JPH0717358U - Liquid atomizer - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide a liquid spraying device capable of reducing running costs. [Structure] A spray liquid tank 6 containing a spray liquid F2
A raw water tank 10 for storing raw water F3 such as tap water, and an electrolysis for electrolyzing the raw water F3 to generate acidic water and alkaline water, in a liquid spraying device equipped with a spraying means 4 for spraying the liquid F2. The water generator 11, the raw water pipe 12 for guiding the raw water F3 in the raw water tank 10 to the electrolyzed water generator 11, and one of the electrolyzed water produced by the electrolyzed water generator 11 is sprayed onto the spray liquid tank 6
Since the first electrolyzed water conduit 14 for guiding the electrolyzed water and the second electrolyzed water conduit 15 for guiding the other electrolyzed water to the raw water tank 10 are provided, the acidic water or alkaline water produced by the electrolyzed water generator 11 The running cost can be significantly reduced by selectively using it as the spray liquid F2, and the electrolytic water not used for spraying can be returned to the raw water tank 10 and reused.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a liquid spraying device that can be used for a wide range of purposes such as sterilization, disinfection, and freshness maintenance by spraying acidic water or alkaline water.

[0002]

[Prior art]

 FIG. 3 shows a conventional liquid spraying device used for disinfection and sterilization. In the figure, 1 is a vaporized liquid tank containing a vaporized liquid F1 such as water, 2 is a vaporized liquid pipe line having one end inserted into the vaporized liquid tank 1, and 3 is a vaporized liquid pipe line 2 A pump, 4 is a vaporizer whose inlet is connected to the other end of the vaporized liquid pipe 2, 5 is a first nozzle connected to the outlet of the vaporizer 4, and 6 is a spray liquid F2 for sterilization and disinfection. Spray liquid tank, 7 is a spray liquid pipe having one end inserted into the spray liquid tank 6, 8 is a second nozzle connected to the other end of the spray liquid pipe 7, and 9 is both nozzles held in orthogonal directions It is a nozzle holder that The vaporizer 4 is equipped with an electric heater 4a and a porous element (not shown). The vaporized liquid F1 sent to the porous element is heated and vaporized by the heat of the electric heater 4a, and its vapor is output (first nozzle). It can be ejected from 5).

This liquid spraying device is called a two-fluid spraying device, and the spray liquid F2 is sprayed as follows. That is, when the pump 3 is operated and the vaporized liquid F1 in the vaporized liquid tank 1 is sent to the porous element in the vaporizer 4 which is in a heated state, the vaporized liquid F1 is heated and vaporized, and the vapor is vaporized in the first nozzle 5 The spray liquid F2 in the spray liquid tank 6 is sucked up by the end of the second nozzle 8 by the sprayed steam, and at the same time, the sprayed liquid F2 collides with the sprayed steam and is atomized and sprayed forward.

[0004]

[Problems to be solved by the device]

 By the way, in the above-mentioned conventional liquid spraying device, since a commercially available sterilizing liquid, detoxifying liquid or the like is used as the spraying liquid F2, the raw material price itself is high and the running cost is high.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a liquid spraying device capable of reducing the running cost.

[0006]

[Means for Solving the Problems]

 In order to achieve the above object, in the invention of claim 1, in a liquid spraying device comprising a spray liquid container for containing a spray liquid and a spray means for spraying the liquid, raw water for containing raw water such as tap water. A container, electrolyzed water producing means for electrolyzing raw water to produce acidic water and alkaline water, a raw water conduit for guiding the raw water in the raw water container to the electrolyzed water producing means, and one of the electrolyzed water producing means A first electrolyzed water conduit for guiding the electrolyzed water to the spray liquid container and a second electrolyzed water conduit for guiding the other electrolyzed water generated by the electrolyzed water generating means to the raw water container are provided.

