JP2011167665A - Alkaline ionized water spray apparatus - Google Patents

Abstract

By using electrolytic alkaline ionized water, there is almost no irritation to the human body, and it can be sprayed without any problem on the clothes worn, and sufficient deodorant / antibacterial effect on the object to be applied. An alkaline ionized water spray device that can be expected to be provided is provided.
Electrolytic alkaline ionized water that exhibits alkalinity in terms of hydrogen ion concentration by electrolyzing raw material water without using a chemical alkaline agent and physically increasing the amount of hydroxide ions. Is filled in a metal container whose inner wall surface is coated with a synthetic resin and filled with nitrogen gas as a propellant gas. More than 50% of the atomized droplets of electrolytic alkaline ionized water during spraying have a particle size of 55 μm or less. It is characterized by having the nozzle which becomes.
[Selection figure] None

Description

  The present invention is a spray device that can be used for deodorizing and antibacterial purposes such as clothes and shoes, or for preventing the oxidation and deterioration of edible oil, and in particular, by spraying electrolytic alkaline ionized water, The present invention relates to an alkaline ionized water spray device that can be expected to have an effect and an effect of preventing the oxidation and deterioration of edible oil.

  Currently, there are various types of deodorant spray agents for clothes, bedding, curtains, carpets, other fabric furniture and personal items. These sprays are usually supplied to the market as an aerosol type spray device filled in a metal container together with a propellant gas or as a manually pumped spray device filled in a plastic container. In general, deodorant components such as cyclodextrin, organic disinfecting components, and synthetic fragrances are blended as active ingredients used in deodorant sprays.

JP-A-8-24865

  Conventional deodorant sprays have large water droplets when sprayed, and the object gets wet and the color becomes dark, so when sprayed on clothes, it cannot be worn until dry, and it sprays while wearing There is a problem that can not be. Further, when spraying repeatedly on the same object, there is a problem that residual components of the deodorant spray accumulate and ring stains occur after drying. Furthermore, conventional deodorant sprays for fabric products are generally highly irritating and are often prohibited from being sprayed directly onto the human body or pet animals from the viewpoint of safety.

  The present invention has been made to solve the above-described problems of the prior art, and by using electrolytic alkaline ionized water, there is almost no irritation to the human body, and there is also a problem with clothes that are worn. Provided is an alkaline ionized water spray device that can be sprayed without any problem, can be expected to have a sufficient deodorant / antibacterial effect on an object to be applied, and can also be expected to prevent oxidative deterioration of edible oil. For the purpose.

  The alkaline ionized water spray device according to the present invention is filled with electrolytic alkaline ionized water in a metal container whose inner wall surface is coated with a synthetic resin, filled with nitrogen gas as a propellant gas, and electrolyzed alkaline ionized water during spraying. 50% or more of the atomized droplets are provided with a nozzle having a particle size of 55 μm or less. Incidentally, the “electrolytic alkaline ionized water” mentioned here means that the raw water is electrolyzed without using a chemical alkali agent, and the amount of hydroxide ions is physically increased to increase the hydrogen ion concentration. This means water that exhibits alkalinity.

  In the present invention, any electrolytic alkaline ionized water produced by any method can be used, but more specifically, it is produced by the method described in JP-A-8-24865, more specifically. The pH is 12 or more, the crystalline clay mineral is further dissolved in alkaline ionized water obtained by electrolyzing the raw material water in which the crystalline clay mineral is dissolved, and supplied to the predetermined electrode side for electrolysis. It is preferable to use what was produced | generated by processing. Electrolytic alkaline ionized water produced by this method is stable in terms of heat and time, and unlike electrolytic alkaline ionized water produced by other methods, the pH value remains at the initial value even when left at room temperature for one year. It is very good in that it is retained.

  The alkaline ionized water spray device of this embodiment can be suitably used as a deodorizing / sterilizing spray device for clothes, bedding, curtains, carpets, other fabric furniture, personal items, and the like. The electrolytic alkaline ionized water produced by the above method has little irritation to the human body and can be safely used even when worn while being applied to clothes. It can also be sprayed directly on the skin of the human body, such as under the armpit, around the neck, and feet. In addition, not only cloth products, but also deodorants and articles for various articles such as leather products such as shoes and bags, glass or ceramic tableware, metal cutlery, wooden cutting boards, and plastic cooking utensils. It can be used as a sterilization spray device.

