only pumps and valves are operated so that there is a problem in that the mall or furniture which is still supplied with low water pressure until reaching the set pressure has to take the hassle and inconvenience of using water. .

The present invention has been made to solve the above-mentioned conventional problems, the purpose of the water supply system for living water supplying water to each shopping mall or furniture in the building from the water tank of the building, the water supply system It is to enable the detection device installed on the pipeline for the operation of the electric signal by the floating operation.

In addition, it is an object of the present invention to protect the electrical equipment and the related lead wire and the like for detecting the electrical signal by the floating operation as described above from the outside.

In addition, an object of the present invention is to adjust the detection level determined by the distance between the metal ring of the float floating in accordance with the water level and the magnetic field sensor inside the metal rod through the metal ring due to the floating of the float, the magnetic field for the metal rod It is to allow the operator to measure the insertion amount of the sensor by the scale.

In addition, an object of the present invention is to provide a sensing function by the floating operation and the detection function by the internal pressure to compensate for the loss of the detection function by the floating operation.

In order to achieve the object of the present invention in the living water supply system in which the operation of the system by the operation command of the control unit by the signal of the sensing device installed on the pipeline, the sensing device, the pipe joint is installed between the pipeline There is provided a sensing device for a domestic water supply system, characterized in that it is provided with a floating water level sensor.

The floating water level sensor may include: a float provided inside the pipe joint; And an electromagnetic field generator for outputting an electrical signal detected by the generation of the electromagnetic field due to the floating of the float.

In addition, the float is formed of a hollow injection molded in the lower part is opened to the upper side, the upper end of the injection is formed with an annular locking step, characterized in that the downward inclined surface is formed around the lower side of the locking step.

In addition, the electromagnetic field generating unit and the metal ring provided to penetrate the central portion of the float; A metal rod provided inside the upper pipe joint of the float; And a magnetic field sensor provided inside the metal rod.

In addition, the metal rod is supported by an insulator fastened to the opening of the pipe joint, the insulator is characterized in that the cap having a lead wire through hole on the upper side while having an insertion hole communicating with the inside of the metal rod is detachably provided. It is done.

In addition, the magnetic field sensor is inserted into the inside of the measuring tube which is coupled to the inner spiral of the metal tube is fixed, the measuring tube is characterized in that the scale is engraved on the outer surface is configured to measure the insertion degree of the magnetic field sensor.

In addition, it is characterized in that the pressure switch is further added to one side of the pipe joint.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention according to the embodiment.

In general, the water supply system for living water is forcibly pumped out of the water tank of the building connected to the direct pipe to each mall or furniture in the building by the operation of a pump and a valve, and the related devices such as the pump and the valve are The operation is made by the operation command of the control unit by the signal of the sensing device installed on the pipeline.

In such a daily water supply system, the present invention is characterized in that the sensing device is configured by having a floating water level sensor in the pipe joint installed between the pipelines.

1 is an exploded perspective view showing the overall configuration of the present invention.

As shown therein, the pipe joint 110 is formed in a direction in which the outlet 112 is perpendicular to the inlet 111, and the floating water level sensor S is provided inside the pipe joint 110. As it is, the floating water level sensor (S) is floating in accordance with the water level of the water flowing through the inlet 111 side in the inside of the pipe joint 110, and the float 10 It consists of an electromagnetic field generation unit 20 for outputting an electrical signal detected by the generation of electromagnetic fields.

The float 10 is formed of a hollow injection-molded product 11 blocked at the bottom and opened to the upper side, and the float 10 is not escaped through the inlet 111 of the pipe joint 110 at the upper end of the injection-molded product 11. An annular locking jaw 12 is formed so that the water flowing through the inlet 111 of the pipe joint 110 may be guided toward the upper locking jaw 12 around the lower side of the locking jaw 12. It forms a structure so that the downward inclined surface 13 is formed.