According to the second aspect of the invention, the reforming means for neutralizing electrolytic water is provided in the second electrolytic water pipe line in the liquid spraying device of the first aspect.

According to the third aspect of the invention, a drainage line is provided in the second electrolytic water pipe in the liquid spraying device of the first or second aspect, and the flow of the electrolytic water guided to the second electrolytic water line is provided. A flow path switching means for switching between the raw water container and the drainage pipe is provided.

[0009]

[Action]

 According to the inventions of claims 1 to 3, raw water such as tap water stored in the raw water container is electrolyzed by the electrolytic water generating means to generate acidic water and alkaline water, and one of the electrolyzed water is sprayed. The electrolyzed water of the other side can be led to the tank and the raw water container can be led. In other words, when used for sterilization, disinfection, etc., the acidic water generated by the electrolyzed water generator can be introduced to the spray liquid tank and used as a spray liquid, and the alkaline water not used for spraying can be returned to the raw water container and reused. Can be used. When used for cleaning oils and fats, maintaining freshness of fresh foods, etc., the alkaline water generated by the electrolyzed water generator can be introduced to the spray liquid tank and used as a spray liquid, and acidic water not used for spraying can be used. Can be returned to the raw water container for reuse.

In the liquid spraying apparatus according to the second aspect of the invention, the pH of the raw water in the raw water container is neutralized by neutralizing the acidic water or alkaline water returned from the electrolyzed water generating means to the raw water container by the reforming means. It is possible to prevent value fluctuations.

In the liquid spraying device according to the third aspect of the present invention, the pH value fluctuation of the raw water in the raw water container is discharged by discharging the acidic water or alkaline water not used for spraying from the drain pipe without returning it to the raw water container. Can be prevented.

[0012]

【Example】

 FIG. 1 shows an embodiment of the present invention. In the present embodiment, the present invention is applied to the liquid spraying device shown in FIG. 3, and the same reference numerals are used for parts having the same configurations as the device. That is, in the figure, 1 is a vaporized liquid tank, 2 is a vaporized liquid pipe, 3 is a pump, 4 is a vaporizer, 4a is an electric heater, 5 is a first nozzle, 6 is a spray liquid tank, and 7 is a spray liquid pipe. , 8 is a second nozzle, 9 is a nozzle holder, F1 is a vaporized liquid, and F2 is a spray liquid.

A raw water tank 10 stores raw water F3 such as tap water and ground water. You may add NaCl etc. to this raw water F3 in order to raise the pH value of acidic water and alkaline water obtained at the time of electrolysis.

Reference numeral 11 denotes an electrolyzed water generator, and as shown in FIG. 2, a generator main body 11e having an inlet 11a, two outlets 11b and 11c, and a passage 11d connecting these inlets and outlets, and the generator main body 11e are arranged to face each other in the passage 11d. It is composed of a pair of electrodes 11f and 11g and a diaphragm (ion permeable membrane) 11h arranged between the electrodes. Although not shown, a power supply circuit for supplying a DC voltage for electrolysis is connected to both electrodes 11f and 11g.

In this electrolyzed water generator 11, the electrode 11f on the upper side in the figure is used as an anode, and the electrode 11g on the lower side in the figure is used as a cathode to apply an electrolysis voltage to both electrodes 11f, 11g, whereby raw water flowing through the passage 11d is supplied. F3 is electrolyzed to produce acidic water containing a large amount of H ⁺ and ClO ⁻ and alkaline water (alkali ionized water) containing a large amount of ^{OH −} , Ca ²⁺ , Mg ²⁺ , Na ^+, etc. Can be sent out from the outlet 11b on the upper side in the figure, and alkaline water can be sent out from the outlet 11c on the lower side in the figure. Contrary to the above, if an electrolytic voltage is applied to both electrodes 11f and 11g with the electrode 11f on the upper side in the figure as the cathode and the electrode 11g on the lower side in the figure as the anode, alkaline water is discharged from the outlet 11b in the upper side in the figure, and The acidic water can be sent out from the respective outlets 11c on the lower side of the figure.