  Further, by spraying an appropriate amount of electrolytic alkaline ionized water toward the oil surface of the frying oil in use, oxidation of the frying oil can be suitably prevented, and every predetermined time (for example, every 1 hour of frying operation) B) By continuously spraying, deterioration of the frying oil can be suitably prevented.

  Here, the form for implementing this invention "alkali ion water spray apparatus" is demonstrated. The alkaline ionized water spray device according to the first embodiment of the present invention is filled with electrolytic alkaline ionized water in a metal container whose inner wall surface is coated with a synthetic resin, and filled with nitrogen gas as a spray gas, and sprayed. At least 50% of the atomized droplets of electrolytic alkaline ionized water are provided with a nozzle having a particle size of 55 μm or less.

  In the present embodiment, as a nozzle capable of spraying electrolytic alkaline ionized water under the above conditions, a valve button for aerosol spray device manufactured by Maruichi Co., Ltd. (product number: 321-M90-231-1 (0.3) ) Is used. This valve button has a nozzle hole diameter of 0.3 mm, and has a double breakup in which grooves for rotating the spray liquid in a screw shape are formed at two locations in the flow path of the spray liquid (the front side of the spray port) This is a type of valve button. Atomization of electrolytic alkaline ionized water to be sprayed by adjusting the internal pressure to 0.50 to 0.70 MPa (25 ° C.) and attaching the valve button to a metal container filled with electrolytic alkaline ionized water and nitrogen gas. 50% or more of the droplets can have a particle size of 55 μm or less.

  The reason for using a metal container filled with electrolytic alkaline ionized water that is coated on the inner wall surface with synthetic resin is that when electrolytic alkaline ionized water comes into contact with the metal part of the container, rust is generated or corroded. In addition, there is a problem that the pH of electrolytic alkaline ionized water is lowered and the function is deteriorated. Such a problem can be suitably avoided by using a container whose inner wall surface is coated with a synthetic resin as in this embodiment. As a specific method of coating with a synthetic resin, for example, a coating method such as powder coating or epoxy urea coating is suitable.

  Further, in the conventional spray apparatus, in addition to nitrogen gas, liquefied propane gas (LPG), dimethyl ether (DME), carbon dioxide gas and the like are generally used as the injection gas, but in this embodiment, LPG, DME Alternatively, there is a problem in using carbon dioxide gas as the injection gas. For example, when LPG and electrolytic alkaline ionized water are filled in a spray container, they are separated in the container, and there is a problem that only LPG is ejected at the time of use. Is strong, and in the worst case, it can cause frostbite. In addition, DME may cause the synthetic resin coated on the inner wall surface of the metal container to peel off, and also has a problem of deteriorating the function of electrolytic alkaline ionized water. Further, carbon dioxide gas has a problem that it reacts with electrolytic alkaline ionized water to lower the pH. When nitrogen gas is used as the propellant gas, the above problems do not occur and can be preferably used.

  As electrolytic alkaline ionized water, water that exhibits alkalinity in terms of hydrogen ion concentration by electrolyzing raw material water without physically using a chemical alkali agent and physically increasing the amount of hydroxide ions. As long as it can be used, in the present embodiment, the alkaline ionized water obtained by electrolyzing the raw water having a pH of 12 or more and dissolving the crystalline clay mineral is used. A crystalline clay mineral is further dissolved, and a material generated by electrolysis treatment by supplying to a predetermined electrode side is used.

  Electrolyzed alkaline ionized water produced by this method is known to work effectively against causative substances of body odor such as isovaleric acid, and can be expected to have a deodorizing effect. can do. In addition, it can be expected to prevent oxidation and deterioration of various foods (especially edible oils) due to the reducing action. The electrolytic alkaline ionized water produced by this method is thermally and temporally stable, and unlike the electrolytic alkaline ionized water produced by other methods, the pH value is the initial value even when left at room temperature for one year. It is very good in that it is held in value.

  The alkaline ionized water spray device of this embodiment can be suitably used as a deodorizing / sterilizing spray device for clothes, bedding, curtains, carpets, other fabric furniture, personal items, and the like. The electrolytic alkaline ionized water produced by the above method has little irritation to the human body and can be safely used even when worn while being applied to clothes. It can also be sprayed directly onto the skin of the human body, such as the face, armpits, neck circumference, and feet. In addition, not only cloth products, but also deodorants and articles for various articles such as leather products such as shoes and bags, glass or ceramic tableware, metal cutlery, wooden cutting boards, and plastic cooking utensils. It can be used as a sterilization spray device.

