JPH0938181A - Ozone cleaning equipment - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To make sure that sterilization and deodorizing treatment can be reliably performed in a state in which equipment costs are low, excellent adaptability is maintained, and variation is suppressed to a minimum. SOLUTION: A suction blower 4 for supplying air into the vinyl bag B or sucking out air in the vinyl bag B, and one introducing ozone-containing air A2 from the ozone generator 2 into the vinyl bag B, and the other A first gas pipe Lx1 and a second gas pipe Lx2 for sucking the air in the vinyl bag B
And a plurality of solenoid valves 801 to 810 that alternately switch the roles of introducing and sucking the pipes Lx1 and Lx2.
Is provided, and by operating each of the solenoid valves 801 to 810 according to a predetermined schedule to perform the switching, the circulation direction of the ozone-containing air A2 in the vinyl bag B is determined every predetermined time. I am trying to reverse it.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a hospital, a geriatric facility,
Ozone cleaning equipment that supplies ozone to textile products such as clothing, pillows, footwear, sheets, and plastic products such as tableware used in accommodation facilities to sterilize and deodorize It is about.

[0002]

2. Description of the Related Art Ozone "O ₃ " has an excellent bactericidal action that destroys cell membranes due to its strong oxidizing power.
It has been used for various sterilization since ancient times. Ozone can be easily generated by an ozonizer using electric discharge, and a sterilizer (ozone sterilizer) incorporating this ozonizer is currently known. Further, since ozone also has a function of decomposing malodorous components to make them odorless, it is general that the ozone sterilizer also serves as a deodorizer.

By the way, since ozone has a higher sterilizing power in air of high humidity than in dry air, an ozone sterilizer is used in addition to an ozonizer for generating ozone, and also water vapor or fog droplets in ozone-containing air. It is generally equipped with a humidifying device for adding, for example, JP-A-4-33658, JP-A-4-48946, and JP-A-5-3116.
No. 2, JP-A-6-7419, JP-A-6-74.
No. 20).

When carrying out ozone sterilization, an object to be sterilized, such as clothing, is loaded in advance in the sterilization chamber, and then ozone generated by the ozonizer and water vapor from the humidifier are entrained in the air to be sterilized in the chamber. In order to sterilize the object to be sterilized, the indoor environment is made wet.

[0005]

By the way, in the conventional ozone sterilization method described above, the structure of the sterilization apparatus as a whole is increased because the sterilization chamber for loading the object to be sterilized is provided with the ozonizer. There is a problem of doing. In addition, the sterilization target must be brought to the sterilization room, and the sterilization process cannot be easily performed in a hospital room or other site where the sterilization target is generated, resulting in poor workability.

As a means for eliminating such inconvenience,
Japanese Patent Application Laid-Open No. 6-63109 proposes an ozone sterilizer using a bag instead of the sterilization chamber. In this apparatus, a bag having an ozone supply port and an exhaust hole provided so as to face the supply port is used. Then, the bag is preliminarily loaded with an object to be sterilized, and ozone generated by an ozonizer is supplied to the bag together with air. Then, the air flow containing ozone supplied into the bag is
The inside of the bag is cut longitudinally and led out to the outside through a hole formed at the tip of the bag.

However, in the conventional ozone sterilizer, since the air flow introduced into the bag or the sterilization chamber moves in only one direction inside and is discharged to the outside, sterilization on the supply port side is performed. Sufficient sterilization treatment is applied to the target object, but sufficient sterilization treatment cannot be applied to the sterilization target object on the exhaust side and the sterilization target object that is located outside the airflow passage. There is a problem that the bactericidal effect varies depending on the position.

The present invention has been made in order to solve the above-mentioned problems, and provides a cleaning processing apparatus using ozone capable of uniformizing the cleaning processing for an object to be cleaned in a container. It is intended to be provided.

[0009]

According to a first aspect of the present invention, there is provided an ozone cleaning processing apparatus having an ozone generator for generating ozone and a humidifier for generating wet air. A device for cleaning with ozone, which performs one or both of a sterilization process and a deodorizing process on a cleaning object loaded in the container by introducing air and Two systems of distribution pipelines facing the opening are provided, ozone and moist air are introduced into the container through one of the distribution pipelines, and air in the container is exhausted through the other distribution pipeline. It is characterized in that it is configured such that the introduction and the exhaust are alternately switched for each of the distribution pipes.

According to this apparatus for cleaning with ozone, the object to be sterilized is loaded into the sterilization container by introducing the object to be sterilized into the sterilization container from one of the flow pipes. Exposed to ozone in a wet state,
The sterilization process and the deodorization process are performed, and the air in the sterilization container is exhausted from the other distribution line. Then, since the introduction and the exhaust are alternately switched for each distribution pipe, the direction of ozone flow in the sterilization container is reversed by this switching, whereby the concentration distribution of ozone in the sterilization container is made uniform, and sterilization is performed. A uniform cleaning process is performed on the object.

A cleaning treatment apparatus using ozone according to a second aspect of the present invention has an ozone generator for generating ozone and a humidifier for generating wet air, and seals the ozone and the wet air in a container. A cleaning processing apparatus using ozone that introduces from an inlet to perform one or both of sterilization processing and deodorization processing on an object to be cleaned loaded in a container, and has openings at both ends. An exhaust passage, one opening accommodated in the container, and an intake passage communicating with the ozone generator and the humidifier.
A distribution pipeline of the system, an exhaust valve provided in the exhaust passage for each of these distribution pipelines to open and close the exhaust passage, and the above-mentioned exhaust pipe for each of these distribution pipelines. A suction valve that is provided in the intake passage and opens and closes the intake passage, and an intake means that opens the intake passage to guide ozone from the ozone generator and wet air from the humidifier to the one opening. Exhaust means for opening the exhaust passage to exhaust the fluid in the container from one opening to the other opening, operation of the intake means for one flow conduit, and operation of the exhaust means for the other flow conduit And a switching means for alternately switching between suction operation and exhaust operation for both of the flow conduits.

