KR20110120852A - Water valve measuring water pressure and transmitting wireless data - Google Patents

Abstract

PURPOSE: An underground water valve is provided to enable a worker to easily check a water leakage by measuring water pressure at water valves. CONSTITUTION: An underground water valve includes a trigger switch, a water pressure meter(67), and a water pressure transmitter. The trigger switch is triggered when an external impact is applied to the underground water valve. If the external impact is applied to the trigger switch, the water pressure meter is turned on and measures the water pressure. The water pressure transmitter transmits the water pressure measured by the water pressure meter by wireless.

Description

Groundwater tap water valve for intermittent hydraulic pressure measurement from above ground {WATER VALVE MEASURING WATER PRESSURE AND TRANSMITTING WIRELESS DATA}

The present invention relates to an underground installation tap water valve capable of intermittent hydraulic pressure measurement on the ground, and more specifically, from a tap water valve (gate valve or butterfly valve) installed in an underground valve chamber or valve box, Underground waterworks valves capable of measuring intermittent water pressure on the ground that can be measured by text or voice by automatically measuring the water pressure and transmitting it wirelessly whenever requested by the water management manager. It is about.

The water valve (gate valve or butterfly valve) used in the water supply and drainage system may be operated by a handle, but as shown in FIG. 2, most of the water valves are installed inside the valve chamber 17 or under the valve box 19. Most of the key opening / closing valves operated by metal (mainly cast iron or steel) valve keys 23 are provided. The valve key 23 is composed of a key box 25 having a rectangular hollow, a handle 29 that can be held and turned by a worker, and a long stem 27 connecting the key box 25 and the handle 29. It is composed. Therefore, all the water valves operated by the valve key 23 have a valve seat 3, as shown in FIG. 2, and the upper side of the valve seat 3 has a key box () of the valve key 23. The metal valve cap 5 in which the square head 7 inserted into 25 is detachably joined. Although only the front view of the gate valve connected to the piping 15 was shown in figure, the butterfly valve also has the metal valve cap 5 the same point.

Most tap water valves are buried underground. If the distillation valve or piping is installed shallowly from the ground, the distillation valve or the piping may be damaged by the pressure or shock applied from the ground, so the valve chamber should be as low as 1 ~ 2m and as deep as 8 ~ 10m. (17) or the valve box 19 is provided, and a water separator valve is installed there. If the valve chamber 17 is wide and an operator can enter and exit, it also serves as a manhole function, and the ground opening is closed with a manhole cover at this time. However, as shown in FIG. 2, when the valve chamber 17 is narrow or when only the valve box 19 is installed without the valve chamber, the operator cannot enter or exit the interior, and the ground opening is closed by the drawer 21. . Since the space where the distillation valve is installed is a valve chamber or a valve box in the ground, water and earth and sand are easily introduced around the distillation valve and are dark even during the day because there is no separate lighting.

The water pressure at each point in the water supply network is significant in terms of water management. For example, if the water pressure at any point is too low, it can be determined that there is a leak in the water supply pipes nearby. Water pressure measurement is also essential in determining the replacement time of pipes and in determining whether they require repairs. In particular, the water pressure should be maintained at an appropriate level in the final water phase stage, the pressurization stage or the intermediate stage. In addition, the water pressure needs to be measured also in the case of temporary regional separation of the water supply pipe, the establishment of the water supply pipe, the opening and closing of the water valve for maintenance and cleaning of the water supply pipe, and the like.

In the conventional water supply network, the water pressure measurement is made by connecting a separate pipe that can be combined with a water pressure sensor between the water supply pipes, and forming a manhole around the water supply manager. lost. However, when leak checks are frequently required, when there are a large number of points where water pressure measurement is required, and when new pipes are frequently constructed or abolished, water pressure measurement by such a method is very cumbersome.

The water supply network is equipped with a water valve to separate the network into small and large compartments for each element. Therefore, if the water pressure measurement at each distillation valve can be facilitated, management of water supply operation can be very easy.

The present invention has been made to solve the above-mentioned problems in the operation management of the conventional water supply network, the first problem to be solved by the present invention is to easily measure the water pressure on the ground whenever the water management manager is required at the point where the water valve is installed. The present invention provides an underground water supply distillation valve capable of intermittent hydraulic pressure measurement on the ground, which can be used to determine leaks on a pipeline.

The second problem to be solved by the present invention is to provide an underground waterworks tap water valve capable of intermittent pressure measurement on the ground, which can minimize the power consumption of the water pressure sensor and the pressure transmitter installed in the water valve.

An object of the present invention described above is a trigger switch that is triggered only when an external shock is applied to the tap water valve installed in the ground, and when the shock is applied to the trigger switch, power is turned on to generate water pressure. Measuring the hydraulic pressure in the hydraulic pressure measuring instrument and the pressure measuring device is solved by providing a hydraulic pressure transmitting unit for transmitting the measured hydraulic pressure wirelessly.