  In addition, by spraying an appropriate amount of electrolytic alkaline ionized water toward the oil surface of the frying oil in use, oxidation of the frying oil can be suitably prevented, and every time the fried food operation is performed for one hour (for example, every 1 hour B) By continuously spraying, deterioration of the frying oil can be suitably prevented. Furthermore, since the electrolytic alkaline ionized water sprayed by the alkaline ionized water spray device according to the present embodiment has small particles and is uniform, the oil splash when sprayed on high-temperature frying oil is a conventional manual pump spray device. Compared to the case of spraying with 1/10, it is suppressed to 1/10 and safe.

  Hereinafter, about the effect of the alkaline ionized water spray apparatus which concerns on this invention, the result of the test which the inventors of this invention performed is demonstrated as Examples 1-6.

(Deodorization test 1: isovaleric acid / electrolytic alkaline ionized water and tap water)
It was generated by further dissolving the crystalline clay mineral in alkaline ionized water obtained by electrolyzing the raw material water in which the crystalline clay mineral was dissolved, and supplying it to the predetermined electrode side for electrolysis. With respect to electrolytic alkaline ionized water having a pH of 12 or more (electrolytic alkaline ionized water produced by the method described in JP-A-8-24865), it has a deodorizing effect on isovaleric acid (a representative component of malodor generated from the human body). A test was conducted.

  Three 25 × 40 cm bags (bags A to C) were prepared, each bag was filled with 3 L of air and 15 ppm of isovaleric acid (gas), and the bag A had the above electrolytic alkali. 5 mL of ionic water was added, and 5 mL of tap water was added to the bag body B. Bag C was only air and isovaleric acid. After enclosing, each bag was shaken 3 times, then left still, and after 5 minutes and 10 minutes, the concentration of isovaleric acid in each bag was measured for each gas detector tube. The results are shown in Table 1.

  Since isovaleric acid is soluble in water, isovaleric acid gas was absorbed in water and the concentration decreased even in bag B containing tap water, but the electrolytic alkaline ionized water was enclosed. In the bag A, the isovaleric acid gas concentration further decreased. From this test result, it was confirmed that the electrolytic alkaline ionized water has a deodorizing effect on isovaleric acid (that is, a deodorizing effect on human body odor).

(Deodorization test 2: isovaleric acid / aerosol spray device and manual pump spray device)
An aerosol spray device (the alkaline ion water spray device described as the first embodiment) (the present invention) in which a metal container is filled with the electrolytic alkaline ionized water together with nitrogen gas (a jet gas), and the electrolytic alkaline ionized water Filled manual pump type spray device (spray device that introduces air into the container by pulling a trigger to increase the pressure in the container and jets the liquid in the container from the nozzle by the increased pressure) (Comparative Example ) Was used to test the deodorizing effect on isovaleric acid.

  First, prepare two stainless steel containers (container A and container B) with a volume of 10 L, put 0.5 mL each of isovaleric acid (liquid) in each container, cover it, and let it stand. The gas was filled by volatilizing valeric acid. After 5 minutes, the gas concentration of isovaleric acid in each container was measured (first measurement), then the lids of Container A and Container B were opened, and the above-mentioned using an aerosol spray device (the present invention) in Container A Approximately 4.5 g of electrolytic alkaline ionized water is injected (injection time: 5 seconds), and 4.5 g of electrolytic alkaline ionized water is injected into the container B using a manual pump type spray device (comparative example) (number of injections) : 8 times). And the lid | cover of the container A and the container B was closed, and after leaving still for 5 minutes, the gas concentration of the isovaleric acid in each container was again measured (2nd measurement). The results are shown in Table 2.

  As described above, in the container A using the aerosol spray device, the isovaleric acid gas concentration decreased to 1/17, and in the container B using the manual pump spray device, the gas concentration decreased to 7/17. Although the same amount of electrolytic alkaline ionized water was sprayed in the same amount, the use of an aerosol spray device and the use of a manual pump spray device resulted in a 7-fold increase in deodorizing effect. . From this result, it was confirmed that when electrolytic alkaline ionized water is sprayed using an aerosol spray device, an extremely high deodorizing effect can be expected as compared with the case of using a manual pump spray device.

(Deodorizing effect test 3: mercaptan / aerosol spray device and manual pump spray device)
Using the alkali ion water spray device described in the first embodiment (the present invention) and the manual pump type spray device (comparative example) filled with the electrolytic alkaline ion water, a mercaptan known as four major malodors is used. The deodorizing effect was tested.