According to this ozone cleaning apparatus, the sterilization container is loaded with an object to be sterilized, and then the ozone generator, the humidifier, and the intake means are operated to remove ozone generated in the ozone generator. , The humid air generated in the humidifier passes through one of the distribution pipes and is introduced into the sterilization container through one opening, while the air in the sterilization container is driven by the driving of the exhaust means. Through the road,
Since it is discharged through the other opening, the sterilization target loaded in the sterilization container is exposed to ozone in a wet state and sterilized or deodorized.

Then, the switching means operates under the control of the operation control means that causes the operation of the intake means for one of the flow passages and the operation of the exhaust means for the other flow passage to be performed in correspondence with each other. Since the suction operation and the exhaust operation for the pipe line are alternately switched, the opening that has been used to introduce the ozone-containing air until now is
Since the opening is switched to the one for sucking the air in the container, and ozone is supplied from the opening for sucking the air in the container until now, the flow direction of ozone in the sterilization container is reversed. As a result, the state of ozone concentration distribution in the container changes, the diffusion state of ozone in the container becomes uniform, and the difference in sterilizing effect and deodorizing effect depending on the position in the container is reduced.

According to a third aspect of the present invention, there is provided an ozone cleaning apparatus according to the second aspect of the present invention, wherein the intake means and the exhaust means are formed by one blower. The means is characterized in that the operation of the intake means with respect to one of the flow channels and the operation of the exhaust means with respect to the other flow channel are performed in time series.

According to this ozone cleaning apparatus, since ozone and moist air are not introduced into the sterilization container by the intake means while the air in the sterilization container is being sucked by the exhaust means, the inside of the sterilization container is prevented. Is decompressed,
As a result, the inside of the object to be sterilized is also reduced in pressure. Therefore, when ozone and moist air are introduced by the next intake means, ozone penetrates into the inside of the sterilization target object, so that not only the surface but also the inside of the sterilization target object is sterilized and deodorized.

[0016] According to a fourth aspect of the present invention, there is provided an ozone cleaning processing apparatus according to the second or third aspect of the present invention, in which one ozone generator and one humidifier are provided. A switching valve is provided between the ozone generator and the humidifier and the intake passages of both the flow passages, and when one of the intake passages is opened, the other intake passage is closed.

According to this ozone cleaning apparatus, since the other intake passage is closed when one intake passage is opened, the ozone and the humid air from the ozone generator and the humidifier are in one side. Ozone and moist air are supplied only to the other flow passage when the other intake passage is opened by the operation of the switching valve.

An apparatus for cleaning treatment with ozone according to a fifth aspect of the present invention has an ozone generator for generating ozone and a humidifier for generating wet air, and the ozone and the wet air are contained in a container. Ozone for introducing one or both of a sterilization treatment and a deodorization treatment on an object to be cleaned, which is loaded into the container by being introduced through an opening including a first opening and a second opening, respectively. Of the blower for sucking the outside air from the outside air inlet and the ozone generator, which are sequentially provided toward the downstream side, and the blower and the ozone generator. A second distribution pipe branching from the space and communicating with the exhaust outlet, and a third distribution pipe branching from the second distribution pipe and having the downstream end connected to the humidifier. Downstream of the ozone generator In the first communicating with the first opening
A gas conduit and a second gas conduit communicating with the second opening are provided in a branched manner, and the humidifier communicates with the first wetting conduit communicating with the first opening and the second opening. And a second wetting pipeline, which communicates with the first gas pipeline and the second gas pipeline and is connected to an upstream side of the blower. ), (B), (c) and (d) are sequentially repeated, and a switching means for switching the flow state of the pipeline is provided.

(A) A state in which the first opening, the first gas pipeline, the exhaust pipeline, the first distribution pipeline, the second distribution pipeline and the exhaust outlet are communicated with each other and the other pipelines are closed.

(B) The outside air intake, the first distribution line, the first gas line and the first opening are communicated with each other, and the first distribution line, the second distribution line, the third distribution line, A state in which the first wetting pipeline and the first opening are communicated with each other and the other pipelines are closed.

(C) A state in which the second opening, the second gas pipeline, the exhaust pipeline, the first distribution pipeline, the second distribution pipeline and the exhaust port are communicated with each other and the other pipelines are closed.

(D) The outside air intake port, the first flow conduit, the second gas conduit and the second opening communicate with each other, and the first flow conduit, the second flow conduit, the third flow conduit, and the 2 A state in which the wet line and the second opening are communicated with each other and the other lines are closed.

According to this apparatus for cleaning with ozone, the air in the sterilization container is driven by the blower to drive the air in the sterilization container to the first opening portion and the first gas pipeline when the pipe line of (a) is in a circulating state. Then, the gas is exhausted to the outside through the exhaust pipe line, the first flow pipe line, the second flow pipe line and the exhaust gas outlet, whereby the inside of the sterilization container is in a reduced pressure state.

Then, by the operation of the switching means, the above (b)
When the pipe is in the circulation state, a part of the outside air sucked from the outside air intake by the drive of the blower is ozonized by the ozone generator provided in the first circulation pipe, While being introduced into the sterilization container through the opening, the outside air branched in the first distribution conduit is introduced into the humidifier through the second distribution conduit and the third distribution conduit, where humid air is introduced. Is introduced into the sterilization container via the first wetting line and the first opening.

Since the ozone and the moist air are introduced into the sterilization container in the depressurized state in the above (a), they penetrate into the inside of the sterilization target, whereby the sterilization target is sterilized. Is sterilized and deodorized not only on the surface but also inside.

Then, by the operation of the switching means, the above (c)
In the case of the above (a), the second opening, the second gas pipeline, the exhaust pipeline, the first distribution pipeline, the second distribution pipeline and the exhaust port are communicated with each other when the pipeline is in a circulating state. On the contrary, the air in the sterilization container is discharged through the second opening, and then
When the state of (d) is brought about by the operation of the switching means, the outside air intake port, the first circulation pipe line, the second gas pipe line and the second opening portion are communicated with each other, and the first circulation pipe line and the second circulation pipe line are connected. ,
Since the third distribution line, the second wetting line and the second opening are communicated with each other, ozone and moist air are introduced into the sterilization container from the second opening.