The pressure measuring device may be installed to penetrate through the tubular body of the water separator valve, and the water pressure transmitter may be installed in the valve cap of the water separator valve. The water pressure transmitter may include a memory storing the water pressure and the measurement date and time measured by the water pressure meter, a radio frequency transceiver wirelessly transmitting the water pressure and the measurement date and time stored in the memory, and receiving and receiving the water pressure and the measurement date and time from the pressure sensor. It may be configured as a microcontroller unit (Microcontroller Unit) for controlling the radio frequency transceiver to transmit the stored water pressure and the measurement date and time only after a certain condition stored in. A hydraulic pressure reception output unit for receiving and outputting the measured water pressure on the ground, which is installed in a portable terminal, a radio frequency transceiver for receiving the water pressure and the measurement date and time from the water pressure transmitter, a memory for storing the received water pressure and the measurement date and time, and It may be configured as a hydraulic pressure display device for synthesizing or text-forming the received pressure and measurement date and time received by the RF transceiver to an external voice or text.

A trigger switch that triggers only when an impact is applied may be provided in the hydraulic pressure transmitter. Only when the shock is applied to the trigger switch, the microcontroller unit of the water pressure transmitter controls the power of the water pressure sensor to be turned on, and controls the radio frequency transceiver of the water pressure transmitter to transmit the water pressure and the measurement date and time.

According to the present invention, since the water pressure can be easily measured and confirmed in a number of distillation valves installed in the water supply network, the water supply manager can easily find a leak point on the water supply network, and the impact is only applied from the ground. Water pressure and measurement date and time can be received and output from the mobile terminal, so it is easy to obtain water pressure, and in the absence of shock, the water pressure sensor and the pressure transmitter are stopped and do not consume power. And it is effective to minimize the power consumption of the hydraulic transmitter.

1 is a front sectional view of an underground water supply distillation valve capable of intermittent hydraulic pressure measurement on the ground according to the present invention.
2 is a partial cross-sectional view showing a state in which the smart water valve shown in FIG. 1 is installed in the ground.
3 is a configuration diagram of a pressure sensor and a pressure transmitter according to the present invention.
4 is a block diagram of a hydraulic receiving output unit according to the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, as can be seen with reference to Figure 1, the tubular body 4 is formed on both sides of the valve body 1, the pressure gauge 67 according to the present invention punctures one of the tubular body 4, This is installed so that the water pressure sensor 73 of the pressure gauge 67 contacts with water. At this time, watertightness is maintained by the O-ring 79 and the like. It is preferable to use a piezo-resistive (piezo-resistive) hydraulic pressure sensor of the MEMS type as the hydraulic pressure sensor.

As can be seen with reference to FIG. 3, the hydraulic pressure gauge 67 detects the hydraulic pressure and outputs a corresponding electric signal (voltage), and converts the hydraulic pressure using the hydraulic pressure sensor output voltage. The memory 71 storing the algorithm and the converted water pressure and the output voltage of the water pressure sensor 73 are input, calculated according to the algorithm stored in the memory 71 and stored in the memory 71 and stored in the memory 71 and the water pressure transmitter ( And a communication port 75 capable of RS-232C communication with the water pressure transmitter 31 in accordance with the control of the microcontroller unit 69.

As shown in FIG. 1, a valve cap 5 is coupled to a valve seat 3 at an upper end of the dilution valve. The valve cap 5 has an upper rectangular head 7 (usually a square pillar shape that extends toward the lower part), a flange 9 extending outward from the lower corner of the rectangular head, and the valve stem 3. The upper end of the neck 11 is inserted and fixed. The hydraulic pressure transmission unit 31 of the present invention is installed in the valve cap 5 of the water separator valve and communicates with the hydraulic pressure gauge 67. To this end, as shown in Figure 3, the hydraulic pressure transmission unit 31 is provided with a communication port 34 capable of RS-232C communication and the like. Reference numeral 77 denotes a communication line between the hydraulic pressure gauge 67 and the hydraulic pressure transmitter 31.

As can be seen with reference to FIG. 3, the water pressure transmitter 31 stores a memory 35 storing the water pressure and the measurement date and time measured by the water pressure meter 67, and the water pressure and measurement stored in the memory 35. A radio frequency transceiver 37 for transmitting the date and time wirelessly, and receiving the water pressure and measurement date and time from the hydrometer 67 and storing it in the memory 35, the radio frequency transceiver ( 37 is configured as a microcontroller unit 35 that controls transmission.

As shown in FIG. 3, the hydraulic pressure transmitter 31 further includes a trigger switch that is triggered by an impact, and only when the shock is applied to the trigger switch. It is preferable that 35 controls so that the power supply of the hydraulic pressure gauge 67 is turned on, and controls the radio frequency transceiver 37 of the hydraulic pressure transmitter to transmit the hydraulic pressure and the measurement date and time.

