KR102363439B1 - Cooling and fog mist spray device - Google Patents

Abstract

A cooling fog spraying device for outdoor and indoor use is presented.
The cooling fog spraying apparatus according to an embodiment of the present invention detects in real time through at least one sensing module for detecting the pressure of water discharged from at least one high-pressure pump to a spray nozzle and a spray needle in real time, and at least one sensing module It is configured to include a control module for transmitting the result of the detection of the water outlet pressure to the mobile communication device through at least one short-distance/long-distance communication module. Accordingly, in the cooling fog spraying device according to an embodiment of the present invention, purified water and purified water are sprayed through a spray nozzle and a spray needle. It can support the manager to quickly check whether the spray nozzle and spray needle are damaged or damaged according to the change in spray pressure of electrolytic sterilization water, etc.

Description

COOLING AND FOG MIST SPRAY DEVICE

The present invention relates to a cooling spray device for outdoor and indoor use, and more particularly, by spraying purified water or electrolytic sterilization water in the form of mist to reduce fine dust, heat island phenomenon, fire, heat wave, etc. It relates to a cooling fog spraying device that can be alleviated.

In general, fine dust is one of the major air pollutants, and harmful substances such as sulfur oxides, nitrogen oxides, volatile organic compounds, and heavy metals are attached to the particle surface, and by depositing in the alveoli or bronchi, it seriously harms human health.

In recent years, the heat island phenomenon and heat waves have also become serious social problems threatening health due to an increase in population, an increase in various artificial facilities, an increase in automobile traffic, the emission of artificial heat, and the greenhouse effect.

As one of the technologies proposed for the reduction of fine dust and alleviation of the heat island phenomenon and heat wave, there is a mist spray device installed in parks, plazas, and various facilities to spray water in the form of fine particles in the air.

Mist spray devices are widely used for temperature and humidity control or dust prevention in horticultural facilities, livestock facilities, and gardens as well as fire extinguishing facilities. A mist spraying device typically includes a water supply unit in which water is stored, a high-pressure pump that discharges water at high pressure, a mist spray nozzle and spray needle that atomizes water in a mist (mist) form, and a pipe in the form of a hose or pipe. consists of including

The mist spraying device finely disperses water and sprays it in the form of mist, so the injection needle of the injection nozzle must have ultra-fine pores, and a high-pressure pump capable of discharging water at high pressure must be used.

However, there is a problem in that the ultra-fine pores formed in the injection needle are easily clogged by foreign substances, and thus the high-pressure pump is overloaded, so that the high-pressure pump is easily broken. On the contrary, when the injection furnace or the injection needle is damaged or lost due to external contact, there is a problem in that water is not injected because water cannot be discharged at high pressure.

In addition, since the mist spraying device according to the prior art is configured to spray only water supplied to a water supply pipe or purified water supplied through a water purifier from a water pipe, its use in gardening facilities such as gardens or parks is limited.

The present invention is a cooling fog spray that can support the administrator to quickly check whether the spray nozzle and the spray needle are damaged or damaged according to the change in spray pressure of purified water, purified water, electrolytic sterilization water, etc. sprayed through the spray nozzle and the spray needle. The purpose is to provide a device.

In addition, the present invention provides a cooling fog spraying device capable of supporting a manager to quickly check and respond to whether the spray nozzle and the spray needle are damaged or damaged according to the change in the amount of impact and vibration of the spray nozzle and the spray needle. have.

In addition, the present invention provides a cooling fog spraying device capable of performing a sterilization function and preventing virus spread by selectively spraying electrolytic sterilization water in the form of mist for a predetermined period in addition to purified water treatment. have.

The objects of the present invention are not limited to the objects mentioned above, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

Cooling fog spraying device according to the present invention is supplied to the spray nozzle through at least one high-pressure pump, at least one high-pressure pump and the water filter for supplying water from a water supply pipe to at least one water filter according to driving of at least one motor At least one injection needle for spraying the used water in the form of mist, at least one sensing module for detecting in real time the pressure of water discharged from the at least one high-pressure pump to the injection nozzle and the injection needle, and at least one sensing module. and a control module for transmitting a result of detecting the water outlet pressure detected in real time to the mobile communication device through at least one short-distance/long-distance communication module.

