JP6325872B2 - High pressure water spray device and high pressure water spray method using the same - Google Patents

Description

  The present invention relates to high-pressure water used in clean rooms such as factories that need to control humidification for manufacturing semiconductors, flat panel displays, other precision products, etc., and in areas requiring water humidification such as large spaces. The present invention relates to a spraying device and a high-pressure water spraying method using the same.

A long time ago, when manufacturing semiconductors, flat panel displays, other precision products, etc., indoor humidity control is strict, and humidity in a large space, such as clean rooms in factories that require precise control of humidification, is high. In facilities that require adjustment for humidification, steam, which is a gas, can be easily and reliably adjusted with a proportional control two-way valve or the like. However, in order to generate steam, a heat source that generates a high temperature of 150 ° C. or higher is required. The fossil fuel must be burned by any means, preventing warming due to the use of fossil fuel, and limited energy resources. It would be against the usage restrictions.
In recent years, applicants have sent water pressurized to around 6 MPa to a spray nozzle, and fine water particles having a particle size of about 10 to 30 μm can be used as outdoor heat-generating facilities or heat sources such as large equipment. It is distributed in a building and the ambient temperature is lowered by latent heat accompanying transpiration of mist (see, for example, Patent Document 1).

5 and 6 show an example of a conventional high-pressure water spraying device (equipment). The high-pressure pump 2 obtains and pressurizes water from a water tank, the check valve 3 attached to the discharge port of the high-pressure pump 2, A water supply line 4 having an upstream end in the direction of water flow to the outlet side of the check valve 3, a plurality of spray nozzles 5 attached to the water supply line 4, a safety valve 6 attached to the discharge port of the high-pressure pump 2, And an air vent 21 attached to the downstream end of the water supply pipe 4 in the direction of water flow.
The spray nozzle 5 includes a housing 8 in which a spray hole 7 is formed, a pressure-sensitive check valve 9 that operates in accordance with the pressure of the feed water from the high-pressure pump 2, and feed water that has passed through the pressure-sensitive check valve 9. A spiral groove 10 for making a swirl flow is constituted by a piece 11 formed on the outer peripheral surface, a filter 12 attached to the housing 8 so as to be located on the side opposite to the spray hole 7 and the like.

The pressure-sensitive check valve 9 includes a metal ball 13 and a spring 14 for shutting off the feed water, and the feed water does not flow into the housing 8 when the pressure of the water feed pipe line 4 is less than 1 MPa. When the pressure in the water supply conduit 4 exceeds 1 MPa, the delivery water is caused to flow into the housing 8.
That is, when the high-pressure pump 2 is started and the pressure on the inlet side of the spray nozzle 5 reaches 1 MPa, the pressure-sensitive check valve 9 opens, and mist begins to be distributed from the spray hole 7 in response to the pressure increase of the feed water. Due to the latent heat accompanying transpiration, the ambient temperature decreases.
Thereafter, when the high-pressure pump 2 is stopped, the mist is not distributed according to the pressure drop, and the pressure-sensitive check valve 9 is closed when the pressure on the inlet side of the spray nozzle 5 falls below 1 MPa.

In the above-described high-pressure water spray device, the discharge flow rate of the high-pressure pump 2 is selected as the flow rate during stable operation, and when the pressure of the water supply line 4 reaches 6 MPa from the initial pressure (0.2 MPa) at the start-up. Since the volume of the water supply pipeline 4 (particularly the high pressure hose) expands, it takes some time to draw a broken line on the left side of FIG.
On the other hand, even when the high-pressure pump 2 is stopped, in order for the pressure of the water supply line 4 to return to the initial pressure, the operation in which the water stored in the expanded water supply line 4 (particularly the high-pressure hose) is discharged from the spray nozzle 5 is performed. Therefore, it takes some time to draw a broken line on the right side of FIG.

Thus, there is a slight time difference when the high-pressure pump is started or stopped, and so-called dripping may occur in which a minute amount of water flows from the spray nozzle.
Therefore, in order to solve this problem, the applicant of the present application has filed a patent application for a high-pressure water spraying device and a method for using the same for the purpose of suppressing dripping of water from the spray nozzle when the equipment is started and stopped. (See Patent Document 2).

That is, as shown in FIG. 7, when the pressure of the spring exceeds 1 MPa, a water supply line 4 to which a spray nozzle 5 having a pressure-sensitive non-return function that sends out water to the spray hole is attached, and the water supply line 4. A pressurized tank ET1 connected to the branch pipe via a first valve SV1 that can be automatically controlled between the upstream end of the water flow direction 4 and the spray nozzle mounting location, and a second valve SV2 are incorporated and one end The distribution system L1 is formed with the bypass line 15 connected to the upstream end of the water supply line 4 in the direction of water flow, and the water pipe 19 is reversed at the suction port of the high-pressure pump 2 that pressurizes and sends out the water. A water supply line 16 connected to the upstream via the stop valve 18 is connected, the inlet side of the main line 24 incorporating the check valve 18 is connected to the discharge port of the high-pressure pump 2, and the upstream end of the water supply line 4 is connected. Connect to the outlet side of the main pipeline 24 and connect the other end of the bypass pipeline 15 to the return pipe Connected to water supply conduit 16 through the 23, the return line 23 is communicated with the expansion tank ET2 as an accumulator capable of absorbing the pressure of the return water from the water feed conduit 4,
At the initial start, the pressurized water is distributed to the water supply line 4 by the operation of the high-pressure pump 2, the inside of the pressurized tank ET 1 is pressurized to the same pressure as the water supply line 4, the first valve SV 1 is closed, and the pressurized water Is a high-pressure water spraying facility characterized in that it is sealed in the pressurized tank ET1 to face spraying,
At the initial start-up, pressurized water is distributed to the water supply line by the operation of the high-pressure pump, the interior of the pressurized tank is pressurized to the same pressure as the water supply line, the first valve is closed, and the pressurized water is supplied to the pressurized tank. It is sealed inside so that it can be sprayed.