By changing the opening through which ozone is introduced, the concentration distribution of ozone in the sterilization container changes, the ozone diffusion state in the container becomes uniform, and the sterilization effect depending on the position in the container and The difference in deodorizing effect is reduced. Since such switching is repeated, the sterilization target in the sterilization container does not depend on the transfer value of the sterilization container, and the sterilization process and the deodorization process are performed without variation.

According to a sixth aspect of the present invention, there is provided an ozone cleaning apparatus according to any one of the second to fifth aspects, wherein the openings are separated from each other in the sterilization container. It is characterized by doing.

According to a seventh aspect of the present invention, there is provided an ozone cleaning apparatus according to any of the second to fifth aspects, wherein the opening is inserted into the sterilization container. In this state, the lengths of the tubes in the sterilization container are different from each other.

According to the apparatus for cleaning with ozone according to the sixth and seventh aspects, the ozone introduced into the sterilization container from the opening of the flow passage through which ozone is blown sucks the internal air. Since it moves so as to traverse the inside of the container until it reaches the opening of the distribution pipeline, it diffuses into the container along this path and contributes to uniform ozone concentration in the container. .

An ozone cleaning apparatus according to claim 8 of the present invention is the ozone cleaning apparatus according to claim 7, wherein the sterilization container has the openings at positions spaced from each other inside. It is characterized by having a locking tool for stopping.

According to this ozone sterilizer, the pair of openings are arranged in the sterilization container in a state of being separated from each other by locking the openings with the locking tool.

According to a ninth aspect of the present invention, there is provided an ozone purification processing apparatus according to any one of the second to eighth aspects, wherein the ozone removing means for removing ozone is provided in the exhaust passage. It is characterized by being provided.

According to this cleaning apparatus using ozone, ozone is removed from the ozone-containing air that has been sterilized and deodorized by the ozone removing means, and clean air is discharged from the sterilizer.

The ozone cleaning apparatus according to claim 10 of the present invention is the ozone cleaning apparatus according to any one of claims 2 to 9, wherein the sterilization container is a bag made of a deformable material. It is characterized by being.

According to this ozone cleaning apparatus, since the sterilization container is a deformable bag, it can be easily stored and transported by folding, and the sterilization container can be brought to the sterilization site for sterilization and deodorization. It becomes possible to perform processing.

The ozone purifying apparatus according to claim 11 of the present invention is the ozone purifying apparatus according to claim 10, wherein the pipe in the sterilization container is in a state in which the opening is inserted into the bag. And a binding tool for keeping the lengths of the bags different from each other, and the binding tool is inserted into the bag, and the opening part of the bag is brought into close contact with the outer peripheral surface of the locking tool through the bag. A bag sealing jig to be attached to the binding tool is provided.

According to this ozone cleaning apparatus, the opening is closed by attaching the opening closing jig to the opening of the sterilization container in a state where the flow conduit is inserted into the sterilization container. The inside is in a hermetically sealed state, whereby leakage of ozone introduced into the container is prevented, and reliable sterilization and deodorization can be performed.

[0039]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a perspective view showing an example of a cleaning processing apparatus using ozone according to the present invention. The cleaning apparatus 1 sterilizes the inside of the vinyl bag B by introducing ozone-containing air and fog droplets into a vinyl bag (sterilization container) B in which a sterilization target D such as slippers and clothes is preloaded. This is for subjecting the object D to sterilization and deodorization.

The cleaning processing apparatus 1 according to the present invention has a casing 11, in which an ozone generator (ozone generator) 2 for generating ozone from air,
An ultrasonic humidifier 3 for converting water into fog droplets, a suction blower (intake means, exhaust means) 4 for supplying air to the ozone generator 2 and the ultrasonic humidifier 3, and an ozone removing means for removing ozone in exhaust gas. 5, the ozone-containing air that is communicated with the opening for piping formed in the front part of the casing 11 (on the left side of FIG. 1) and is supplied to the vinyl bag B and is sucked from the vinyl bag B. A pair of gas pipes (circulation pipe lines) Lx serving as a passage for ozone-containing air and a fog droplet pipe Ly for ejecting fog droplets generated by the ultrasonic humidifier 3 are led to the outside.

The casing 11 is formed of a box of a size that can be carried, and an outside air intake window 12 with a filter made of a woven product is formed on one side portion of the casing 11 at the front upper portion. An exhaust window 13 similar to the outside air intake window 12 is provided on the inclined surface. A suction blower 4 is arranged in the casing 11 close to the outside air intake window 12, an ozone generator 2 is arranged below the suction blower 4, and an ozone removing means 5 is arranged behind the ozone generator 2. The exhaust gas from which ozone has been removed by the ozone removing means 5 is discharged to the outside from the exhaust window 13 through a predetermined pipeline. Further, in front of the ozone removing means 5, an ultrasonic humidifier 3 including a first ultrasonic humidifier 31, a second ultrasonic humidifier 32 and a water supply cartridge 33 is arranged.

Further, inside the casing 11, there are provided a plurality of ventilation passages, which will be described in detail later, and a plurality of solenoid valves (switching means) interposed at appropriate places in the respective ventilation passages. A hydraulic unit (operation control means) U for supplying pilot oil is provided, and an electromagnetic valve is configured to open and close in response to supply and stop of supply of pilot oil from the hydraulic unit U.

The gas pipe Lx comprises a first gas pipe (first gas pipe line) Lx1 and a second gas pipe (second gas pipe line) Lx2, which are connected to the ozone generator 2. And the solenoid valves 803, 804, 805, 806 arranged in parallel at the front opening of the casing 11.
Is connected to the third pipe L3 and the fourth pipe L4. Further, the fog droplet pipe Ly is composed of a first fog droplet pipe Ly1 and a second fog droplet pipe Ly2,
It is drawn out from the ultrasonic humidifier 3 through the front opening of the casing 11.

