JP2787465B2 - Hand and arm disinfection equipment using ozone water - Google Patents

Description

The present invention relates to the field of industrial use before surgeons perform surgery and before other physicians treat patients, as well as employees working with food in restaurants, etc. The present invention relates to a hand and arm disinfection apparatus that uses ozone water for use in disinfecting the hands and arms of those persons before performing necessary work.

2. Description of the Related Art Conventionally, such a hand / arm disinfection device generally disinfects a basin or the like with soap and a disinfectant solution, but it is particularly necessary to completely disinfect the surgeon before performing the operation. Physicians who take a long time and diagnose a large number of patients in a short period of time are practically almost impossible to completely disinfect their hands and hands each time they change, which is a serious hygiene problem. And the patient's anxiety is particularly significant.

This is exactly the same for employees at restaurants and the like.

SUMMARY OF THE INVENTION The object of the present invention is to solve the above-mentioned problems in disinfecting hands and arms using soap or a disinfectant solution by pouring water into the conventional basin. In particular, it does not leak microscopic bacteria and the like, and also attempts to disinfect them effectively.

Another object is to obtain a device which makes the disinfection simple and fast.

Yet another object is to be able to treat the next patient immediately after disinfection.

Yet another object is to be able to disinfect and sanitize in an emergency emergency clinic where transportation is inconvenient, or in any remote area with ozone water available with access to electricity and water.

Means for Solving the Problems The present invention relates to an ozone water discharge pipe of an ozone water production apparatus of a type in which ozone gas generated by a discharge between a pair of electrodes is absorbed by water, a water pipe connected to a water source, and a soap containing a soap liquid. The liquid container is connected to the ozone water supply pipe of the disinfecting container of the hand through a three-way switching cock, a water ozone killer is connected to the disinfecting container, and an ozone gas hood, a fan and a gas ozone killer communicating therewith,
A hand-held disinfection device provided with a jet nozzle for dry air and further provided with an ultrasonic generator around the disinfection container, wherein the ozone water producing device is a linear electrode provided on the outer surface of a cylindrical dielectric. A high-frequency high-voltage power supply is connected between a pair of electrodes consisting of a planar electrode provided on the inner surface of the linear electrode, and an outer cylinder is provided on the linear electrode side via a space, and an oxygen source is connected to the space. And a channel is formed on the side of the planar electrode,
The low-pressure part of the injector connected to the inlet of the water channel is connected to the space by a communication pipe, and the outlet of the water channel is connected to an ozone water discharge pipe and, if necessary, a defoaming water tank.

When the doctor or the like disinfects and disinfects the hands and arms using the disinfecting apparatus of the present invention, perform normal washing using soap and water in the disinfecting container in advance, and then in the disinfecting container. A predetermined amount of the ozone water obtained by the above-mentioned ozone water production apparatus is put therein, and a hand to be disinfected is immersed in the ozone water of the disinfection container to disinfect the disinfected container, and disinfected by the strong oxidizing power of the ozone water. Then, the ozone gas generated from the ozone water is surrounded by an ozone gas hood and sent to the ozone killer by the suction force of the fan, where it is decomposed into oxygen gas and released into the air. When the above-mentioned ozone water is obtained, a high-frequency high voltage is applied between the pair of electrodes to generate a silent discharge in an area therebetween, particularly in a space between the linear electrode and the outer cylinder, and oxygen supplied to these spaces is provided. The gas or air is converted to ozone gas, and then the ozone gas is mixed with water by an injector, the ozone gas is absorbed into the water, and if necessary, defoamed in a water tank to form ozone water.

Alternatively, the ozone gas is jetted as fine bubbles into the water of the disinfecting container via a porous foaming device, and ozone water is generated here.

When the tap water, the soap solution or the ozone water is supplied to the container alternatively or in combination, the three-way switching cocks communicating with the ozone water discharge pipe, the water pipe and the soap liquid container are switched to each other. It supplies the liquid.

After disinfecting the hands and arms using each liquid in this way,
The ozone water in the disinfecting container is passed through a water ozone killer, where dissolved ozone is removed to make the water safe for equipment and then disposed of outside.