Reference numeral 12 is a raw water pipe having a pump 13 interposed therein, one end of which is inserted into the raw water tank 10 and the other end of which is connected to an inlet 11 a of the electrolyzed water generator 11. Reference numeral 14 is a first electrolyzed water pipe, in which a solenoid valve 14a is provided in the middle of the pipe, one end of which is connected to one outlet 11b of the electrolyzed water generator 11 and the other end of which is connected to the upper end of the spray liquid tank 6, respectively. ing. Reference numeral 15 is a second electrolyzed water pipeline, in which a solenoid valve 15a is interposed in the pipeline, one end of which is connected to the other outlet 11c of the electrolyzed water generator 11 and the other end of which is connected to the upper end of the raw water tank 10. .

A reformer 16 is provided with a filter group containing a neutralizing agent such as an ion-exchange resin or activated carbon in its internal passage, and is provided in the second electrolytic water pipe 15 downstream of the solenoid valve 15 a. It is equipped. The reformer 16 has a function of adjusting the pH value of the alkaline water or the acidic water flowing through the internal passage to neutralize it. The above-mentioned neutralizing agent is configured to be replaceable so that the neutralizing function can be maintained depending on the target liquid.

Reference numeral 17 denotes a drainage pipe, in which an electromagnetic valve 17a is interposed in the middle of the pipe, and one end of the drainage pipe is connected to the upstream side of the electromagnetic valve 15a of the second electrolysis water pipe 15. Reference numeral 18 is a recovery tank connected to the other end of the water distribution line 17.

Hereinafter, a method of using and an operation of the above liquid spraying device will be described. When the device is used for purposes such as sterilization and disinfection, an electrolytic voltage is applied to both electrodes 11f and 11g using the upper electrode 11f of the electrolyzed water generator 11 as an anode and the lower electrode 11g as a cathode. The pump 13 is operated with the solenoid valves 14a, 15a of the first electrolyzed water conduit 14 and the second electrolyzed water conduit 15 open and the solenoid valve 17a of the drainage conduit 17 closed. As a result, the raw water F3 stored in the raw water tank 10 is sent into the electrolyzed water generator 11 and electrolyzed, and the acidic water produced by the electrolyzed water generator 11 is sprayed through the first electrolyzed water conduit 14. It is sent to the liquid tank 6. A liquid level sensor such as a float switch is provided in the spray liquid tank 6, and if the pump 13 is turned on and off by the sensor signal, the liquid level of the spray liquid (acidic water) F2 in the spray liquid tank 6 is maintained at a predetermined level. can do. Along with this, the alkaline water generated in the electrolyzed water generator 11 is sent to the reformer 16 through the second electrolyzed water conduit 15, where the pH value is lowered and neutralized, and then returned to the raw water tank 10. And is reused as raw water F 3. When the alkaline water is not reused as the raw water F3, the solenoid valve 15a of the second electrolytic water line 15 may be closed and the electromagnetic valve 17a of the drainage line 17 may be opened, and the alkaline water may be recovered through the drainage line 17. It is discharged to the tank 18.

On the other hand, when the apparatus is used for cleaning oil and fat, maintaining freshness of fresh food, activating plants, improving soil, etc., the upper electrode 11f of the electrolyzed water generator 11 is used as a cathode. , The lower electrode 11g is used as an anode and an electrolytic voltage is applied to both electrodes 11f, 11g, and at the same time, the solenoid valves 14a, 15a of the first electrolytic water conduit 14 and the second electrolytic water conduit 15 are opened, and drainage is performed. The pump 13 is operated with the solenoid valve 17a of the conduit 17 closed. As a result, the raw water F3 stored in the raw water tank 10 is sent into the electrolyzed water generator 11 and electrolyzed, and the alkaline water produced in the electrolyzed water generator 11 is supplied to the first electrolyzed water pipeline 14 It is sent to the spray liquid tank 6 through. Along with this, the acidic water generated in the electrolyzed water generator 11 is sent to the reformer 16 through the second electrolyzed water conduit 15, where its pH value is raised and neutralized, and then returned to the raw water tank 10. It is reused as raw water F3. When the acidic water is not reused as the raw water F3, the electromagnetic valve 15a of the second electrolyzed water pipeline 15 may be closed and the electromagnetic valve 17a of the drainage pipeline 17 may be opened, and the acidic water may be collected through the drainage pipeline 17 in the recovery tank. It is discharged to 18.