JP 2006-177575 A Japanese Patent No. 51177781

Such latent heat cooling technology by spraying fine water droplets that do not get wet can be used for precise control humidification of the clean room and facilities by using time proportional control of the spray amount. By utilizing this, it is possible to construct a precise humidification control system that can be used to assist in cooling without burning the fossil fuel to generate steam and also in a facility with a large amount of heat generation in the room.
On the other hand, due to the structure of the devices described in Patent Document 1 and Patent Document 2, water stays in the pipe when the operation of the device is stopped. In particular, the device of Patent Document 2 becomes a complicated water supply path such as a tank for preventing dripping, and the amount of water remaining at the time of stoppage is slightly increased.
In winter, it is used for humidification, so water is changed every day, so there is no problem, but it is not necessary to humidify from summer to mid-term (especially when the outside air is warm and humid, and the temperature rises and various bacteria breed. At this time, the water stays for a period of 2 days or more, and the water quality may deteriorate. Therefore, due to hygiene problems, when the equipment is not in operation (for example, during the summer season off) The pipes and tanks are drained to dry the inside, preventing the propagation of germs in the pipes.
Further, for drainage, it is necessary to perform nitrogen purge after draining. When applying to precise humidification control, it is the same to dislike dripping and condensation on the partition when spraying directly into the room.
At the start of operation (for example, at the start of a season such as winter), it is necessary to fill the tank and the pipe with water and to remove the air accumulated in the pipe.
Separately, a control mechanism for drainage and a drain valve are provided to automatically replace water periodically.
For this reason, in conventional equipment, since the drainage work and water filling work are performed at the start of operation every season and at the time of stoppage, maintenance costs are required, and by adding equipment to ensure hygiene Even if you have the problem of increased equipment installation space and initial cost, and knowing that water spray humidification is advantageous for saving energy and eliminating fossil fuel combustion, you may want to take two steps to switch there were. In addition, there has been a demand for the same apparatus that can be easily maintained while preventing anyone.