An embodiment of the present invention will be described with reference to the accompanying drawings. As shown in FIGS. 2 and 3, for example, an ozone water producing apparatus constituting a part of the disinfecting apparatus is provided on the outer surface of a cylindrical dielectric 1. Between a pair of electrodes composed of a plurality of linear electrodes 2 and a cylindrical planar electrode 3 provided on the inner surface thereof,
A high-frequency high-voltage power source 4 is connected to generate a creeping discharge 5 near the linear electrode 2 on the outer surface of the dielectric 1,
An outer cylinder 7 is provided outside the space 6 with a space 6 therebetween, and an oxygen source 8 is connected to one end 6a of the space 6 by a gas pipe 9 as shown in FIG. A water channel 10 is formed inside the planar electrode 3, an injector 11 and a water pipe 12 are sequentially connected to the inlet of the water channel 10, and tap water is fed into the injector 11 and the water channel 10, and the injector The low pressure portion 10a of the water flowing in the inside 11 is connected to the other end 6b of the space 6 by a communication pipe 15, and the ozone gas in the space 6 is sucked by the negative pressure of the flowing water in the low pressure portion 11a. The ozone gas is absorbed in the water in the water channel 10 to be dispersed therein as countless fine bubbles therein, and is converted into ozone water. The ozone water is sent to an ozone water discharge pipe 14 connected to the outlet 13 of the water channel 10. Further, an ozone gas hood 23 is provided above a disinfecting container 21 which is separately configured, the ozone water supply pipe 21 is connected to the disinfectant container 21, and the three-way switching cock 18 and the defoaming water are connected to the ozone water supply pipe 21. The ozone water discharge pipe 14 is connected to the ozone water discharge pipe 14 through a tank 31.
Is defoamed in the defoaming water tank 31 with the gas ozone killer 31a, and the remaining ozone water is supplied to the disinfection container 21 through the three-way switching cock 18 into the disinfecting container 21. A water pipe 16 is connected to the three-way switching cock 18 via a valve 16c, and a soap container 17 is connected via another valve 17c.
By operating these valves 16c, 17c and the three-way switching cock 18, ozone water, tap water and soap solution 17a are supplied to the disinfecting container 21 alternatively or in combination, and the hand 22 Is disinfected while being immersed as shown.

At that time, the ozone gas generated from the ozone water in the disinfecting container 21 is surrounded by an ozone gas hood 23 provided thereabove, and the ozone gas is converted into activated carbon by a fan 24 or a gas ozone killer 25 which absorbs and decomposes ozone in ozone gas such as an ozone decomposition catalyst. It is sent and decomposed into oxygen to form ozone gas at a concentration safe for the human body and released into the outside air.

After the disinfection of the hand / arm 22 is completed in this way, the hand / arm 22 is pulled out of the ozone water, and is exposed to dry air ejected from the ejection nozzle 27 to dry water droplets attached to the hand / arm 22.
Immediately after the operation is completed, various operations such as surgery are performed.

At this time, the dried air 26 is obtained by sending air purified by the high-performance air filter 29a by the air fan 30 into the air heater 29b, where it is heated and dried.

Further, when disinfecting the hand 22, an appropriate number of ultrasonic generators 28 a disposed on the outer surface of the disinfecting container 21 are operated by a vibration power supply 32 electrically connected thereto, and the disinfecting container is disinfected. It is possible to disinfect the ozone water in 21 while applying ultrasonic vibration.

Alternatively, an ultraviolet lamp 28b is provided on the liquid surface (or in the liquid surface) of the disinfecting container 21 to irradiate ozone water with ultraviolet light to O ₃ → O ₂
It is possible to promote the decomposition of + O and further accelerate the generation of O under the bactericidal action.

With these methods, the above-mentioned disinfecting action can be made more efficient.

Further, the disinfected ozone water passes from the bottom of the disinfection container 21 to a water ozone killer 22, which absorbs and decomposes ozone such as activated carbon via a discharge pipe 33, where the ozone is decomposed and released as safe water to the outside. Things.

Although the present invention has been described with reference to the embodiment shown in FIGS. 1 to 3, the present invention is not limited to the embodiment, and may be practiced by changing or adding the structure within the scope of the invention. Is also possible.

For example, in the embodiment shown in FIGS. 4 to 6, a plurality of ozone water branch pipes 37 in which a large number of ozone water jet nozzles 38 are bored in a disinfecting box 36 in which the insertion holes 35 of the hand 22 are formed are inserted. The ozone water sent from the ozone water branch pipe 37 is sprayed from each ozone water ejection nozzle 38 toward the periphery of the hand / arm 22 with the ejection nozzle 38 oriented toward the periphery of the hand / arm 22.
It is jetted in a 39 shape to disinfect the hand 22 and further provided with a plurality of dry air branch pipes 42 adjacent to the respective ozone water branch pipes 37, and the air nozzles 41 of the dry air 40 are provided in the respective branch pipes 42. A large number of holes are drilled, and the direction of each of the air nozzles 41 is arranged toward the periphery of the hand / arm 22 in the same manner as described above.
40 is blown out to dry the hand 22 which is wet with ozone water.

In the figure, reference numeral 43 denotes an ozone water supply pipe, the lower end of which is connected to the above-described ozone water branch pipe 37, and the upper end of which is connected to a three-way cock 48 corresponding to the three-way switching cock 18 of FIG. The ozone water, the tap water, and the soap solution 7a obtained by the ozone water producing apparatus shown in FIG. 1 are selectively or combinedly sent by switching the three-way cock 48. Another 45
Is a dry air supply pipe, the lower end of which is in communication with a plurality of dry air branch pipes 42, the upper end of which is in communication with an air heater 46, and the generated dry air is passed through a dry air supply pipe 45 to be dried. It is sent to the air branch pipe.