The spray liquid (acidic water or alkaline water) F2 is sprayed in the same manner as in the liquid spraying device shown in FIG. Specifically, when the pump 3 is operated and the vaporized liquid F 1 in the vaporized liquid tank 1 is sent to the porous element in the vaporizer 4 which is in a heated state, the vaporized liquid F 1 is heated and vaporized, and the vapor thereof becomes the first vapor. The spray liquid (acidic water or alkaline water) F2 in the spray liquid tank 6 is jetted from the tip of the nozzle 5 and is sucked up by the tip of the second nozzle 8 and at the same time collided with the jet steam and atomized. To be blown out.

As described above, in the above-mentioned liquid spraying device, the raw water F3 such as tap water and ground water is electrolyzed by the electrolytic water generator 11, and one of the acidic water and the alkaline water generated here is sprayed into the spray liquid tank 6 Since it can be sent to and sprayed in, it does not require the replenishment of liquid as in the past, the raw material unit price is low, and the running cost can be greatly reduced.

Further, since one electrolyzed water that is not used for spraying is returned to the raw water tank 10 without being discarded, the electrolyzed water can be reused without wasting it. Moreover, since the electrolyzed water is neutralized by the reformer 16 and then returned to the raw water tank 10, the pH value of the raw water in the raw water tank 10 does not significantly change due to the returned electrolyzed water. Can be stably electrolyzed, and maintenance can be improved by recycling.

Further, by discharging the alkaline water generated by the electrolyzed water generator 11 to the recovery tank 18 without returning it to the raw water tank 10, the pH value fluctuation of the raw water F3 can be prevented in the same manner as above.

In the above-mentioned embodiment, the electrode of the electrolyzed water generator is switched so that one of the acidic water and the alkaline water can be introduced into the spray liquid tank. The selection of this electrolyzed water is shown in FIG. It can also be performed by a switching circuit. In the electrolyzed water generator 11 shown in the figure, the upper electrode 11f in the figure is fixed as an anode, and the lower electrode 11h in the figure is fixed as a cathode. The first electrolyzed water pipeline 14 connected to the outlet 11b on the upper side in the figure of this electrolyzed water generator 11 is bifurcated via a three-way valve 19, and one branch pipeline 14a is connected to the spray liquid tank 6 It is connected to the. Further, the second electrolytic water pipe 15 connected to the outlet 11c on the lower side in the drawing is branched into two forks through the three-way valve 20, and one branch pipe 15a is in the middle of the above branch pipe 14a. It is connected to the. The other branch conduits 14b, 15b of the first and second electrolyzed water conduits 14, 15 join each other and are connected to the reformer 16 and the drainage conduit 17 (recovery tank 18) via a three-way valve 21, respectively. Has been done. In the above switching circuit, the three-way valves 19 and 20 are switched to the upper branch pipe lines 14a and 15b in the figure, and the three-way valve 21 is switched to the reformer 16 side, and the electrolyzed water generator 11 generates the water. The generated acidic water can be guided to the spray liquid tank 6, and the alkaline water can be returned to the raw water tank 10 through the reformer 16. On the other hand, the three-way valves 19 and 20 were switched to the lower branch pipes 14b and 15a in the figure, and the three-way valve 21 was switched to the reformer 16 side. The alkaline water can be guided to the spray liquid tank 6, and the acidic water can be returned to the raw water tank 10 through the reformer 16. Further, by switching the three-way valve 21 to the drain pipe 17 side, alkaline water or acid water not used for spraying can be discharged to the recovery tank 18 through the drain pipe 17.