The electromagnetic field generating unit 20 is installed inside the upper pipe joint 110 of the float 10 and is formed of a vertical metal rod 22 in which the magnetic field sensor 23 is embedded, and the metal rod 22. Is configured to be supported by an insulator 24 fastened to the opening 113 of the pipe joint 110, and an insertion hole 24a communicating with the inside of the metal rod 22 is formed at the center of the insulator 24. The magnetic field sensor 23 is inserted into the metal rod 22 through the insertion hole 24a.

In addition, a cap 25 is detachably provided on the upper side of the insulator 24 so as to prevent the lead wire of the magnetic field sensor 23 from being exposed to the outside, and the cap 25 is again an internal lead wire 23a. It includes a plurality of lead wire through holes (25a) to be drawn out to the outside.

In addition, by mounting a metal ring 21 in the inner center of the float 10 to allow the metal ring 21 to be close to the outside of the upper metal rod 22 when the float 10 rises, The magnetic field sensor 23 embedded in the metal rod 22 is configured to detect the magnetic field change as an electrical signal.

Figure 2a, Figure 2b is an assembly and operating state of the present invention, Figure 2a is a cross-sectional view showing a state before operation.

As shown in the present invention, the float 10 is first inserted into the inlet 111 from the inside of the pipe joint 110 freely up and down, wherein the inserted float 10 is formed at the upper end It is prevented from being pulled out through the inlet 111 by the annular locking jaw (12).

Then, the magnetic field sensor 23 is mounted inside the metal rod 22 through the insertion hole 24a of the insulator 24 constituting the electromagnetic field generating unit 20, and then the insulator 24 is connected to the pipe joint 110. ) And the lead 25 of the magnetic field sensor 23 is drawn out through the lead wire through hole 25a of the cap 25 by fastening the cap 25 to the upper side of the insulator 24. Assembly of the pipe is completed, it is very natural to connect the pipe to the inlet 111 and the outlet 112 of the pipe joint 110.

Referring to FIG. 2A in more detail, it can be seen that the distance between the metal ring 21 mounted on the float 10 and the magnetic field sensor 23 embedded in the metal rod 22 is largely separated. It does not affect the electromagnetic field generated by).

In this state, when the float 10 rises according to the water level flowing through the inlet 111 of the pipe joint 110, as shown in Figure 2b, the metal ring 21 and the magnetic field sensor 23 As the distance between them causes a magnetic field change, the magnetic field change is detected as an electric signal from the magnetic field sensor 23 and output to the controller (not shown) to perform the sensing function by the water level. The distance between the metal ring 21 and the magnetic field sensor 23 determines the detection level.

Therefore, the worker is required to have a means for identifying the depth of the magnetic field sensor 23 relative to the metal rod 22, for this purpose the present invention is provided with a measuring tube 26 as shown in Figures 3a and 3b It was configured to measure the depth of the magnetic field sensor 23 relative to the metal rod 22 as a graduation 26a.

In more detail, the measuring tube 26 is formed with a diameter into which the magnetic field sensor 23 can be inserted, as shown in FIG. 3A, and the scale 26a is engraved in the vertical direction on the outer surface. The lower side is configured to be helically coupled to the inner side of the tab-shaped metal rod 22.

In addition, the measuring tube 26 includes a taper 26b having a smaller diameter toward the lower side such that the magnetic sensor 23 may be fixed to the inside of the measuring tube 26. Since no direct force acts on the magnetic field sensor 23 when the sensor 23 is inserted, it is sufficient to simply fix the magnetic field sensor 23 to the taper 26b by force fitting.

In more detail, first, the operator taps the measurement tube 26 having the magnetic field sensor 23 fixed therein by the taper 26b through the insertion hole 24a of the insulator 24. Spiral coupling inside the 22).

In this state, if the measuring tube 26 is rotated in one direction while holding the measuring tube 26 by hand, the measuring tube 26 is helically moved downward along the inner side of the metal rod 22, thereby causing a magnetic field inside the measuring tube 26. The sensor 23 is inserted into the metal rod 22, and the operator can visually measure the depth of the magnetic field sensor 23 through the scale 26a of the measurement tube 26, so that the float 10 It is possible to set the distance between the metal ring 21 and the magnetic field sensor 23 of the through a precise measurement rather than the main side.