The trigger switch that reacts by an impact includes a shock switch 39, which is electrically closed or opened when the shock is applied to the microcontroller unit 35. To provide a triggering signal. As shown in FIG. 2, the impact sensitive switch 39 can be provided with the required impact amount by a method of impacting the valve cap 5 with the key box 25 of the valve key 23.

In FIG. 3, the shock sensitive switch 39, the CdS cell 41, and the reed switch 43 are connected in parallel to each other to provide a triggering signal to the microcontroller unit 35. In this way, the known Cds cell 41 or the reed switch 43 can be used in parallel with or instead of the impact sensitive switch 39, and light and magnetic fields can be selectively applied to the impact.

As shown in Figure 2, the smart water valve according to the present invention according to the present invention may be installed in the ground underneath the narrow iron (21) that people can not enter, the water valve is a human It can also be installed inside a manhole that can fit inside.

As described above, the hydraulic pressure transmission unit 31 is installed in the valve cap 5, and as shown in FIG. 2, the hydraulic pressure transmission unit 31 is lowered on the upper surface of the square head 7 of the valve cap 5. It is preferable to form a groove facing the side and to install it there. At this time, it is preferable that the groove is completely filled with resin such as epoxy in the state where the water pressure transmitter 31 is inserted, thereby protecting the water pressure transmitter 31 from foreign matter such as moisture and earth and sand. The grooves formed in the square head 7 are preferably circular grooves, and the substrate shape of the hydraulic transmission unit inserted therein is preferably formed in a rectangular shape to stand in a vertical direction, or in a circular shape to lay horizontally.

As shown in FIG. 3, the hydraulic pressure transmitter 31 further includes an LED 45 controlled by the microcontroller unit 35, and the microcontroller unit 35 includes the trigger switch. When the shock is applied to 39 or 41 or 43, it is preferable to control the LED 45 to flash briefly before or after transmitting the water pressure and the measurement date and time.

As shown in FIG. 2, the hydraulic pressure receiving output unit 49 is provided in the terminal 47 which can be carried by a person. As can be seen with reference to Figure 4, the hydraulic pressure receiving output unit 49 receives the hydraulic pressure and measurement date and time from the hydraulic pressure transmitter 31 and the received hydraulic pressure and measurement date and time Memory 55 and the hydraulic pressure display device 57, 59, 63, 65 to synthesize the voice pressure and the measurement date and time received by the radio frequency transceiver 51 and to output the voice or text to the outside It is composed. If necessary, only the hydraulic voice output devices 57 and 59 for synthesizing the water pressure and outputting only the voice may be used, or only the text display devices 63 and 65 for textifying the water pressure and outputting the text as text. That is, the hydraulic pressure display device includes at least one voice output device or a text display device, and the voice output device includes a voice synthesizer 57 and a speaker 59, and the text display device includes an LCD driver 63 and an LCD ( LCD). The microcontroller unit 53 receives the water pressure and the measurement date and time from the radio frequency transceiver 51, temporarily stores the water pressure and the measurement date and time in the memory 55, and reads out the voice output devices 63 and 65. Or text display device (63, 65) controls to output the water pressure by voice or text.

When the water pressure transmitting and receiving device according to the present invention is configured as described above, when the dividing valve operation manager impacts the valve cap 5 with the valve key 25, the water pressure transmitting unit 67 turns on the power of the pressure measuring instrument 67 ( On) and when the data on the pressure and the measurement time is received from the pressure measuring instrument 67, it is wirelessly transmitted to the hydraulic pressure receiving output unit 49, the hydraulic pressure receiving output unit 49 data corresponding to the hydraulic pressure and the measurement date and time Will be output as voice or text.

1: valve body 3: valve stem
4: pipe body 5: valve cap
7: square head 9: flange
11: neck 13: magnet
15 piping 17: valve chamber
19: valve box 21: withdrawal
23: valve key 25: key box
27: Stem 29: Handle
31: hydraulic pressure transmitter 33: memory
34: communication port 35: microcontroller unit
37: radio frequency transceiver 39: shock sensitive switch
41: CdS cell 43: Reed switch
45: LED 47: terminal
49: hydraulic receiving unit 51: radio frequency transceiver
53: microcontroller unit 55: memory
57: voice synthesizer 59: speaker
61: Flash 63: CD Driver
65: LCD 67: pressure gauge
69: microcontroller unit 71: memory
73: water pressure sensor 75: communication port
77: communication line 79: O-ring

Claims (1)

A trigger switch that triggers only when an external shock is applied to the tap water valve installed in the ground, and a hydraulic pressure gauge that measures power by turning on the power only when an impact is applied to the trigger switch. An underground water supply dilution valve capable of intermittent hydraulic pressure measurement on the ground, characterized by comprising a water pressure transmitter for wirelessly transmitting the measured water pressure when the water pressure is measured by the measuring instrument.

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