The present inventors have solved the above problems by the following means.
(1) A water supply line 4 provided with a spray nozzle 5 having a pressure-sensitive check function for sending out water to the spray hole when the pressure exceeds a certain value by the pressing force of the spring, and a water flow direction of the water supply line 4 A first valve SV3 connected to the upstream end and one end of the first valve SV3 are connected to the most upstream spray nozzle 5 via a branch cheese, and a second valve SV4 is incorporated at the other end away from the spray nozzle 5. a bypass line 15, and a trunk line 24 element connected upstream of the first valve SV3, pressurizing tank ET3 provided in the trunk line 24, the high-pressure pump 2 for delivering water under pressure of the water supply conduit 16 connected to the suction port, the safety valve 6 and the check valve 3 and the said entry side of the trunk line 24 which incorporates a pressurized tank ET3 in series a high pressure pump connected through a branch pipe connected to the second discharge port, the upstream end of the water feed conduit 4 The spraying system L1 to be connected to the water supply conduit 16 through the first through the valve SV3 is connected on the outlet side of the trunk pipe 24, the bypass line and the other end of the return line 23 of 15 Forming,
The spraying system L1, the high-pressure pump 2, the first valve SV3, and the second valve SV4, temperature and humidity measurements measured by the temperature sensor 25 and humidity sensor 26 installed in the humidification object area Having a control system to operate based on the value,
The control system includes a first relay 34 to operate the valve SV3, the second relay 35 and the relay 39 which operates the power line electromagnetic contactor of the high pressure pump 2, to operate the valve SV4, the relay 34 turns ON / OFF the first valve SV3 in a normal operation according to the time proportional control signal based on the humidity measurement value, and the relay 35 controls the second valve SV4 according to the time proportional control signal based on the humidity measurement value. Control to turn ON / OFF by reverse operation to a predetermined humidity ,
Furthermore, the control system, the high-pressure pump 2, the first valve SV3, and the second timer channel 1 to control the operation of the valve SV4 (32) and schedule a timer channel 2 (33) Having a timer 31,
The timer channel 1 (32), the operation start time and operation stop time for each day of the high-pressure water spray apparatus is set, a signal corresponding to the set operation start time and operation stop time, the relay 34, the Transmit to the relay 35 and the relay 39 to operate the high-pressure pump 2, the first valve SV3 and the second valve SV4;
The timer channel 2 (33), before starting the operation of the high-pressure water spray device, the time so as to operate the high-pressure water spray apparatus for a predetermined time required to replace all the had accumulated in the water supply conduit 4 Water is set, a signal corresponding to the set operation time, the relay 34, and transmitted to the relay 35 and the relay 39, operates the first valve SV3, a high pressure pump 2 and the second valve SV4 A high-pressure water spraying device characterized by that.
(2) A water supply line 4 provided with a spray nozzle 5 having a pressure-sensitive check function for sending out water to the spray hole when the pressure exceeds a certain value by the pressing force of the spring, and a water flow direction of the water supply line 4 a first valve SV3 connected to the upstream end, pressurizing tank to form a spraying system L2, provided in the trunk line 24 and trunk line 24 connected to the upstream side of the first valve SV3 and elements ET3, a basic structure in which a water supply line 16 is connected to a suction port of a high-pressure pump 2 that pressurizes and delivers water, and a pressurized tank ET3 connected in series via a safety valve 6, a check valve 3, and a branch pipe the entry side of the conduit 24 connected to the discharge port of the high-pressure pump 2, the upstream end of the water supply conduit 4 connected to the outlet side of the trunk pipe 24 via the first valve SV3, sprayed line L2 It is humidification object d to the high-pressure pump 2 and the first valve SV3 It has a control system for operating based on the temperature and humidity measurement values measured by the temperature sensor 25 and the humidity sensor 26 installed at the rear, and the control system operates the relay for operating the first valve SV3. 34, and a relay 39 for operating a power line electromagnetic contactor of the high pressure pump 2, the relay 34, the first valve SV3 and ONOFF positive operation according to a time proportional control signal based on the humidity measurements In the high-pressure water spraying method using a high-pressure water spraying device that is controlled to have a predetermined humidity ,
The control system includes a schedule timer 31 having a timer channel 1 (32) and a timer channel 2 (33) for controlling the operation of the high-pressure pump 2 and the first valve SV3.
The timer channel 1 (32) manages the daily operation start time and operation stop time of the high-pressure water spray device, and sends a signal corresponding to the managed operation start time and operation stop time to the control system. Operating the high-pressure pump 2 and the first valve SV3;
The timer channel 2 (33) manages the time so that the high-pressure water spraying device is operated for a predetermined time required to replace all the water accumulated in the water supply pipe 4 before the operation of the high-pressure water spraying device is started. Then, a signal corresponding to the managed operation time is transmitted to the relay 34 that operates the first valve SV3 and the relay 39 that operates the power line electromagnetic contactor of the high-pressure pump 2. 1 valve SV3 and the high-pressure pump 2 are operated.
A high-pressure water spraying method using a high-pressure water spraying device.
(3) A water supply line 4 provided with a spray nozzle 5 having a pressure-sensitive check function for sending out water to the spray hole when the pressure exceeds a certain value by the pressing force of the spring, and a water flow direction of the water supply line 4 A first valve SV3 connected to the upstream end and one end are connected to the most upstream spray nozzle 5 via a branch cheese, and a second valve SV4 is incorporated at the other end away from the spray nozzle 5. there bypass line 15, and a trunk line 24 connected to the upstream side of the first valve SV3 and elements, pressurizing tank ET3 provided in the trunk line 24, the high-pressure pump 2 for delivering water under pressure of the water supply conduit 16 connected to the suction port, the safety valve 6 and the check valve 3 and the pressurizing connected via a branch pipe tank ET3 and the the entry side of the trunk conduit 24 incorporating in series a high-pressure pump 2 connected to the discharge port, the upstream end of the water feed conduit 4 before Via the serial first valve SV3 connected to the outlet side of the trunk pipe 24, forming a sprayed line L1 to be connected to the water supply conduit 16 via a return conduit 23 the other end of the bypass pipe 15 and, the sprayed line L1, the high-pressure pump 2, the first valve SV3, and the second valve SV4, the temperature measured by the temperature sensor 25 and humidity sensor 26 installed Ya the humidification object area a control system for operating on the basis of the humidity measurement values, control lines, the first relay 34 to operate the valve SV3, the second relay 35 to operate the valves SV4, and the high-pressure pump 2 a relay 39 which operates the power supply line electromagnetic contactor, the relay 34 ONOFF the first valve SV3 positive operation according to a time proportional control signal based on the humidity measurements, the relay 35 is And ONOFF in reverse operation the second valve SV4 according to the time proportional control signal based on the humidity measurements,
In the high-pressure water spraying method using a high-pressure water spraying device that controls to a predetermined humidity ,
The control system includes a schedule timer 31 having a timer channel 1 (32) and a timer channel 2 (33) for controlling operations of the high-pressure pump 2, the first valve SV3, and the second valve SV4. Have
The timer channel 1 (32) manages the daily operation start time and operation stop time of the high-pressure water spray device, and sends a signal corresponding to the managed operation start time and operation stop time to the control system. Operating the high pressure pump 2, the first valve SV3 and the second valve SV4;
The timer channel 2 (33) manages the time so that the high-pressure water spraying device is operated for a predetermined time required to replace all the water accumulated in the water supply pipe 4 before the operation of the high-pressure water spraying device is started. Then, a signal corresponding to the managed operation time is sent to the relay 34 that operates the first valve SV3, the relay 35 that operates the second valve SV4, and the power line electromagnetic contact of the high-pressure pump 2. The first valve SV3, the second valve SV4, and the high-pressure pump 2 are operated by transmitting to the relay 39 that operates the device.
A high-pressure water spraying method using a high-pressure water spraying device.
(4) a temperature regulator 27 that receives respective measurement signals transmitted from the temperature sensor 25 and the humidity sensor 26 and calculates respective deviations from a preset temperature set value and a humidity set value; and a humidity regulator 28, the control signal is a signal in the time proportional control that is created based on the deviation, a selector 29 provided in the control signal downstream of the temperature controller 27, and the humidity regulator 28, the basic Is a control system that interrupts temperature control when it is too cold, based on humidity control, ( 2) or (3) .
(5) In the high-pressure water spray method using the high-pressure water spray device according to ( 4) ,
As a control system for interrupting temperature control when the temperature is too low, each control signal generated based on the deviation of each set value from the temperature regulator 27 and the humidity regulator 28 is sent from the selector 29 which is a low selector. , To the relay 36 connected in series to the relay 35,
A signal corresponding to the operation time managed to operate the high-pressure water spray device for a predetermined time required to replace all the water accumulated in the water supply pipe 4 by the timer channel 2 (33), A relay 37 arranged in parallel with the relay 34 operating the first valve SV3, a relay 38 arranged in parallel with the relay 35 operating the second valve SV4, and a power line electromagnetic contactor of the high-pressure pump 2 A high-pressure water spraying method using a high-pressure water spraying device, wherein the high-pressure water spraying device operates to operate the first valve SV3, the second valve SV4, and the high-pressure pump 2 by transmitting to an operating relay 39.