Purified water and purified water sprayed through the injection needle. In order for the manager to quickly check and respond to whether the spray nozzle and spray needle are damaged or damaged according to the change in spray pressure of electrolytic sterilization water, etc., the control module sets the detection value of the extraction water pressure detected in real time to a preset minimum pressure reference value and Compare in real time with the maximum pressure reference value. And, when the detection value of the outlet water pressure detected in real time is lower than the minimum pressure reference value or becomes higher than the maximum pressure reference value, the operation of the at least one motor and the at least one high-pressure pump is stopped. Then, the result of stopping the operation of at least one motor and the high-pressure pump together with the detection value of the water outlet pressure is transmitted to the mobile communication device.

The cooling fog spraying device according to the present invention is purified water and purified water sprayed through a spray nozzle and a spray needle. It supports the manager to quickly check and respond to whether the spray nozzle and spray needle are damaged or damaged according to the change in spray pressure of electrolytic sterilization water, etc.

In addition, according to the change in the amount of impact and vibration of the injection nozzle and the injection needle, it supports the manager to quickly check whether the injection nozzle and the injection needle are damaged or damaged, and to deal with it. Accordingly, it is possible to further improve the management efficiency of the manager.

In addition, the cooling fog spraying device according to the present invention selectively sprays electrolytic sterilization water in a mist form for a predetermined period in addition to purified water, thereby reducing fine dust and preventing virus spread through sterilization.

In addition to the above-described effects, the specific effects of the present invention will be described together while describing specific details for carrying out the invention below.

1 is a configuration diagram specifically showing a cooling fog spraying device according to an embodiment of the present invention.
FIG. 2 is a block diagram showing the electrolyzed water generating module and the sterilizing water storage tank shown in FIG. 1 .
FIG. 3 is a configuration block diagram specifically illustrating the control module shown in FIG. 1 .
FIG. 4 is a timing diagram for explaining a method of changing and controlling the injection mode of purified water and sterilizing water of the control module shown in FIG. 1 .

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

In this specification, the first, second, etc. are used to describe various components, but these components are not limited by these terms. These terms are only used to distinguish one component from other components, and unless otherwise stated, it goes without saying that the first component may be the second component.

In addition, when it is described in this specification that a component is “connected”, “coupled” or “connected” to another component, the components may be directly connected or connected to each other, but other components may be formed between each component. It should be understood that elements may be “interposed”, or that each element may be “connected,” “coupled,” or “connected to,” through another element.

Also, as used herein, the singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “consisting of” or “comprising” should not be construed as necessarily including all of the various components or various steps described in the specification, some of which components or some steps are It should be construed that it may not include, or may further include additional components or steps.

The cooling fog spraying device in the present invention is variously applicable for sterilization and disinfection, maintaining humidity, and reducing fine dust in horticultural facilities such as fire extinguishing facilities, livestock facilities, gardens, parks, and public facilities.

Hereinafter, a cooling fog spraying device according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a configuration diagram specifically showing a cooling fog spraying device according to an embodiment of the present invention.

The cooling fog spraying device shown in FIG. 1 includes at least one motor, at least one high-pressure pump 110 , at least one water filter 120 , at least one sensing module 130 , a control module 140 , and at least one of the injection nozzle 161 and the injection needle 161 , at least one electrolyzed water generating module 150 , and an electrolyzed water storage tank 160 .

The at least one high-pressure pump 110 supplies the water of the water supply pipe to the at least one water filter 120 and the at least one electrolyzed water generating module 150 according to the driving of at least one motor.

The at least one sensing module 130 includes at least one pressure sensor to detect in real time the pressure of water discharged from the at least one high-pressure pump 110 to the at least one injection nozzle 161 and the injection needle 161 . do. And it transmits the detection value of the water outlet pressure detected in real time to the control module 140 .

In addition, the at least one sensing module 130 includes at least one gyro sensor or a vibration detection sensor to detect the amount of vibration of the at least one injection nozzle 161 and the injection needle 161 over time. And the vibration amount detection value of the injection nozzle 161 or the injection needle 161 detected in real time is transmitted to the control module 140 .