These pipes Lx and Ly are bundled in place by a cylindrical binding member 6, and on the downstream side of this binding member 6, the first gas pipe Lx1 and the first fog droplet pipe Ly1 are paired. And the second gas pipe L
x2 and the second mist drop pipe Ly2 are paired to form a pair of pair pipes Lz (first pair pipe Lz1 and second pair pipe Lz2) on the downstream side of the binding member 6.

A first opening 71 and a second opening 7 formed at the tip of each of the pair of pair pipes Lz1 and Lz2.
A filter member 7 made of a mesh material or a porous material is attached to 2 so that each pair pipe Lz is
The gas flowing in and out of is filtered. Then, both filter members 7 are inserted into the vinyl bag B, and the binding member 6 is positioned near the opening in the vinyl bag B. The inside of the vinyl bag B is sealed against the outside air by tying together with an appropriate locking member K.

In this embodiment, the first pair pipe L
z1 is dimensioned longer than the second paired pipe Lz2, and with the paired pipe Lz inserted in the vinyl bag B, the first opening 71 and the second opening 72 are positioned so as to be spaced from each other. I am trying to get it. An unillustrated locking tool is provided at an appropriate position in the vinyl bag B, and the first opening 71 and the second opening 72 are positioned by locking each filter member 7 with this locking tool. May be. As the locking tool, for example, a velcro tape or the like can be used.

A power switch 14, a start switch 15 and an operating condition setting section 16 are provided on one side of the upper surface of the casing 11. The setting unit 16 includes a cycle setting unit 16a, a drive time setting unit 16b, and a fog drop generation time setting unit 16c. The cycle setting unit 16a is for setting the number of cycles of the sterilization process described below, and the drive time setting unit 16b is for the exhaust process, the filling process, and the holding process in each cycle described below.
And for setting the processing time of the discharging process, and the fog drop generation time setting unit 16c is provided in the ultrasonic humidifier 3
It is for setting the driving time of.

On the other side of the upper surface of the casing 11,
A mounting port 18 having an opening / closing lid 18a for supplying water to the ultrasonic humidifier 3 is provided, a lead wire 17 for a power source having a power plug 17a at the tip is provided on the rear surface portion, and the upper surface thereof is further provided. A U-shaped handle 19 extending in the longitudinal direction is provided in the central portion.

Further, inside the casing 11, a control section (operation control means) C for controlling the operation of the cleaning processing apparatus 1 is provided. The control unit C generates a control signal according to the operating condition for sterilization input from the operating condition setting unit 16 and outputs the control signal to the hydraulic unit U to control the opening / closing of the solenoid valve. Pair pipe L
One opening of z (first opening 71 and second opening 72
Ozone-containing air is ejected from any one of the above) and the air in the vinyl bag B is sucked through the other opening.

A timer is built in the control unit C, and the cycle setting unit 16a and the drive time setting unit 16 are included.
A timer is activated in response to the input from b, and a predetermined control signal is output after the set time has elapsed.

FIG. 2 is a piping system diagram showing an example of piping of the sterilization apparatus. As shown in this figure, the first pipe L1 is provided between the outside air intake window 12 and the upstream side of the suction blower 4.
And a second pipe (first distribution line) L2 is connected to the downstream side of the suction blower 4. This second pipe L
An ozone generator 2 is provided at 2. Also, the first
A first solenoid valve 801 is provided in the pipe L1, and a second solenoid valve 80 is provided in the second pipe L2 on the upstream side of the ozone generator 2.
2 is installed.

The ozone generator 2 supplies ozone between a pair of electrodes connected to a high-voltage AC power supply to silently discharge a part of oxygen in the air into ozone to generate ozone-containing air. It has an ozonizer 21. In the present embodiment, seven parallel passages are formed in the middle of the second pipe L2, and seven ozonizers 21 are arranged in parallel so that each parallel passage faces a pair of electrodes. The ozone-containing air is led to the second pipe L2 on the downstream side of the ozone generator 2.

The downstream end of the second pipe L2 is branched into a third pipe L3 and a fourth pipe L4, and both pipes L4 and L5 are joined at the downstream end, and a fifth point is formed at this joining point.
The pipe L5 is connected. The third pipe L3 is provided with a third solenoid valve 803 and a fifth solenoid valve L5 sequentially from the upstream side, and the fourth pipe L4 is provided with a fourth solenoid valve 804 and a sixth solenoid valve (second solenoid valve) in order from the upstream side. A distribution line L6 is provided. The first gas pipe Lx1 is connected between the third electromagnetic valve 803 and the fifth electromagnetic valve 805, and the fourth gas valve 804 and the sixth electromagnetic valve 806 of the fourth pipe L4 are connected to each other. Two gas pipes Lx2 are connected.

The fifth pipe L5 is provided with an ozone removing means 5 in the middle thereof, and the downstream end thereof is the seventh pipe.
It is connected to the upstream side of the suction blower 4 via a solenoid valve 807. The ozone removing means 5 is for removing ozone and odor components contained in the gas passing through the fifth pipe L5, and has an adsorbent such as activated carbon and a first iron oxide (FeO) inside. Etc. are filled with an oxidant.

On the other hand, a sixth pipe L6 forming a branch path between the suction blower 4 and the second electromagnetic valve 802 is connected to the second pipe L2. The downstream end of the sixth pipe L6 is connected to the seventh pipe (third distribution pipe line) L7 and the eighth pipe.
It is branched into a pipe (third distribution line) L8. The downstream end of the seventh pipe L7 is connected to the first ultrasonic humidifier 31, and the downstream end of the eighth pipe L8 is connected to the second ultrasonic humidifier 32. And the seventh pipe L
7, an eighth solenoid valve 808, and the eighth pipe L8.
9th solenoid valve 809 is provided in each.