The following effects are exhibited by the high-pressure water spray device of the present invention and the method of use thereof.
<1> The present invention includes a control system for operating the high-pressure pump 2 and the first valve SV3, a timer channel 1 (32) and a timer channel for controlling the operation of the high-pressure pump 2 and the first valve SV3. 2 (33) is provided with a schedule timer 31 having a two-channel circuit. Therefore, the timer schedule is properly used, and the water accumulated in the water supply line 4 before the operation of the high-pressure water spray device is started by one timer channel. By setting the high-pressure water spray device to operate only for a predetermined time required to replace all, water can be drained automatically from the water supply line 4, and long-term stagnation of water in the water supply line 4 is eliminated. Water quality deterioration can be prevented, and maintenance such as draining and water filling every season is unnecessary, and cost can be reduced. .
<2> Also, the operation start time and operation stop time of the high-pressure water spray device are accumulated in the water supply line 4 before the operation of the high-pressure water spray device is started by another timer channel. By controlling the operation start time and stop time of the high-pressure water spray device for a predetermined time required to replace all the water that has been used, it can be used properly and can be managed without additional human work it can.
<3> The present invention relates to a control system for operating the high-pressure pump 2, the first valve SV3, and the second valve SV4, and the operation of the high-pressure pump 2, the first valve SV3, and the second valve SV4. The timer channel 1 (32) and the timer channel 2 (33) to control the schedule timer 31 provided with the two-channel circuit, so that the timer schedule is properly used, and the operation of the high-pressure water spray device is performed by one timer channel. By setting the high-pressure water spray device to operate for a predetermined time required to replace all the water accumulated in the water supply line 4 before the start, the water in the water supply line 4 can be automatically drained. Yes, it can eliminate long-term stagnation of water in the water supply pipeline 4, prevent water quality deterioration, and maintainer such as drainage and water filling every season Is not required, it is possible to reduce the cost down.
<4> Further, the operation start time and operation stop time of the high-pressure water spraying device are accumulated in the water supply line 4 before the operation of the high-pressure water spraying device is started by another timer channel. By controlling the operation start time and stop time of the high-pressure water spray device for a predetermined time required to replace all the water that has been used, it can be used properly and can be managed without additional human work it can.
<5> Furthermore, according to the present invention, in addition to the above-described effects, when the first valve is opened with the second valve closed, the pressure of the feed water previously stored in the pressurized tank is instantaneously sent. Since it works on the water pipeline, it can prevent water from dripping from the spray nozzle at the start of mist distribution, and the pressure in the expansion tank is kept at the same pressure as the water pressure.
Also, when the second valve is opened with the first valve closed, the pressure of the return water from the water supply pipe is instantaneously absorbed by the expansion tank, so that water drops from the spray nozzle when the mist distribution is completed. This has the effect that the pressure in the pressurized tank is maintained at the same pressure as during operation.

The system block diagram which shows the schematic whole structure of the high pressure water spraying apparatus of this invention 2 is a timing chart of the operation of a high-pressure pump and opening / closing of a valve related to FIG. 1. The figure which shows the schematic whole structure of the usage method of the high pressure water spraying apparatus of this invention. It is a diagram showing the change of pipe line pressure. It is a pipe line system figure showing an example of the conventional high-pressure water spray equipment. It is a structural diagram of a spray nozzle. It is a pipe line system figure showing an example of the conventional high-pressure water spray equipment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2 show a first example of the high-pressure water spraying equipment of the present invention. In the figure, 1 is a high-pressure water spraying device, 2 is a high-pressure pump, 3 is a check valve, 4 is a water supply line, Is a spray nozzle, 6 is a safety valve, SV3 is a first valve, SV4 is a second valve, 15 is a bypass line, 16 is a water supply line, 19 is a water pipe, 20 is a ball tap water supply tank, 21 is an air vent, 23 is a return line, 24 is a main line, 25 is a temperature sensor, 26 is a humidity sensor, 27 is a temperature regulator, 28 is a humidity regulator, 29 is a selector, 30 is a delay timer circuit, 31 is a schedule timer, 32 Are timer channels 1 and 33, timer channels 2, 34, 35, 36, 37, and 38 are relays, and 39 is a relay that operates the power line electromagnetic contactor of the high-pressure pump 2.

The high-pressure water spray device 1 according to the present invention includes a water supply line 4 to which a spray nozzle 5 having a pressure-sensitive check function is attached, a first valve SV3 connected to the upstream end of the water supply line 4 in the water flow direction, The trunk line 24 connected to the upstream side of the first valve SV3 and one end are connected to the most upstream spray nozzle 5 via a branch cheese, and the other end remote from the spray nozzle 5 is connected to the second end. A distribution system L1 having the bypass line 15 in which the valve SV4 is incorporated as an element is formed, and an air vent 21 is provided at the downstream end of the water supply line 4 in the water flow direction as necessary. The pressurization tank ET3 provided serves as an accumulator that can store the pressure of the feed water from the high-pressure pump 2.
Further, a basic structure in which a water supply pipe line 16 is connected to a suction port of a high-pressure pump 2 that pressurizes and delivers water, and a pressurized tank ET3 connected in series via a safety valve 6, a check valve 3, and a branch pipe is incorporated. The inlet side of the pipe line 24 is connected to the discharge port of the high-pressure pump 2, and the upstream end of the water supply pipe line 4 is connected to the outlet side of the main pipe line 24 via the first valve SV 3. The end is connected to the water supply line 16 via the return line 23.

The distribution system L1 is based on temperature and humidity measurement values measured by the temperature sensor 25 and the humidity sensor 26 in which the high-pressure pump 2, the first valve SV3, and the second valve SV4 are installed in the humidification target area. It has a control system for operation.
The temperature sensor 25 and the humidity sensor 26 are connected to a temperature adjuster 27 and a humidity adjuster 28 that respectively input measurement signals and calculate them to form control signals.
The temperature adjuster 27 and the humidity adjuster 28 receive the respective measurement signals transmitted from the temperature sensor 25 and the humidity sensor 26, which are measuring instruments, and set the preset temperature setting value and humidity. Each deviation from the value is calculated, and a control signal is transmitted to the selector 29 based on the deviation. This control signal is assigned as a time proportional control signal, for example, by assigning 5 mA to OFF and 19 mA to ON with a current signal of 4 to 20 mA, and transmitting either value over time. While continuously measuring the temperature or humidity in a room such as a clean room, a control signal is sent as an on-off rectangular analog wave within a certain time according to the deviation between the temperature set value and the humidity set value. Basically, the control system is based on humidity control, and interrupts temperature control when it gets too cold. When the humidity measurement value is smaller than the humidity setting value, spraying is performed (the higher the deviation is, the higher the ON ratio of the control signal is sent), and when the measurement value is larger, it is stopped (the ratio is almost OFF when the deviation is large) The control signal is sent with a policy of (close to 100%), but normally the integration time is included, and the ON / OFF signal ratio is adjusted accordingly.
And since water spray humidification as hardware performs latent heat cooling, if the indoor temperature measurement value becomes smaller than the temperature set value, the spray stop signal (similarly time proportional control may be used but the ratio of the OFF control signal increases) Send). A selector 29 is provided downstream of the control signals of the temperature regulator 27 and the humidity regulator 28. In the selector 29, since the temperature set value is too cold to be set, which is not possible, the time proportional control signal from the humidity controller 28 is selected and sent downstream to control the spray time proportionally according to the humidity. If the target area is too cold compared to the temperature set value, the control signal is output with a small priority given to the small OFF control signal from the temperature controller 27, that is, the selector 29 is a low selector. ing. The control signal sent from the selector 29 is transmitted to the relay 34 for ON / OFF of the first valve SV3 in a normal operation form, and performs a control operation in the form of time proportional control. When the spraying is stopped, the second valve SV4 for allowing the return of the pressure return from the spray nozzle 5 to flow to the bypass line 15 and the return line 23 is reversely operated with the first valve SV3. A control signal is transmitted to. The second valve SV4 does not move during the time proportional control, but a relay 36 with a delay timer circuit 30 is provided in series with the relay 35 in the operation signal system for closing the valve at the time of complete stop.
Further, the operation signal system of the first valve SV3 is provided with a relay 37 in parallel with the relay 34, and the operation signal system of the second valve SV4 is provided with a relay 38 in parallel with the relay 35.