The at least one injection needle 161 sprays purified water or electrolytic sterilization water supplied to the injection nozzle 161 through the at least one high-pressure pump 110 and the water filter 120 in the form of a mist.

The control module 140 may be configured in the form of a microcomputer including at least one microprocessor and a micro controller unit (MCU). The control module 140 transmits the pressure detection result of the water discharged to the injection nozzle 161 and the injection needle 161 to the mobile communication device 200 through at least one short-distance/long-distance communication router 300 .

When the water jetting substrate composed of the jetting nozzle 161 and the jetting needle 161 is damaged, damaged, or lost, the pressure of water discharged through the jetting nozzle 161 and the jetting needle 161 may be rapidly reduced or increased. can When the pressure of water is rapidly increased or decreased, the overload of at least one motor and the high-pressure pump 110 may cause a malfunction.

Accordingly, the control module 140 compares the detection value of the water outlet pressure input in real time through the at least one sensing module 130 with a preset minimum pressure reference value and a maximum pressure reference value in real time. Then, when the detection value of the output water pressure input in real time is lower than the minimum pressure reference value or becomes higher than the maximum pressure reference value, the operation of the at least one motor and the at least one high pressure pump 110 is stopped. Then, the result of stopping the operation of the at least one motor and the high-pressure pump 110 together with the detection value of the water outlet pressure is transmitted to the mobile communication device 200 .

The control module 140 includes at least one short-distance wired/wireless communication module or long-distance Internet communication module, and through the wired/wireless communication router 300 disposed adjacently, the water outlet pressure detection value, the vibration amount detection value, and at least one Information on the result of stopping the operation of the motor and the high-pressure pump 110 may be transmitted to the mobile communication device 200 .

In addition, the control module 140 is configured to use at least one sensing module 130 to detect and understand in real time a situation in which the water spraying substrate such as the spray nozzle 161 or the spray needle 161 is damaged, damaged, or lost. It receives the vibration amount detection value of the injection nozzle 161 or the injection needle 161 in real time through the Then, the control module 140 compares the vibration amount detection value of the injection nozzle 161 or the injection needle 161 input in real time with a preset minimum vibration amount reference value and a maximum vibration amount reference value in real time. Then, when the vibration amount detection value input in real time is lower than the minimum vibration amount reference value or becomes higher than the maximum vibration amount reference value, the operation of the at least one motor and the at least one high pressure pump 110 is stopped. Then, the result of stopping the operation of the motor and the high-pressure pump 110 together with the vibration amount detection value is transmitted to the mobile communication device 200 .

At least one electrolyzed water generating module 150 is electrolyzed in a preset capacity unit by adding purified salt and hydrochloric acid and the like to the water supplied through the at least one high-pressure pump 110 at a preset ratio and electrolyzing it. Produces sterile water (specifically, hypochlorous acid water). Then, the electrolytic sterilization water generated in a preset capacity unit is stored in the electrolyzed water storage tank 160 .

Specifically, the at least one electrolyzed water generating module 150 receives and stores water from the water supply pipe through the high-pressure pump 110 as a unit of capacity of the electrolytic sterilizing water generating tank. Then, by adding purified substances such as purified salt and folic acid at a preset ratio, and electrolyzing the purified substance-added water for a preset period, electrolytic sterilization water is generated in units of capacity of the electrolytic sterilization water generating tank. The generated electrolytic sterilization water is supplied to the electrolyzed water storage tank 160 to be stored in the electrolyzed water storage tank 160 .

The electrolyzed water storage tank 160 stores the electrolytic sterilization water generated by the at least one electrolyzed water generating module 150 and controls the capacity information of the electrolytically sterilized water that is continuously supplied and stored from the at least one electrolyzed water generating module 150 . sent to module 140 .

The control module 140 controls the at least one high-pressure pump 110 so that the water in the water supply pipe is sprayed through the at least one water filter 120 and the at least one spray nozzle 161 , or the electrolyzed water storage tank The electrolytic sterilizing water stored in 160 is controlled to be sprayed through at least one spray nozzle 161 .

The control module 140 may alternately control the at least one high-pressure pump 110 in units of a preset period to control the water in the water supply pipe to be sprayed or to sequentially control the electrolytic sterilization water to be sprayed.