Effect Since the present invention is as described above, it is possible to perform a complete disinfection in a short time as compared with a case where water is poured into a conventional basin and the hands and arms are disinfected with soap or a disinfecting solution, and a large number of patients can be treated. Can be adequately treated even when treating in a short time, which is extremely favorable in terms of hygiene.

In addition, since it is possible to dry with clean dry air immediately after disinfection is completed, it is possible to prevent the bacteria on the towels from being attached to the hands and arms compared to when wiping with a towel etc. after disinfection, further improving sanitation. Is complete.

Further, the size of the ozone water generating device can be reduced to reduce the size of the entire disinfecting device of the present invention, and the ozone can be decomposed when disinfecting the ozonized water so as not to adversely affect the human body. .

Furthermore, since the present invention can disinfect hands and arms with only a power source and water, various operations such as sanitary medical treatment can be performed in inconvenient traffic or in any remote place.

[Brief description of the drawings]

1 is a partially cutaway front view of an embodiment of the present invention, FIG. 2 is an enlarged sectional view of a part of FIG. 1, and FIG. 3 is III-III in FIG.
4 to 6 are partially cut front views of another embodiment of the present invention. DESCRIPTION OF SYMBOLS 1 ... Cylindrical dielectric material 2 ... Linear electrode 3 ... Surface electrode 4 ... Power supply 5 ... Creepage discharge 6 ... Space 7 ... Outer cylinder 8 ... Oxygen source 10 ... Water channel 11a ... Low pressure Part 11 Injector 12 Water pipe 13 Outlet 14 Outlet pipe 15 Communication pipe 16 Water pipe 16c Valve 17 Soap liquid container 17c Valve 17a Soap liquid 18 ... three-way switching cock 20 ... hand 21 ... ozone water supply pipe 22 ... water ozone killer 23 ... ozone gas hood 25 ... gas ozone killer 26 ... dry air 28a ... ultrasonic generator 28b ... ultraviolet lamp 29 ... air Heater 31 Defoaming water tank 35 Insert hole 36 Disinfection box 37 Ozone water branch pipe 38 Ozone water jet nozzle 29a High performance air filter 29b Air heater 40 Drying Air 41 ... Air nozzle 42 ... Dry air branch pipe 43 ... Ozone water supply pipe 45 ... Dry air supply pipe 46 ... Air Heat 48 ...... three-way stopcock

Claims (6)

(57) [Claims] An ozone water discharge pipe of an ozone water producing apparatus of a type in which ozone gas generated by a discharge between a pair of electrodes is absorbed by water is connected to an ozone water supply pipe of a hand-disinfection container. A hand / hand disinfection device using ozone water, wherein a water ozone killer is connected, and an ozone gas hood, a fan and gas ozone killer communicating therewith, and a jet nozzle for dry air are provided above the disinfection container. 2. A high-frequency high-voltage power supply is connected between a pair of electrodes consisting of a linear electrode provided on the outer surface of a cylindrical dielectric and a planar electrode provided on the inner surface of the apparatus for producing ozone water. At the same time, an outer cylinder is provided on the linear electrode side via a space, an oxygen source is connected to the space, a water channel is formed on the planar electrode side, and a low-pressure part of the injector connected to the inlet of the water channel and 2. The hand / arm disinfection apparatus using ozone water according to claim 1, wherein the space is connected by a communication pipe, and an ozone water discharge pipe is connected to an outlet of the water channel. 3. A high-frequency high-voltage power supply is connected between an ozone water producing apparatus and a pair of electrodes consisting of a linear electrode provided on an outer surface of a cylindrical dielectric and a planar electrode provided on an inner surface thereof. At the same time, an outer cylinder is provided outside the linear electrode via a space, an oxygen source is connected to the space, a water channel is formed on the planar electrode side, and a low-pressure portion of an injector connected to the inlet of the water channel. The space is connected by a communication pipe, an ozone water discharge pipe is connected to an outlet of the water channel, and a tip of the ozone water discharge pipe is inserted into a defoaming water tank. 1. Hand and arm disinfection device using ozone water according to 1. 4. An apparatus for disinfecting a hand and arm using ozone water according to claim 1, wherein an ultrasonic vibration device is provided on a peripheral wall of the disinfecting container. 5. The apparatus for disinfecting a hand and arm using ozone water according to claim 1, wherein an ultraviolet lamp is provided inside the disinfecting container. 6. An ozone water discharge pipe of an ozone water producing apparatus of a type in which ozone gas generated by a discharge between a pair of electrodes is absorbed by water, a water pipe connected to a water source, and a soap liquid container containing a soap liquid are switched three-way. A hand / arm disinfection device using ozone water, wherein an ozone water ejection nozzle in a disinfection box forming an insertion hole of the hand / arm is connected via a cock and a nozzle for ejecting dry air is provided in the disinfection box.