A ninth pipe (second distribution line) L9 is connected in the middle of the sixth pipe L6. The ninth pipe L9 has a tenth solenoid valve 810 in the middle thereof,
The downstream end is open toward the exhaust window 13.

The ultrasonic humidifier 3 is provided with an exciter 34 in contact with the lower surface of the water tank. The exciter 34 is driven by a control signal from the controller C to generate high frequency vibration on the bottom surface of the water tank. By applying it, the water in the water tank is made into fine mist-like water droplets. Water supply cartridge 33
1, as shown in FIG.
It is designed to be mounted at a predetermined position inside.

The water from the water supply cartridge 33 is supplied to the water tank of the first ultrasonic humidifier 31 through the first water supply pipe L31 and the second ultrasonic humidifier through the second water supply pipe L32. It is designed to be supplied to 32 water tanks. The first water supply pipe L31 is provided with a first water supply solenoid valve 831, and the second water supply pipe L32 is provided with a second water supply solenoid valve 832, respectively. The solenoid valves 831 and 832 are opened and closed. The water in the water supply cartridge 33 is supplied to each of the ultrasonic humidifiers 31 and 32 by the operation when necessary.

The first ultrasonic humidifier 31 is connected to one of the upstream ends of the mist droplet pipe Ly (first mist droplet pipe Ly1), and the second ultrasonic humidifier 32 is connected to the mist droplet. The other (second fog drop pipe Ly2) of the work pipe Ly is connected, whereby the fog drops generated in the first ultrasonic humidifier 31 pass through the first fog drop pipe Ly1 and one pair pipe Lz (first While being supplied to the pair pipe Lz1),
The fog droplets generated by the second ultrasonic humidifier 32 are supplied to the other pair pipe Lz (second pair pipe Lz2) through the second fog droplet pipe Ly2.

Then, in response to a control signal from the control unit C input to the hydraulic unit U, the exciter 34, and the suction blower 4, the hydraulic unit U has predetermined solenoid valves 801 to 81.
The pilot oil is output toward 0,831,832, and the exciter 34 and the suction blower 4 are driven at a predetermined timing.

The sterilization and deodorization processing will be described below with reference to FIGS. FIG. 3 is a time chart showing an example of the opening / closing operation of each solenoid valve, the state of ozone-containing air coming in and out from the opening of each pair pipe, and the driving state of each ultrasonic humidifier.

FIG. 4 is an opening / closing state of each solenoid valve in the exhaust process (time t0 to time t1) of the first cycle in the above time chart, and FIG. 5 is between time t1 and time t2 of the filling process in the first cycle. The open / closed state of the solenoid valve of Fig. 6,
The open / closed state of the solenoid valve between time t2 and time t3 of the filling process in the first cycle is shown.

FIG. 7 shows the second part of the time chart.
The open / closed state of each solenoid valve in the exhaust process (time point t4 to t5) of the cycle, FIG. 8 is the open / closed state of the solenoid valve between time point t5 and time t6 of the filling process in the second cycle, and FIG. 9 is the second state. T6 time to t7 of the filling process in the cycle
The open / closed states of the solenoid valve between time points are shown. 4 to 9, the first water replenishing solenoid valve 8 is used.
31 and the second water supply solenoid valve 832 are not shown.

When performing sterilization and deodorization, first connect the power plug 17a (FIG. 1) to an outlet,
After that, the power switch 14 is turned on to turn on the cleaning device 1.
To drive. In this state, as shown in FIG. 2, all the solenoid valves 801 to 810, 831 and 832 are set to the closed state.

In this state, or in advance, a pair of pair pipes Lz led out to the outside from the front of the casing 11 of the cleaning treatment apparatus 1 are inserted into the vinyl bag B loaded with the object to be sterilized D, and the pair pipes are inserted. The locking member K is attached to the binding member 6 from above the vinyl bag B with the binding member 6 attached to Lz positioned near the opening inside the vinyl bag B.

After that, the cycle setting unit 16a of the operating condition setting unit 16 sets the number of cycle repetitions (the value of n in the nth cycle, n is set to 3 in this embodiment) and the driving time setting unit 16b. Enter the time of the exhaust process, filling process, and holding process (discharging process) in the cycle. In addition, the fog droplet generation time is input to the fog droplet generation time setting unit 16c, whereby the drive preparation is completed. By turning on the start switch 15 in this state, the control unit C
Outputs a control signal, which drives the cleaning processing device 1.

Then, first, the first cycle shown in FIG. 3 is started. The first cycle includes an exhaust process, a filling process,
The evacuation process is performed between the time point t0 and the time point t1 when the start switch 15 is turned on, and then the filling process is continued between the time point t1 and the time point t3, and then held between the time point t3 and the time point t4. The steps are sequentially executed.

In the exhaust step, as shown in FIGS. 3 and 4, the fifth solenoid valve 805, the seventh solenoid valve 807 and the tenth solenoid valve 810 are opened. In this state,
As shown in FIG. 3, the initial air A in the vinyl bag B is the first
It is in a state of being sucked from the first opening 71 of the pair pipe Lz1. Further, the ozone generator 2 and the suction blower 4 are driven.

Therefore, as shown by a thick solid line in FIG. 4, the exhaust window passes from the first opening 71 through the first gas pipe Lx1, the fifth pipe L5, the ozone removing means 5 suction blower 4, and the sixth pipe L6. The initial air A in the vinyl bag B is sucked by the suction force of the suction blower 4 through the open passage extending to 13. As a result, the inside of the plastic bag B becomes deflated due to negative pressure, and by continuing the driving of the suction blower 4, the air inside the plastic bag B is almost eliminated, and the air inside the tissue of the sterilization target D is evacuated and sterilized. The vinyl bag B is in close contact with the surface of the object.

At time t1, the fifth solenoid valve 805, the seventh solenoid valve 805
The solenoid valve 807 and the tenth solenoid valve 810 are closed, and the process proceeds to the next filling step.
, The first solenoid valve 801, the second solenoid valve 802,
The third solenoid valve 803 is opened.