For example, the control module 140 controls the at least one high-pressure pump 110 for a first period set by 50 minutes from the hour of every hour so that the water in the water supply pipe is discharged from the at least one water filter 120 and the at least one spray. It can be controlled to be sprayed through the nozzle 161 .

Then, the control module 140 controls the at least one high-pressure pump 110 for a second period set by 10 minutes from 50 minutes to the next hour every hour, so that the electrolytic sterilization water stored in the electrolyzed water storage tank 160 is at least one spray nozzle It can be controlled to be sprayed through (161).

In addition, the control module 140 monitors the capacity information of the electrolytic sterilization water stored in the electrolyzed water storage tank 160 in real time, and when the electrolytic sterilizing water is stored in the electrolyzed water storage tank 160 more than a preset capacity, the electrolytic sterilizing water is sprayed At least one high-pressure pump 110 may be sequentially controlled as much as possible. That is, the control module 140 controls the at least one high-pressure pump 110 so that water from the water supply pipe is sprayed, and when it is confirmed that the electrolytic sterilizing water is stored in the electrolytic water storage tank 160 at a preset capacity or more, the electrolytic sterilizing water is sprayed At least one high-pressure pump 110 may be sequentially controlled as much as possible.

FIG. 2 is a block diagram showing the electrolyzed water generating module and the sterilizing water storage tank shown in FIG. 1 .

The electrolyzed water generating module 150 shown in FIG. 2 includes a power supply control unit 151 , a sterilizing water generating tank 152 , a sterilizing water generating capacity adjusting valve 153 , and a purified material adding unit 154 .

The sterilizing water generation capacity control valve 153 receives water from the water supply pipe through the high-pressure pump 110 in units of the capacity of the sterilizing water generation tank 152 and stores it in the sterilizing water generation tank 152 .

The purified material adding unit 154 supplies purified materials such as refined salt and edible folic acid to the sterilizing water generating tank 152 at a set ratio.

The power supply control unit 151 supplies current to the negative (-) and positive (+) electrodes of the sterilizing water generation tank 152 in a preset period unit in a state in which the sterilizing water generation tank 152 is changed to vacuum to sterilize. The water stored in the water generating tank 152 is electrolyzed.

The sterilizing water generating tank 152 supplies the electrolytically sterilized water generated for a predetermined period to the electrolyzed water storage tank 160 in a vacuum state, so that the electrolytically sterilized water is stored in the electrolyzed water storage tank 160 in a vacuum state.

FIG. 3 is a configuration block diagram specifically illustrating the control module shown in FIG. 1 .

The control module 140 shown in FIG. 3 includes a wireless communication unit 141 , a microcomputer 142 , a water extraction selection control unit 143 , a pressure signal processing unit 144 , a purified water detection unit 145 , and a vibration detection signal processing unit 146 . , and a fine dust concentration measuring unit 147 .

The wireless communication unit 141 performs short-distance/long-distance wireless communication with the mobile communication device 200 through the wired/wireless communication router 300 . The wireless communication unit 141 transmits the result of stopping the operation of at least one motor and the high pressure pump 110 along with the detection value of the water outlet pressure under the control of the microcomputer 142 through the wired/wireless communication sharer 300 to the mobile communication device 200 ) is sent to In addition, the wireless communication unit 141 transmits the result of stopping the operation of the motor and the high-pressure pump 110 together with the vibration amount detection value according to the control of the microcomputer 142 through the wired/wireless communication sharer 300 to the mobile communication device 200 . can be sent to

In addition, the wireless communication unit 141 may transmit the capacity information of the electrolytic sterilizing water stored under the control of the microcomputer 142 to the mobile communication device 200 through the wired/wireless communication router 300 .

The pressure signal processing unit 144 detects the water outlet pressure detection value in real time through the at least one sensing module 130 and modulates it into a digital signal. Then, the digital value-modulated water outlet pressure detection value is transmitted to the microcomputer 142 in real time.

The vibration detection signal processing unit 146 detects a vibration amount detection value of the injection nozzle 161 or the injection needle 161 in real time through at least one sensing module 130 and modulates the detection value into a digital signal. Then, the digital value-modulated vibration amount detection value is transmitted to the microcomputer 142 in real time.