  First, prepare two stainless steel containers (container C, container D) with a capacity of 10 L, put 1 mL of 0.5% t-butyl mercaptan solution in each container, cover and leave it in the container. The mercaptan was volatilized and filled. After 3 minutes, the concentration of mercaptan in each container was measured (first measurement), and then the lids of containers C and D were opened, and the above electrolytic alkaline ionized water was used in container C using an aerosol spray device (the present invention). About 9 g (injection time: 10 seconds), and 9 g of the electrolytic alkaline ionized water was injected into the container D using a manual pump spray device (comparative example) (number of injections: 12 times). And the lid | cover of the container C and the container D was closed, and after leaving still for 3 minutes, the mercaptan density | concentration in each container was measured again (2nd measurement). The results are shown in Table 3.

  As described above, in the container A using the aerosol spray device, mercaptans could be removed almost completely. Moreover, also in the container B using a manual pump type spray device, the mercaptan concentration decreased significantly. From these results, it was confirmed that the electrolytic alkaline ionized water can be expected to have a sufficient deodorizing effect on mercaptans. Further, there was a difference in the deodorizing effect between the case where the aerosol spray device was used and the case where the manual pump type spray device was used even though the same amount of electrolytic alkaline ionized water was injected in the same amount. From this result, it was confirmed that when electrolytic alkaline ionized water is sprayed using an aerosol spray device, an extremely high deodorizing effect can be expected as compared with the case of using a manual pump spray device.

(Test of water adhesion during spraying 1: Shoe insole sheet / aerosol spray device and manual pump spray device)
Using the alkaline ionized water spray device (invention) described as the first embodiment and the manual pump type spray device (comparative example) filled with the electrolytic alkaline ionized water, toward the insole sheet of shoes The amount of moisture adhering (wetting condition) when sprayed was tested.

  First, two sheets (sheet E, sheet F) of an insole sheet (size: 5 × 10 cm, thickness: 1 mm) are prepared, and the electrolytic alkaline ionized water is applied to the sheet E using an aerosol spray device (the present invention). Then, 0.20 g of the electrolytic alkaline ionized water was sprayed onto the sheet F using a manual pump spray device (comparative example). Then, a cotton nonwoven fabric (water absorbent sheet) was placed on each sheet and pressed for 10 seconds, and the amount of moisture absorbed by the cotton nonwoven fabric was measured. The results were as follows.

Sheet E (present invention / aerosol): 0.08 g
Sheet F (comparative example / manual pump type): 0.19 g

  When electrolytic alkaline ionized water is sprayed using an aerosol spray device (the present invention), fine mist is uniformly dispersed, the amount of moisture adhering to the sheet E is less than half of the spray amount, and the “wetness” is felt too much. There wasn't. On the other hand, in the sheet F ejected by using the manual pump type spray device (comparative example), 95% of the ejection amount adheres, and “wetness” is clearly felt, and the size of the adhered droplets There was variation in the sheath area.

  In this way, when using an aerosol spray device, there is not much “wetness” felt on the surface of the object, so after spraying, attach the insole sheet in the shoe and immediately put on the shoe. Even if it is worn, it is not sticky, has a good feeling of use, and does not allow ringing on socks. In addition, the electrolytic alkaline ionized water particles sprayed by the aerosol spray device are very small, so that they uniformly penetrate into the insole sheet of the shoe, and the electrolytic alkaline ionized water particles are frequently used against malodorous components. It comes into contact and surrounds the malodorous component, and as a result, a high deodorizing effect can be expected.

(Test of water adhesion during spraying 2: armpit sweat pad / aerosol spray device and manual pump spray device)
Using the alkaline ionized water spray device described in the first embodiment (the present invention) and the manual pump type spray device (comparative example) filled with the electrolytic alkaline ionized water, toward the underarm sweat pad. The amount of moisture adhering (wetting condition) when sprayed was tested.

  First, two underarm sweat pads (size: 7 × 13.5 cm, thickness: 1 mm) are prepared (pad G, pad H), and the above electrolytic alkali is applied to the pad G using an aerosol spray device (the present invention). 0.42 g of ion water was injected, and 0.41 g of the electrolytic alkaline ion water was injected onto the pad H using a manual pump spray device (comparative example). Then, a cotton nonwoven fabric (water absorbent sheet) was placed on each pad and pressed for 10 seconds, and the amount of water absorbed by the cotton nonwoven fabric was measured. The results were as follows.