From time t1 to time t2, as shown in FIG. 5, from the outside air intake window 12, the first pipe L1, the suction blower 4, the second pipe L2, the ozone generator 2, and the third generator L3. Pipe L3, first gas pipe Lx
Since the open passage passing through 1 and the first opening 71 is formed, the outside air A1 from the outside air intake window 12 is introduced into the vinyl bag B through this open passage by the suction force of the suction blower 4. The outside air A1 is a portion in the ozone generating apparatus 2 interposed in the middle of the opening path is ozonized, the content of ozone "O _3" is set to an ozone-containing air A2 of 50 to 100 ppm.

The ozone-containing air A2 introduced into the plastic bag B surely permeates into the inside of the sterilization target D, whereby not only the surface of the sterilization target B but also the internal tissue is ozone-containing air A2. As a result, the ozone sterilization of the object D to be sterilized is performed more effectively.

Then, at time t2 during the filling process,
Based on the control signal from the controller C, the eighth solenoid valve 808 is further opened, as shown in FIGS. 3 and 6. Accordingly, in addition to the open passage formed at time t1, the suction blower 4 to the sixth pipe L6, the seventh pipe 807, the first ultrasonic humidifier 31, the first fog droplet pipe Ly1, and the first pair pipe Lz1. An open passage communicating with the first opening 71 of the suction blower 4 is formed.
Part of the outside air A1 in the pipe L2 is branched into the sixth pipe L6.

After the time point t2, the oscillator 34 of the first ultrasonic humidifier 31 is driven by the control signal from the control unit C, whereby many fine mist droplets are generated in the first ultrasonic humidifier 31. It is formed. The countless fog droplets are entrained in the outside air A1 introduced by the seventh pipe L7, whereby the outside air A1 becomes wet air A1a, and the wet air A1 is formed.
“A” is led out from the top of the first ultrasonic humidifier 31, introduced into the vinyl bag B from the first opening 71 through the first fog droplet pipe Ly1 and the filter member 7.

In the present embodiment, the pilot signal for opening the valve is output from the hydraulic unit U to the first solenoid valve 831 for replenishing water by the control signal from the control unit C immediately before the time point t2, and the valve is opened after a predetermined time has elapsed. The pilot oil for closing is output so that the water supply cartridge 3
The required amount of water from 3 is supplied to the first ultrasonic humidifier 31.

Therefore, after the time t2 in the filling process, the first gas pipe Lx is passed through the first opening 71.
Ozone-containing air A2 from 1 and the first mist drop pipe Ly
The wet air A1a from 1 is simultaneously supplied into the vinyl bag B, and the wet air A1a creates a wet environment in the vinyl bag B. Therefore, the vinyl bag B is sterilized by ozone in the wet environment having an excellent sterilizing effect. And deodorization processing will be given.

The reason for sterilizing the inside of the vinyl bag B in a moist environment is that ozone has a stronger sterilizing power in the moist air than in the dry air. That is, ozone “O ₃ ” decomposes like O ₃ → O ₂ + O to generate oxygen radical “O” having a strong oxidizing power, and sterilization is carried out by this. If the oxygen radical “O” is suspended in the order of several tens of ppm, the oxygen radical “O”
Since there is a small probability that will contact the sterilization target D, effective sterilization cannot be performed.

On the other hand, when minute water droplets are present in the air, the oxygen radical “O” and water react like O + H ₂ O → 2HO to generate hydroxyl radicals “H” in the water droplets.
The double volume of "O" is generated, and this is dissolved in water, and at the same time, the oxygen radical "O" is also dissolved in water. Since the hydroxyl radical “HO” has a very strong oxidizing power, the oxygen radical “O” having a strong oxidizing power is contained in water droplets.
And the hydroxyl radical "HO" coexist, and such water droplets adhere to the sterilization target D, so that the sterilization effect is improved.

Next, when the time t3 is reached, the holding process starts. In this holding step, the ozone-containing air A2 and the moist air A1a supplied in the vinyl bag B are held in the vinyl bag B for a predetermined time, and by this holding, the sterilization and deodorization treatment of the sterilization target D is ensured. This is a process for doing.

In this holding step, at the time t3, the first
Solenoid valve 801, second solenoid valve 802, third solenoid valve 803,
And the 8th solenoid valve 808 is set to the closed state, whereby all the solenoid valves are set to the closed state as shown in FIG. As a result, the ozone-containing air A2 and the moist air A1a supplied into the plastic bag B are t4
Until the time point, this sealed state is maintained, and sterilization and deodorization are performed during this sealed period.

Then, at time t4, the second cycle is started. The second cycle also includes the same exhaust process, filling process, and holding process as the first cycle. In addition,
In the sterilization process of the second cycle, the roles of the first pair pipe Lz1 and the second pair pipe Lz2 are reversed.

That is, at time t4, as shown in FIGS. 3 and 7, the sixth solenoid valve 806, the seventh solenoid valve 807, and the tenth control valve 810 are activated based on the control signal output from the control section C. Since it is opened and the other solenoid valves remain closed, the gas pipe L
An open passage is formed through the x2, the fourth pipe L4, the fifth pipe L5, the ozone removing means 5, the suction blower 4, and the sixth pipe L6 toward the exhaust window 13 for sterilization and deodorizing treatment in the vinyl bag B. The sterilized air A3 composed of the used ozone-containing air A2 and the moist air A1a is discharged to the outside from the exhaust window 13 through the open passage.

In the sterilized air A3, ozone and odorous components remaining in the ozone removing means 5 are adsorbed or removed by oxidation, and the exhausted air A3 is discharged from the exhaust window 13 to the outside. The inconvenience that ozone is leaked into the room and odor is generated by the operation of is surely prevented.