The fine dust concentration measuring unit 147 measures the fine dust concentration in real time, detects the fine dust concentration detection value, and modulates it into a digital signal. Then, the fine dust concentration value modulated by the digital value is transmitted to the microcomputer 142 in real time.

The microcomputer 142 stops the operation of the at least one motor and the high-pressure pump 110 when the real-time detection value of the water outlet pressure is lower than the minimum pressure reference value or higher than the maximum pressure reference value. Then, the result of stopping the operation of the at least one motor and the high-pressure pump 110 together with the detection value of the water outlet pressure is transmitted to the mobile communication device 200 .

In addition, the microcomputer 142 stops the operation of at least one motor and the high-pressure pump 110 when the vibration amount detection value detected in real time is lower than the minimum vibration amount reference value or becomes higher than the maximum vibration amount reference value. Then, the result of stopping the operation of the motor and the high-pressure pump 110 together with the vibration amount detection value is transmitted to the mobile communication device 200 .

In addition, when the detection value of the fine dust concentration detected in real time becomes higher than the maximum concentration reference value, the microcomputer 142 transmits the electrolyzed water extraction water selection signal to at least one motor and the high-pressure pump 110 through the extraction water selection control unit 143 . send. Accordingly, the electrolytic sterilizing water stored in the electrolyzed water storage tank 160 is controlled to be sprayed through the at least one spray nozzle 161 according to the selective water extraction operation of the at least one motor and the high-pressure pump 110 . At this time, at least one motor and the high-pressure pump 110 are operated until all of the electrolytic sterilization water stored in the electrolytic water storage tank 160 is sprayed.

The purified water sensing unit 145 transmits the capacity information of the electrolytic sterilizing water continuously generated from the at least one electrolyzed water generating module 150 and stored in the electrolyzed water storage tank 160 to the microcomputer 142 .

Accordingly, the microcomputer 142 controls the water outlet valve of the at least one high-pressure pump 110 through the water outlet selection control unit 143 to control the water in the water supply pipe to be sprayed through the at least one spray nozzle 161, The electrolytic sterilization water stored in the electrolytic water storage tank 160 is controlled to be sprayed through at least one spray nozzle 161 .

FIG. 4 is a timing diagram for explaining a method of changing and controlling the injection mode of purified and sterilized water of the control module shown in FIG. 1 .

Referring to FIG. 4 , the microcomputer 142 alternately controls at least one high-pressure pump 110 in units of a preset period to control the water in the water supply pipe to be sprayed or to sequentially control the electrolytic sterilization water to be sprayed. can

For example, the control module 140 controls the at least one high-pressure pump 110 for a first period (W_S) set by 50 minutes from the hour of every hour so that the water in the water supply pipe is supplied to the at least one water filter 120 and at least It can be controlled to be sprayed through one spray nozzle 161 .

Then, the control module 140 controls at least one high-pressure pump 110 for a second period (DW_S) set by 10 minutes from 50 minutes to the next hour every hour to the next hour, and the electrolytic sterilization water stored in the electrolyzed water storage tank 160 is at least one It can be controlled to be sprayed through the spray nozzle 161 of

In addition, the control module 140 monitors the capacity information of the electrolytic sterilization water stored in the electrolyzed water storage tank 160 in real time, and when the electrolytic sterilizing water is stored in the electrolyzed water storage tank 160 more than a preset capacity, the electrolytic sterilizing water is sprayed At least one high-pressure pump 110 may be sequentially controlled as much as possible. That is, the control module 140 controls the at least one high-pressure pump 110 so that the water of the water supply pipe is sprayed. If it is confirmed that the electrolytic sterilization water is stored in the electrolyzed water storage tank 160 at a preset capacity or more, the second period ( DW_S) may be set in real time to sequentially control at least one high-pressure pump 110 to spray electrolytic sterilization water.