In the present embodiment, the schedule timer 31 is a so-called one-week timer that manages the driving situation for one week. The schedule timer 31 has a circuit of two timer channels 32 and 33 of 1ch and 2ch. One timer channel 1 (32) is an operation start time and an operation for each day of a week of the high-pressure water injection device. Time control the stop time. For example, when the operation start time of the high-pressure water spray device is set to 8:00 and the operation stop time is set to 23:00 on weekdays in one week, the operation start time of the high-pressure water injection device is 8:00 and the operation stop time every day. At 23 o'clock, the operation / stop signal of the device is transmitted to the relay 34, the relay 35, the delay timer circuit 30, and the relay 39 operating the power line electromagnetic contactor of the high-pressure pump 2. The high-pressure pump 2 starts to operate, and the other operating devices can accept control signals. Accordingly, the relay 34 turns ON / OFF the operation signal system of the first valve SV3 in the normal operation according to the time proportional control signal sent from the selector 29, and the relay 35 thereby sends the signal from the selector 29. In response to the time proportional control signal, the operation signal system of the second valve SV4 is turned on and off in the reverse operation to control it to a predetermined humidity.
When the operation is stopped at 23:00, which is the operation stop time, the relay 34 and the relay 35 are turned off to send a signal for cutting the valve operation circuit, and the relay 39 operating the power line electromagnetic contactor of the high-pressure pump 2 is sent. Disconnect the power circuit.
The other timer channel 2 (33) delays the relay 36 for the relay 37 arranged in parallel with the downstream relay 34 of the selector 29 and for the relay 38 arranged in parallel with the downstream relay 35. The delay timer circuit 30 is connected to a relay 39 that operates the power line electromagnetic contactor of the high-pressure pump 2.
The other timer channel 2 (33) is a time period for starting and stopping the operation of the high-pressure water spray device for a predetermined time required to replace all the water accumulated in the water supply line 4 after the operation of the high-pressure water spray device is stopped. To control. For this purpose, a signal is transmitted to connect the circuit to the relay 37, the relay 38, the delay timer circuit 30, and the relay 39 that operates the power line electromagnetic contactor of the high-pressure pump 2. The relay 37 receives this signal and forcibly closes the circuit and sprays the operation signal system of the first valve SV3 during operation from the start of the water replacement operation. The relay 38 receives this signal and performs the reverse operation of the relay 37, which forcibly opens the operation signal system of the second valve SV4 during operation from the start of the water replacement operation. The relay 39 is operated by sending a current to the high-pressure pump 2. When the operation is stopped, a signal opposite to that during operation is sent to each of the relay 37 and the relay 38, and the power supply to the high-pressure pump 2 is also disconnected by the relay 37 and the relay 38.
The predetermined time is a time required for spraying the water accumulated in the water pipeline after the operation of the apparatus is stopped from the spray nozzle and replacing all the water in the water pipeline, depending on the length of the water pipeline and the amount held It is determined.
In the case where the predetermined time is 10 minutes, the operation time of, for example, 10 minutes before 5:00 in the morning before the start of normal operation is set in the timer channel 2 (33), the relay 37, the relay 38, the delay timer circuit 30, and the high voltage The power line electromagnetic contactor of the pump 2 is transmitted to the relay 39 that operates. When the relay 37, the relay 38, the delay timer circuit 30, and the relay 39 operating the power line electromagnetic contactor of the high-pressure pump 2 receive this signal, the high-pressure pump 2, the first valve SV3, and the second The valve SV4 is operated to operate the high pressure water injection device for 10 minutes and then stop. Thereby, the replacement of the water accumulated in the water supply pipe line 4 after the operation stop is completed.
Therefore, for example, by setting in a time zone where there is no person, such as at night or early morning, the water change operation can be completed before the normal operation start time.
Thus, since the two channels of the timer channel 1 (32) and the timer channel 2 (33) can be controlled independently, the start of the water replacement operation can be performed regardless of the normal operation start and stop times. The stop can be controlled, and these are easily managed and controlled by the schedule timer 31.
In this embodiment, the operation, stop, and drainage of the device in units of one week have been described. However, even when the device is stopped for a long time, the device is operated for a predetermined time before starting the device. Since the water accumulated in the water pipeline can be replaced, there is no need to drain the tank or piping and fill the water before starting during the downtime, reducing the work process and reducing maintenance costs It has become.

In FIG. 1, 34, 35, 36, 37, 38 and 39 are relays, and 29 is a selector.
The relays 34, 35 and 39 are connected to the schedule timer 32, and the operation start and the overall stop are controlled by the schedule timer 32.
The relays 37, 38 and 39 are connected to the schedule timer 33, and the operation start and the overall stop are controlled by the schedule timer 33.