4 is a cross-sectional view showing a third embodiment of the present invention.

As shown in the present invention, the pressure switch 130 together with the floating water level sensor S as described above is installed in the pipe joint 110 so as to simultaneously perform the water level detection function and the pressure detection function. It is characterized by one.

In case of emergency, that is, when the amount of water flowing into the pipe joint 110 by the leakage of the pipe is small, the function of the floating water level sensor (S) is lost, the pressure switch installed in parallel with the pipe joint ( By detecting the water pressure by 130), it is possible to operate a related device such as a pump and a valve, thereby having an advantage of complementing the sensing function.

As described above, the present invention is a living water supply system for supplying water to each shopping mall or furniture in a building from a water tank of a building, and a floating device is installed on a pipeline for the operation of the water supply system. By configuring to detect changes in the electromagnetic field, not only can the failure rate be significantly reduced compared to the conventional mechanical detection device, but also the fine detection is possible, so that various problems caused by the application of the mechanical detection device, that is, the degree of mechanical operation can be achieved. The pump is stopped until the pressure is reached, which has the effect of eliminating the inconvenience and inconvenience of using the related household equipment as the water of low pressure is supplied to each store or furniture.

In addition, the present invention, as described above, by preventing the lead wires of various electrical appliances used for generating the electromagnetic field to the outside by the cap to protect the electrical appliances as well as to eliminate the appearance defects by the lead wires.

In addition, the present invention is configured to be able to identify the depth of the magnetic field sensor embedded in the metal rod by the measurement of the scale by moving the spiral for the detection of the electrical signal according to the change of the electromagnetic field to make the adjustment of the detection level more precise and finer There is an advantage to this.

In addition, the present invention allows the simultaneous operation of the detection function by the internal pressure together with the floating operation by the water level, so that the control of the pump by the pressure detection function can be achieved even if it causes the loss of the floating detection function due to leakage of the pipeline. It will also have the effect.

Claims (7)

In the water supply system for living water in which the operation of the system is performed by an operation command of a control unit by a signal of a sensing device installed on a pipeline The sensing device is a sensing device of the water supply system for living water, characterized in that it is provided with a floating water level sensor (S) in the interior of the pipe joint 110 is installed between the pipelines. The method of claim 1, The floating water level sensor (S), and the float (10) provided inside the pipe joint (110); Electromagnetic field generator 20 for outputting an electrical signal detected by the generation of the electromagnetic field due to the injury of the float (10). The method of claim 2, The float 10 is formed of a hollow injection-molded product 11 blocked at the bottom and opened to an upper side, and an annular locking jaw 12 is formed at an upper end of the injection-molded product 11, and a lower periphery of the locking jaw 12 is formed. There is a downward inclined surface 13, characterized in that the detection device for living water supply system. The method according to claim 2 or 3, The electromagnetic field generating unit 20 includes a metal ring 21 penetrating the central portion of the float 10; A metal rod 22 provided inside the upper pipe joint 110 of the float 10; Magnetic field sensor (23) provided in the inside of the metal rod (22); The detection device for living water supply system, characterized in that consisting of. The method of claim 4, wherein The metal rod 22 is supported by an insulator 24 fastened to the opening 113 of the pipe joint 110, and the insulator 24 has an insertion hole 24a communicating with the inside of the metal rod 22. Sensing device for living water supply system, characterized in that the cap 25 having a lead wire through hole (25a) on the upper side and detachable. The method according to claim 4 or 5, The magnetic field sensor 23 is inserted and fixed inside the measurement tube 26 that is spirally coupled to the inner side of the metal rod 22, the measurement tube 26 is engraved on the outer surface of the scale (26a) magnetic field sensor 23 A detection device for living water supply system, characterized in that configured to measure the degree of insertion. The method of claim 1, Sensing device of the domestic water supply system, characterized in that by further adding a pressure switch 130 on one side of the pipe joint (110).

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