Pad G (present invention / aerosol): 0.15 g
Pad H (comparative example / manual pump type): 0.25 g

  When electrolytic alkaline ionized water is sprayed using an aerosol spray device (the present invention), fine mist is uniformly dispersed, the amount of moisture adhering to the pad G is about 1/3 of the spray amount, and “wetness” is not so much I couldn't feel it. On the other hand, in the pad H sprayed using the manual pump type spray device (comparative example), about 60% of the spray amount adheres, and “wetness” is clearly felt. Variations in size and site of attachment were observed.

  In this way, when using an aerosol spray device, the “wetness” is not felt so much on the surface of the object, so after spraying, the armpit sweat pad is attached to the side part of the upper garment and worn immediately Even in this case, it is not sticky, has a good feeling of use, and does not cause ring stains on shirts and underwear. In addition, since the electrolytic alkaline ionized water sprayed by the aerosol spray device is very small, it penetrates evenly into the underarm sweat pad, and the electrolytic alkaline ionized water particles are frequently used against malodorous components. It comes into contact and surrounds the malodorous component, and as a result, a high deodorizing effect can be expected.

(Measurement test of atomized particle size during spraying: aerosol spray device and manual pump spray device)
Using the alkali ion water spray device (invention) described as the first embodiment and the manual pump spray device (comparative example) filled with the electrolytic alkaline ion water, the atomized particle diameter at the time of spraying Was measured.

  Two metal plates (metal plate I, metal plate J) with a smooth surface are prepared, and an aerosol spray device is directed toward the metal plate I from a position 30 cm away from the metal plate I under conditions of room temperature of 25 ° C. According to the present invention, 4.0 g of the electrolytic alkaline ionized water is sprayed (injection time: 5 seconds), and a manual pump spray device (comparative example) is directed toward the metal plate J from a position 30 cm away from the metal plate J. ) 4.0 g of the above electrolytic alkaline ionized water (number of injections: 5 times), and the size of water droplets of the electrolytic alkaline ionized water adhering to each of the metal plates I and J is measured by a laser analysis particle size distribution measuring device (Tohnichi). It was measured using LDSA-2400 V-1.22) manufactured by Computer Applications. The results were as follows.

Metal plate I (invention / aerosol): 52.60 μm (average)
Metal plate J (comparative example / manual pump type): 84.12 μm (average)

When electrolytic alkaline ionized water is sprayed by an aerosol spray device (the present invention), the average particle size of the atomized droplets is 52.60 μm as described above, and more than 50% of the atomized droplets have a particle size of 55 μm or less. It was confirmed that Moreover, when spraying using the aerosol spray apparatus of this invention, as shown in the lower photograph (photograph which image | photographed the metal plate I to which the water droplet of the electrolysis alkaline ion water sprayed from the aerosol spray apparatus (this invention) adhered), It was confirmed that water droplets were uniformly dispersed and adhered because the spray pattern was wide and the mist diffusivity was high.

On the other hand, when electrolytic alkaline ionized water is sprayed by a manual pump type spray device (comparative example), the particle size of the atomized droplet is much larger than that according to the present invention, and the photograph below (manual pump type spray) As shown in the photograph of the metal plate J on which water droplets of electrolytic alkaline ionized water sprayed from the device (comparative example) were attached), when sprayed using a manual pump type spray device, the spray pattern was narrow and the size of the water droplets There was a variation in the attachment site.

  Considering the test results of Examples 1 to 6 in total, when electrolytic alkaline ionized water is sprayed using an aerosol spray device (the present invention), 50% or more of the atomized droplets are made to have a particle size of 55 μm or less. In addition, when electrolytic alkaline ionized water is sprayed using an aerosol spray device (the present invention), when 50% or more of the atomized droplets have a particle size of 55 μm or less, a manual pump type Compared with spraying alkaline ionized water using a spray device (comparative example), it can be expected to have a very high deodorant and antibacterial effect, and it can be sprayed without causing a “wetness” on the surface of the object. It has been confirmed that it has excellent effects that cannot be expected with a manual pump sprayer.

Claims (2)

In a metal container whose inner wall surface is coated with a synthetic resin, electrolytic alkaline ionized water is filled, and nitrogen gas is filled as a propellant gas.
An alkaline ionized water spray device comprising a nozzle in which 50% or more of atomized droplets of electrolytic alkaline ionized water during spraying have a particle size of 55 μm or less.   The electrolytic alkaline ionized water has a pH of 12 or more, and further dissolves the crystalline clay mineral in the alkaline ionized water obtained by electrolyzing the raw material water in which the crystalline clay mineral is dissolved. The alkaline ionized water spray device according to claim 1, wherein the alkaline ionized water spray device is generated by being supplied to and electrolyzed.