Further, the return pipe 23 is connected between the ball tap water supply tank 20 connected to the upstream end of the water supply pipe 16 in the direction of water flow and the suction side of the high pressure pump 2, and the water pipe 19 is connected to the ball tap valve of the ball tap water supply tank. Connected to.
When the humidifying mist distribution is turned on as time proportional control, the first valve SV3 is opened immediately after the closing command for the second valve SV4 is transmitted to the relay 35 as depicted on the left side of FIG. When the command is simultaneously transmitted to the relay 34 and the humidification mist distribution is completed, as shown in the right side of FIG. 2, immediately after the close command for the first valve SV3 is transmitted to the relay 34, the second valve SV4 is transmitted. An opening command is simultaneously transmitted to the relay 35.

  At the start of spraying of the high-pressure water spray device, before the total water pressure of the high-pressure pump 2 rises, the water pressure in the water supply line 4 has not increased. At the same time, it is hung on the water supply pipe 4. In a state where the second valve SV4 is closed and the first valve SV3 is opened, the high pressure pump 2 is activated to distribute the delivery water to the water supply line 4, so that the inside of the water supply line 4 has a desired pressure, For example, the pressure is about 6 MPa. Since the internal pressure of the pressurized tank ET3 is increased by such a method, dripping of water from the spray nozzle 5 can be suppressed.

  In actual operation of the high-pressure water spray device, when the first valve SV3 is opened simultaneously with starting the high-pressure pump 2 after closing the second valve SV4, the water already stored in the pressurized tank ET3 For example, a pressure of about 6 MPa is applied to the water supply pipe 4 instantaneously as depicted by a solid line on the left side of FIG. 4, and at the same time the pressure sensitive check valve 9 (see FIG. 6) opens, As a result, it is possible to suppress dripping of water at the start of mist distribution, and the pressurization tank ET3 also serves as an accumulator and serves to relieve the pulsation of the high-pressure pump 2.

Up to this point, the high-pressure water spray device 1 that does not spill has been described, but it is a commercial facility, such as a clean room or a large space room, such as a factory that requires strict indoor humidity management and precise control of humidification when manufacturing. In a facility that requires precise humidity adjustment with humidification, a drain pan may be installed below the spray nozzle 5. In this case, whether or not to drip is next to 2.
In that case, when the pressure exceeds a certain value due to the pressing force of the spring, a water supply line 4 to which a spray nozzle 5 having a pressure sensitive non-return function for sending out the discharged water to the spray hole is attached, and a water flow through the water supply line 4 A pressurized tank provided in the trunk pipe line 24 is formed by forming a distribution system L2 having the first valve SV3 connected to the upstream end in the direction and the trunk line 24 connected to the upstream side of the first valve SV3 as elements. ET3, a basic structure in which a water supply line 16 is connected to a suction port of a high-pressure pump 2 that pressurizes and delivers water, and a pressurized tank ET3 connected in series via a safety valve 6, a check valve 3, and a branch pipe The inlet side of the pipe line 24 is connected to the discharge port of the high-pressure pump 2, the upstream end of the water supply pipe line 4 is connected to the outlet side of the main pipe line 24 via the first valve SV3, and the distribution system L2 The temperature at which the pump 2 and the first valve SV3 are installed in the humidification target area. If high-pressure water spray apparatus 1 having a control system for operating on the basis of the measured temperature and humidity measurements by the sensor 25 and the humidity sensor 26, to satisfy the above required functions.

FIG. 3 is a diagram showing a schematic overall configuration of a method for using the high-pressure water spray device of the present invention.
Hereinafter, a method of using the high-pressure water spray humidifier of the present invention in a clean room or a large space precision humidity control facility will be described with reference to FIG.
In the figure, 40 is a target room with a sealed interior, 41 is a ceiling, 42 is an air conditioner, 43 is a duct directly above the air conditioner, 44 is a plenum chamber, 45 is an air supply duct, and 46 is a ceiling 41 of the target room 40. And a filter (not shown) is provided inside. Reference numeral 47 is a return air port connected to a return air duct 48 connected to the air conditioner 42, and 49 is a cooling and heating coil provided in the air conditioner 42.
In this way, outside air is supplied from the air supply control port 46 through the air duct 42 directly above the air conditioner 42, the plenum chamber 44, and the air supply duct 45 to the target room, and from the return air port 47 through the return air duct 48. The air is sucked and circulated to the air conditioner 42.

As shown in the figure, the water supply conduit 4 provided with the spray nozzle 5 of the high-pressure water spray device 1 is installed above the target chamber.
The control system has the same configuration as that shown in FIG.
Here, regardless of the winter season when the high-pressure water spraying device 1 is operated and the summer time when the high-pressure water spraying device 1 is stopped, the timer channel 2 (33) causes the high-pressure water spraying device 1 to enter the water supply line 4 of the high-pressure water spraying device. A signal for operating the high-pressure water spray device for a predetermined time required to replace all the accumulated water is transmitted to the relay 37, the relay 38, and the relay 39 operating the power line electromagnetic contactor of the high-pressure pump 2. The relay 37, the relay 38, and the relay 39 of the high-pressure pump 2 that have received the signal close the circuit of the operation signal system, so that the first valve SV3 is opened simultaneously with the start of the high-pressure pump 2, and the pressurized tank ET3 The pressure (for example, around 6 MPa) of the delivery water stored in the water instantaneously acts on the water supply conduit 4 as depicted by the solid line on the left side of FIG. 4, and the pressure sensitive check valve 9 (see FIG. 6) opens. At the same time Performed mist sprayed rated state from the nozzle 5 replacing the water had accumulated in the water supply conduit 4 after stopping of the apparatus.
Then, when the designated predetermined time has elapsed, a signal is transmitted from the timer channel 2 (33) to the relay 37, the relay 38, and the relay 39 operating the power line electromagnetic contactor of the high-pressure pump 2, and this signal is received. Since the relay 37, the relay 38, and the relay 39 of the high pressure pump 2 open the circuit of the operation signal system, the first valve SV3 is closed and the high pressure pump 2 is stopped, and at the same time, the second valve SV4 is opened. When a certain amount of water escapes from the water supply pipe 4 to the bypass pipe 15 and the return pipe 23 as pressure, the pressure of the return water from the water supply pipe 4 is instantaneously drawn as a solid line on the right side of FIG. Absorbed and the pressure sensitive check valve 9 (see FIG. 6) closes.