The sterilized air A3 in the plastic bag B is also used.
Is sucked from the second opening 72, so that the first opening 7
Ozone-containing air A2 introduced into the plastic bag B from 1
Moves in a longitudinal direction inside the plastic bag B toward the second opening 72 isolated from the first opening 71, whereby the ozone concentration in the plastic bag B is leveled, and the sterilization target D is removed. The bactericidal effect of ozone becomes uniform.

Thereafter, at time t5, the first solenoid valve 8
01, the second solenoid valve 802, and the fourth solenoid valve 804 are opened, and the sixth solenoid valve 806, the seventh solenoid valve 807, and the tenth solenoid valve are closed, so that the first pipe L1 is opened from the outside air intake window 12. , Suction blower 4, second pipe L2,
An open passage toward the ozone generator 2, the fourth pipe L4, the second gas pipe Lx2, and the second opening 72 is formed, and the outside air A1 introduced from the outside air intake window 12 passes through the above-mentioned open passage to form the first passage. It is introduced into the vinyl bag B through the two openings 72.

After time t6, the ninth solenoid valve 809 is opened in addition to the opened states of the first, second and fourth solenoid valves 801, 802, 804, and as shown in FIG. In addition, a part of the outside air A1 introduced from the outside air intake window 12 is divided into the sixth pipe L6 on the downstream side of the suction blower 4, and introduced into the second ultrasonic humidifier 32 through the eighth pipe L8. Here, it becomes the humid air A1a to which the mist droplets are added, and passes through the second mist droplet pipe Ly2 to the second mist.
It is supplied from the opening 72 into the vinyl bag B.

The wet air A1a is used for the plastic bag B.
The sterilization target D in the vinyl bag B is sterilized by the ozone-containing air A2 supplied from the second gas pipe Lx2 in a state where the inside is in a humid environment. In the second cycle, the ozone-containing air A2 is supplied from the second opening 72 into the vinyl bag B.
By reversing the supply position of No. 2, the ozone concentration distribution in the vinyl bag B is made uniform, and variations in the sterilization and deodorizing effects due to the difference in the position in the vinyl bag B are reduced.

After that, at time t7, all the solenoid valves are closed and the ozone-containing air A2 in the vinyl bag B is closed.
And the holding step for holding the moist air A1a is executed until time t8.

An open / closed state similar to the open / closed state of the solenoid valve in the exhaust process of the first cycle is set between time t8 and time t9, and at time t9, the time t1 and time t2 in the filling process of the first cycle are set. The open / closed state is the same as the open / closed state of the electromagnetic valve between the time point and time, and this state (that is, the state in which the ultrasonic humidifier 3 is not driven) is continued until time point t10.

Thereafter, at time t10, the first solenoid valve 801, the second solenoid valve 802, and the third solenoid valve 803 are closed, and the fifth solenoid valve 805, the seventh solenoid valve 807,
Then, the discharging step in which the tenth solenoid valve 810 is opened is executed, and the sterilized air A3 in the vinyl bag B passes through the first gas pipe Lx1, the fifth pipe L5, and the sixth pipe L6 to the outside through the exhaust window 13. Is released to.

After that, the driving of the ozone generator 2 and the suction blower 4 is stopped by the output of the control signal from the control section C, and the sterilization and deodorization processing on the sterilization target D in the vinyl bag B is completed. Then, the locking member K is unlocked and the pair of pair pipes Lz is pulled out from the vinyl bag B, so that the sterilized and deodorized object D to be sterilized remains in the vinyl bag B. This plastic bag B
The sterilization target D in the bag is sent to the next washing process or the like together with the bag.

In this embodiment, the following specifications are adopted. -Dimensions of the plastic bag B: 1000 mm x 600 mm x 4
00 mm-Ozone concentration in ozone-containing air A2: 80 ppm-Relative humidity in vinyl bag B: 80% -Time required for one cycle: 1 minute (exhaust process: 22 seconds, filling process: 22 seconds: holding (discharging) process) 16 seconds) ・ Blowing capacity of the suction blower 4: 0.3 m ³ / h As described in detail above, the cleaning apparatus 1 of the present embodiment supplies air into the vinyl bag B or removes air inside the vinyl bag B. A suction blower 4 that sucks out air, and a first gas pipe Lx1 and a second gas, one of which introduces the ozone-containing air A2 from the ozone generator 2 into the vinyl bag B and the other of which sucks the air in the vinyl bag B. Since the pipe Lx2 for operation and a plurality of solenoid valves 801 to 810 for alternately switching the roles of introduction and suction of the pipes Lx1 and Lx2 are provided, the solenoid valves 801 to 810 are provided. By performing the switched properly actuated in accordance each predetermined schedule, the flow direction of the ozone-containing air A2 within plastic bags B are reversed every predetermined time. Therefore, the concentration distribution of ozone in the plastic bag B changes every predetermined time, and due to this change, the ozone diffusion state in the plastic bag B becomes uniform in a time series manner. The difference in the sterilization effect depending on the loading position of the sterilization target D is reduced, and all the sterilization targets D are uniformly sterilized and deodorized.

Further, the two gas pipes Lx1 and Lx are provided.
Since the tip end opening of 2 is positioned so as to be displaced relative to each other in the plastic bag B, the ozone-containing air A2 introduced into the plastic bag B from the opening of one gas pipe is It moves so as to traverse the inside of the container by the time it reaches the opening of the pipe for use, and the diffusion of ozone in the vinyl bag B is effectively performed along this path.

To the ozone-containing air A2, wet air A1a containing fog droplets generated by the ultrasonic humidifier 3 is added, whereby the sterilization target D is sterilized and deodorized by ozone in a wet state. Therefore, the sterilizing effect of ozone is improved.

In the above embodiment, as shown in FIG. 3, one batch of sterilization and deodorization treatment is performed in three cycles, but in the present invention, one batch of sterilization and deodorization treatment is performed in three cycles. It is not limited to be performed, and one batch of sterilization and deodorization treatment may be set to less than 3 cycles or may be set to exceed 3 cycles depending on the situation of the sterilization target D. This setting is performed by inputting the number of cycles to the cycle setting unit 16a.