The above-mentioned reformer is not always necessary when the capacity of the raw water tank is large and the influence of the pH value on the raw water is small. Further, in the embodiment of FIG. 1, the flow path switching means for switching the flow of the alkaline water to either the raw water tank or the drainage pipeline can be replaced by providing a three-way switching valve at the branch portion of the drainage pipeline.

The present invention is not limited to the two-fluid spraying device shown in the embodiment, but can be widely applied to various liquid spraying devices capable of spraying liquid.

[0028]

[Effect of device]

 As described in detail above, according to the inventions of claims 1 to 3, the acidic water produced by the electrolyzed water producing means is used for sterilization, disinfection, etc., and the alkaline water is used for washing oils and fats and for producing fresh foods. It can be selectively used for purposes such as freshness maintenance, and because raw water such as tap water and groundwater is used as a raw material, the raw material unit cost is low and running costs can be greatly reduced. Further, by returning the electrolyzed water not used for spraying to the raw water container, there is an advantage that the electrolyzed water can be reused without wasting it.

According to the second aspect of the present invention, the electrolyzed water not used for spraying is neutralized by the reforming means and then returned to the raw water container. Therefore, the pH value of the raw water in the raw water container is returned by the returned electrolyzed water. Does not fluctuate significantly, and thus the above electrolysis can be stably performed, and the maintainability can be improved by recycling.

According to the invention of claim 3, the pH value fluctuation of the raw water in the raw water container is prevented by discharging the electrolyzed water not used for spraying from the drainage pipe without returning to the raw water container. The same effect as can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram of a liquid spraying device showing an embodiment of the present invention.

FIG. 2 is a sectional view of the electrolyzed water generator shown in FIG.

FIG. 3 is a configuration diagram of a liquid spraying device showing a conventional example.

FIG. 4 is a schematic diagram of a main part of a liquid spraying device showing another embodiment of the present invention.

[Explanation of symbols]

1 ... vaporized liquid tank, F1 ... water, 3 ... pump, 4 ... vaporizer, 5 ... first nozzle, 6 ... spray liquid tank, F2 ... spray liquid, 8 ... second nozzle, 10 ... raw water tank, F3 ... raw water ,
11 ... Electrolyzed water generator, 12 ... Raw water pipeline, 13 ... Pump,
14 ... 1st electrolysis water pipeline, 15 ... 2nd electrolysis water pipeline, 1
6 ... reformer, 17 ... drainage pipe.

Claims (3)

[Scope of utility model registration request] 1. A liquid spraying apparatus comprising a spray liquid container for containing a spray liquid and a spraying means for spraying the liquid, wherein a raw water container for containing raw water such as tap water and the raw water are electrolyzed. Electrolyzed water generating means for generating acidic water and alkaline water, a raw water pipe for guiding the raw water in the raw water container to the electrolytic water generating means, and one of the electrolytic water generated by the electrolytic water generating means for the spray liquid container 1. A liquid spraying device, comprising: one electrolyzed water conduit and a second electrolyzed water conduit for guiding the other electrolyzed water produced by the electrolyzed water producing means to a raw water container. 2. The liquid spraying device according to claim 1, wherein the second electrolyzed water pipeline is provided with a reforming unit for neutralizing the electrolyzed water flowing through the pipeline. 3. A flow path switching means for providing a drainage conduit to the second electrolytic water conduit and switching the flow of the electrolytic water guided to the second electrolytic water conduit to either the raw water container or the drainage conduit. It provided, The liquid spraying apparatus of Claim 1 or 2 characterized by the above-mentioned.