Thereafter, when the operation start time of the high pressure water injection device is reached, the timer channel 1 (32) causes the operation start signal of the high pressure water injection device to operate the relay 34, the relay 35, and the power line electromagnetic contactor of the high pressure pump 2. The relay 34, the relay 35, and the relay 39 of the high-pressure pump 2 receiving this signal open the circuit of the operation signal system. Thereafter, when the humidifying mist distribution is turned ON as time proportional control, the first valve SV3 is immediately after the closing command for the second valve SV4 is transmitted to the relay 35 as depicted on the left side of FIG. When the humidifying mist distribution is completed simultaneously, the second valve is immediately after transmitting the closing command for the first valve SV3 to the relay 34 as depicted on the right side of FIG. An opening command for SV4 is simultaneously transmitted to the relay 35. As a result, the second valve SV4 is opened, and a certain amount of water escapes from the water supply pipe 4 into the bypass pipe 15 and the return pipe 23, whereby the pressure of the return water from the water supply pipe 4 is as shown in FIG. Absorbed instantaneously as depicted by a solid line on the right side, the pressure-sensitive check valve 9 (see FIG. 6) is closed, and the operation is stopped.
In the present embodiment, the operation and stop related to the replacement of water and the start and stop of normal operation are each performed once a day.
And the temperature sensor 25 and the humidity sensor 26 are installed near the return air opening 47 in the target room 40, and the temperature measurement value 27 and the humidity measurement value are signal-processed by the temperature measurement device 27 and the humidity measurement device 28 from the respective sensors. After the processed signal is input to the selector 29 and selected, the mist spray from the spray nozzle 5 is controlled.

  It should be noted that the high-pressure water spray facility and the method of using the same of the present invention are not limited to the above-described embodiments, and it is needless to say that changes can be made without departing from the scope of the present invention.

  The high-pressure water spray equipment and the method of using the same of the present invention can be applied as humidity adjustment technology in various places.

1: High pressure water spray device 2: High pressure pump 3: Check valve 4: Water supply line 5: Spray nozzle 6: Safety valve SV3: First valve SV4: Second valve 7: Spray hole 8: Housing 9: Pressure sensitive Check valve 10: Spiral groove 11: Piece 12: Filter 13: Metal ball 14: Spring 15: Bypass line 16: Water supply line 18: Check valve 19: Water pipe 20: Ball tap water supply tank 21: Air vent 23: Return line 24: Main line 25: Temperature sensor 26: Humidity sensor 27: Temperature controller 28: Humidity controller 29: Selector 30: Delay timer circuit 31: Schedule timer 32: Timer channel 1
33: Timer channel 2
34, 35, 36, 37, 38: Relay 39: Relay for operating the power line electromagnetic contactor of the high-pressure pump 2 40: Target room 41: Ceiling 42: Air conditioner 43: Duct directly above the air conditioner 44: Plenum chamber 45: Supply Air duct 46: Air supply air inlet 47: Return air outlet 48: Return air duct 49: Cooling heating coil

Claims (5)