On the other hand, when the detection value of the fine dust concentration detected in real time is higher than the maximum concentration reference value, the control module 140 transmits the electrolyzed water extraction water selection signal to at least one motor and the high-pressure pump 110 through the extraction water selection control unit 143 . send to And the electrolyzed water extraction selection signal (ss) generation information is transmitted as an alarm to the mobile communication device (alarm). Then, the control module 140 controls the electrolytic sterilization water stored in the electrolyzed water storage tank 160 to be sprayed through the at least one spray nozzle 161 according to the selection operation of the at least one motor and the high-pressure pump 110 . At this time, at least one motor and the high-pressure pump 110 are operated until all of the electrolytic sterilization water stored in the electrolytic water storage tank 160 is sprayed.

As described above, in the cooling fog spraying device according to the present invention, purified water and purified water are sprayed through the spray nozzle and the spray needle. It supports the manager to quickly check and respond to whether the spray nozzle and spray needle are damaged or damaged according to the change in spray pressure of electrolytic sterilization water, etc.

In addition, according to the change in the amount of impact and vibration of the injection nozzle and the injection needle, it supports the manager to quickly check whether the injection nozzle and the injection needle are damaged or damaged, and to deal with it. Accordingly, it is possible to further improve the management efficiency of the manager.

In addition, the cooling fog spraying device according to the present invention selectively sprays electrolytic sterilization water in a mist form for a predetermined period in addition to purified water, thereby reducing fine dust and preventing virus spread through sterilization.

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed in the present specification. It is obvious that variations can be made. In addition, although the effect of the configuration of the present invention has not been explicitly described and described while describing the embodiment of the present invention, it is natural that the effect predictable by the configuration should also be recognized.

110: at least one high pressure pump
120: at least one water filter
130: at least one sensing module
140: control module
150: at least one electrolyzed water generating module
160: electrolyzed water storage tank
161: at least one spray nozzle
162: injection needle

Claims (5)

at least one high-pressure pump for supplying water from the water supply pipe to the at least one water filter according to the driving of at least one motor;
at least one injection needle for spraying water supplied to the injection nozzle through the at least one high-pressure pump and the water filter in a mist form;
at least one sensing module for detecting the pressure of water discharged from the at least one high-pressure pump to the injection nozzle and the injection needle in real time; and
a control module for transmitting a result of detecting the water outlet pressure detected in real time through the at least one sensing module to a mobile communication device through at least one short-distance/long-distance communication module,
The control module is
controlling the at least one high-pressure pump so that the water through the water filter or the electrolytic sterilization water of the electrolyzed water storage tank is injected through the injection nozzle to the at least one injection needle,
The electrolytic water storage tank is
By transmitting the stored capacity information of the electrolytic sterilizing water to the control module, the capacity of the electrolytic sterilizing water is monitored in real time by the control module,
The control module is
operating or stopping the at least one high-pressure pump according to at least one detection value among a water outlet pressure detection value, a vibration amount detection value, and a fine dust concentration detection value detected in real time through the at least one sensing module;
sequentially controlling the operation of the at least one high-pressure pump according to the capacity of the electrolytic sterilizing water,
A cooling fog spraying device for transmitting a result of the operation or stop of the operation of the high-pressure pump to the mobile communication device.
The method of claim 1,
The control module is
comparing the real-time detection value of the outlet water pressure with preset minimum pressure reference values and maximum pressure reference values in real time;
When the detection value of the outlet pressure detected in real time is lower than the minimum pressure reference value or becomes higher than the maximum pressure reference value, the operation of the at least one motor and the at least one high-pressure pump is stopped,
A cooling fog spraying device for transmitting a result of stopping the operation of at least one motor and the high-pressure pump together with the detection value of the water outlet pressure to the mobile communication device.
The method of claim 1,
the at least one sensing module
at least one pressure sensor and at least one gyro sensor or a vibration detection sensor, wherein the water pressure discharged from the at least one high-pressure pump to the at least one injection nozzle and the injection needle, and the vibration of the at least one injection nozzle and the injection needle Cooling fog spraying device that detects amount by time.
The method of claim 1,
The control module is
The operation of the water outlet pressure detection value, the vibration amount detection value, at least one motor and the high-pressure pump through a wired/wireless communication router that is provided with at least one short-distance/long-distance communication module and a long-distance Internet communication module and disposed adjacently Cooling fog spraying device for transmitting the interruption result information to the mobile communication device.
delete

Images