When the pressure exceeds a certain value due to the pressing force of the spring, a water supply line 4 to which a spray nozzle 5 having a pressure-sensitive non-return function for sending out water to the spray hole is attached, and an upstream end of the water supply line 4 in the water flow direction. A bypass line in which the first valve SV3 connected and one end thereof is connected to the most upstream spray nozzle 5 via a branch cheese, and the second valve SV4 is incorporated at the other end away from the spray nozzle 5. 15 and the a trunk line 24 connected to the upstream side as an element of the first valve SV3, pressurizing tank ET3 provided in the trunk line 24, the suction port of the high-pressure pump 2 for delivering water under pressure to connect the water supply conduit 16, discharge failure of the safety valve 6 and the check valve 3 and the pressurizing tank ET3 and the the entry side of the trunk conduit 24 incorporating in series a high-pressure pump 2 connected via a branch pipe connected to the outlet, the upstream end of the water supply conduit 4, wherein Through the first valve SV3 connected to the outlet side of the trunk line 24, through the other end the return line 23 of the bypass pipe 15 forming a spraying system L1 to be connected to the water supply conduit 16,
The spraying system L1, the high-pressure pump 2, the first valve SV3, and the second valve SV4, temperature and humidity measurements measured by the temperature sensor 25 and humidity sensor 26 installed in the humidification object area Having a control system to operate based on the value,
The control system includes a first relay 34 to operate the valve SV3, the second relay 35 and the relay 39 which operates the power line electromagnetic contactor of the high pressure pump 2, to operate the valve SV4, the relay 34 turns ON / OFF the first valve SV3 in a normal operation according to the time proportional control signal based on the humidity measurement value, and the relay 35 controls the second valve SV4 according to the time proportional control signal based on the humidity measurement value. Control to turn ON / OFF by reverse operation to a predetermined humidity ,
Furthermore, the control system, the high-pressure pump 2, the first valve SV3, and the second timer channel 1 to control the operation of the valve SV4 (32) and schedule a timer channel 2 (33) Having a timer 31,
The timer channel 1 (32), the operation start time and operation stop time for each day of the high-pressure water spray apparatus is set, a signal corresponding to the set operation start time and operation stop time, the relay 34, the Transmit to the relay 35 and the relay 39 to operate the high-pressure pump 2, the first valve SV3 and the second valve SV4;
The timer channel 2 (33), before starting the operation of the high-pressure water spray device, the time so as to operate the high-pressure water spray apparatus for a predetermined time required to replace all the had accumulated in the water supply conduit 4 Water is set, a signal corresponding to the set operation time, the relay 34, and transmitted to the relay 35 and the relay 39, operates the first valve SV3, a high pressure pump 2 and the second valve SV4 A high-pressure water spraying device characterized by that. When the pressure exceeds a certain value due to the pressing force of the spring, a water supply line 4 to which a spray nozzle 5 having a pressure-sensitive non-return function for sending out water to the spray hole is attached, and an upstream end of the water supply line 4 in the water flow direction. a first valve SV3 connected, and a trunk line 24 connected to the upstream side to form a spraying system L2 to elements of the first valve SV3, pressurizing tank provided in the trunk line 24 ET3, water A water supply line 16 is connected to the suction port of the high-pressure pump 2 that pressurizes and discharges the pressure, and a main line 24 that incorporates a safety valve 6, a check valve 3, and a pressurized tank ET3 connected via a branch pipe in series. the entry side of and connected to a discharge port of the high-pressure pump 2, the upstream end of the water supply conduit 4 is connected via the first valve SV3 to the delivery side of the trunk conduit 24, sprayed line L2, the the high-pressure pump 2 and the first valve SV3 to humidification object area A control system for operating based on the temperature and humidity measurement values measured by the temperature sensor 25 and the humidity sensor 26, and the control system includes a relay 34 for operating the first valve SV3, and a relay 39 for operating a power line electromagnetic contactor of the high pressure pump 2, the relay 34 is given by ONOFF said first valve SV3 positive operation according to a time proportional control signal based on the humidity measurements In the high-pressure water spraying method using a high-pressure water spraying device that controls the humidity to be
The control system includes a schedule timer 31 having a timer channel 1 (32) and a timer channel 2 (33) for controlling the operation of the high-pressure pump 2 and the first valve SV3.
The timer channel 1 (32) manages the daily operation start time and operation stop time of the high-pressure water spray device, and sends a signal corresponding to the managed operation start time and operation stop time to the control system. Operating the high-pressure pump 2 and the first valve SV3;
The timer channel 2 (33) manages the time so that the high-pressure water spraying device is operated for a predetermined time required to replace all the water accumulated in the water supply pipe 4 before the operation of the high-pressure water spraying device is started. Then, a signal corresponding to the managed operation time is transmitted to the relay 34 that operates the first valve SV3 and the relay 39 that operates the power line electromagnetic contactor of the high-pressure pump 2. 1 valve SV3 and the high-pressure pump 2 are operated.
A high-pressure water spraying method using a high-pressure water spraying device. When the pressure exceeds a certain value due to the pressing force of the spring, a water supply line 4 to which a spray nozzle 5 having a pressure-sensitive non-return function for sending out water to the spray hole is attached, and an upstream end of the water supply line 4 in the water flow direction. A bypass pipe in which one end is connected between the connected first valve SV3 and the most upstream spray nozzle 5 via a branch cheese, and the second valve SV4 is incorporated at the other end away from the spray nozzle 5. a road 15, the one of the core pipe 24 connected to the upstream side of the valve SV3 and elements, pressurizing tank ET3 provided in the trunk line 24, the suction port of the high-pressure pump 2 for delivering water under pressure to connect the water supply conduit 16, the safety valve 6 and the check valve 3 and the outlet of the high pressure pump 2 to the inlet side of the pressurizing tank ET3 incorporated in series with said trunk pipe 24 connected through a branch pipe connected to the upstream end of the water supply conduit 4, wherein the first Via valve SV3 connected to the outlet side of the trunk line 24, through the other end the return line 23 of the bypass pipe 15 forming a spraying system L1 to be connected to the water supply conduit 16, the sprayed line L1, the high-pressure pump 2, the first valve SV3, and the second valve SV4, the temperature and humidity measurement value measured by the temperature sensor 25 and humidity sensor 26 installed in the humidification object area based has a control system for operating it, the control system, the first relay 34 to operate the valve SV3, the second relay 35 to operate the valves SV4, and the high-pressure pump 2 power line electromagnetic a relay 39 which operates the contactor, the relay 34 ONOFF the first valve SV3 positive operation according to a time proportional control signal based on the humidity measurements, the relay 35, the humidity And ONOFF in reverse operation the second valve SV4 according to the time proportional control signal based on the measured values,
In the high-pressure water spraying method using a high-pressure water spraying device that controls to a predetermined humidity ,
The control system includes a schedule timer 31 having a timer channel 1 (32) and a timer channel 2 (33) for controlling operations of the high-pressure pump 2, the first valve SV3, and the second valve SV4. Have
The timer channel 1 (32) manages the daily operation start time and operation stop time of the high-pressure water spray device, and sends a signal corresponding to the managed operation start time and operation stop time to the control system. Operating the high pressure pump 2, the first valve SV3 and the second valve SV4;
The timer channel 2 (33) manages the time so that the high-pressure water spraying device is operated for a predetermined time required to replace all the water accumulated in the water supply pipe 4 before the operation of the high-pressure water spraying device is started. Then, a signal corresponding to the managed operation time is sent to the relay 34 that operates the first valve SV3, the relay 35 that operates the second valve SV4, and the power line electromagnetic contact of the high-pressure pump 2. The first valve SV3, the second valve SV4, and the high-pressure pump 2 are operated by transmitting to the relay 39 that operates the device.
A high-pressure water spraying method using a high-pressure water spraying device. A temperature regulator 27 and a humidity regulator that receive respective measurement signals transmitted from the temperature sensor 25 and the humidity sensor 26 and calculate respective deviations from the preset temperature set value and humidity set value. and a 28, the control signal is a signal in the time proportional control that is created based on the deviation, a selector 29 provided in the control signal downstream of the temperature controller 27, and the humidity regulator 28, the basic humidity control The high-pressure water spraying method using a high-pressure water spraying device according to claim 2 or 3 , wherein the control system interrupts temperature control when the temperature is too low. In the high pressure water spraying method by the high pressure water spraying device according to claim 4 ,
As a control system for interrupting temperature control when the temperature is too low, each control signal generated based on the deviation of each set value from the temperature regulator 27 and the humidity regulator 28 is sent from the selector 29 which is a low selector. , To the relay 36 connected in series to the relay 35,
A signal corresponding to the operation time managed to operate the high-pressure water spray device for a predetermined time required to replace all the water accumulated in the water supply pipe 4 by the timer channel 2 (33), A relay 37 arranged in parallel with the relay 34 operating the first valve SV3, a relay 38 arranged in parallel with the relay 35 operating the second valve SV4, and a power line electromagnetic contactor of the high-pressure pump 2 A high-pressure water spraying method using a high-pressure water spraying device, wherein the high-pressure water spraying device operates by operating the first valve SV3, the second valve SV4, and the high-pressure pump 2 by transmitting to an operating relay 39 .

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