Further, in the above embodiment, one suction blower 4 is provided in the system, and this suction blower 4 is used both for introducing the outside air and for discharging the air in the vinyl bag B. However, instead of this, two blowers are adopted, one is installed as a dedicated machine for introducing outside air in the dedicated intake passage, and the other one is a dedicated machine for discharging the air in the plastic bag B. Alternatively, it may be provided in a dedicated exhaust passage. By doing this, the introduction of outside air into the plastic bag B and the plastic bag B
It is possible to discharge air from the inside at the same time,
It is effective in shortening the sterilization and deodorization processing time.

In the above embodiment, two ultrasonic humidifiers (first ultrasonic humidifier 31 and second ultrasonic humidifier 32) are used, and the first ultrasonic humidifier 31 is the first ultrasonic humidifier.
The second ultrasonic humidifier 32 is used as a dedicated device for feeding the humid air A1a into the pair pipe Lz1.
Although it is a dedicated device for sending the humid air A1a to 2, the ultrasonic humidifier is replaced by one instead of two, and the humid air A1a is alternately supplied to the pair pipes Lz1 and Lz2 by switching the pipe lines. You may By doing so, it is possible to reduce the cost of parts of the cleaning processing apparatus 1.

Further, in the above embodiment, the ultrasonic humidifier 3 is adopted as the humidifier, but instead of the ultrasonic humidifier 3, a small boiler that generates steam by heating is placed in the casing 11. Alternatively, the steam from the boiler may be entrained in the ozone-containing air A2.

In addition, a hot air generator is added to the cleaning device 1 so that the hot air from the hot air generator is supplied into the vinyl bag B after completion of sterilization and deodorization in the vinyl bag B. Good. By doing this,
Since the sterilized and deodorized product in the plastic bag B is dried, immediately after taking out the sterilized product from the vinyl bag B without performing a separate drying process on the sterilized product after the sterilization and deodorization process. Therefore, it is possible to use the sterilized product.

In the above embodiment, the plastic bag B is used.
Is made of polyethylene, polypropylene, polyvinyl chloride, or the like, which is usually made of a soft synthetic resin such as a bag. However, instead of the vinyl bag B, a cloth bag or a paper bag may be used. Good.

Further, in the above embodiment, the vinyl bag B is used as the sterilization container, but the sterilization container is not limited to the vinyl bag B in the present invention, and a box-shaped container may be used. .

[0102]

According to the apparatus for cleaning treatment with ozone according to claims 1, 2 and 5 of the present invention, ozone and moist air are introduced into the sterilization container from one of the pair of openings, and the other is introduced into the sterilization container. Since the air in the sterilization container is exhausted from the opening of the sterilization container, and the introduction and the exhaustion through these openings are configured to be switched alternately, the direction of ozone flow in the sterilization container is changed by this switching. By reversing, the concentration distribution of ozone in the sterilization container becomes uniform, which is convenient for performing uniform sterilization and deodorizing treatment on the object to be sterilized.

According to the apparatus for cleaning with ozone of claim 3 of the present invention, the intake means and the exhaust means are formed by one blower, and the operation control means is the intake means for one of the flow passages. Since the operation and the operation of the exhaust means for the other flow conduit are performed in time series, while the air in the sterilization container is being sucked by the exhaust means, the ozone and the moist air of the intake means are removed. There is no introduction into the sterilization container, and the inside of the sterilization container is in a reduced pressure state, so that the inside of the sterilization target is also in a reduced pressure state.
Therefore, when ozone and moist air are introduced by the next intake means, ozone penetrates into the inside of the sterilization target, which is effective in surely performing sterilization and deodorization not only on the surface of the sterilization target but also inside. Is.

According to the ozone purifying apparatus of the fourth aspect of the present invention, one intake passage is provided between only one ozone generator and one humidifier and the intake passages of both flow passages. A switching valve that closes the other intake passage when opened is provided, and the supply of ozone and moist air into the sterilization container of the pair of flow conduits is alternately switched by the operation of the switching valve. Since only one humidifier and one humidifier can be used, the cost of parts can be reduced by using only one ozone generator and one humidifier, and it is effective in manufacturing a cleaning device using ozone at low cost. Is.

According to the apparatus for cleaning treatment with ozone according to the sixth and seventh aspects of the present invention, the ozone introduced into the sterilization container through the opening of the flow pipe in which ozone is blown is:
Since it moves so as to traverse the inside of the container until it reaches the opening of the distribution pipe that sucks the internal air, diffusion inside the container is completed along this path, and the ozone concentration in the container is reduced. It is convenient for homogenization.

According to the ozone cleaning processing apparatus of the eighth aspect of the present invention, since the sterilization container has the locking members for locking the openings at positions spaced from each other inside the sterilization container, By locking the opening to the locking tool, the pair of openings are separated from each other, which is effective for surely separating the quantity opening in the sterilization container.

According to the apparatus for cleaning treatment with ozone of claim 9 of the present invention, since the ozone removing means for removing ozone is provided in the exhaust passage, the ozone-containing air that has been sterilized by the ozone removing means is used. It is effective in removing ozone and surely preventing environmental pollution due to ozone.

According to the apparatus for cleaning treatment with ozone of the tenth aspect of the present invention, since the sterilization container is made of a bag made of a deformable material, it can be easily stored and transported by folding. At the same time, it is convenient because a sterilization container can be brought into the sterilization site for sterilization and deodorization.

According to the eleventh aspect of the apparatus for cleaning treatment with ozone of the present invention, the binding tool for keeping the lengths of the tubes in the sterilization container different from each other in a state where the opening is inserted in the bag. And a bag sealing jig that is inserted into the bag and that is attached to the binder through the bag in a state where the opening of the bag is in close contact with the outer peripheral surface of the locking tool. Therefore, in the state where the flow conduit is inserted into the sterilization container, the opening is closed by mounting the opening closing jig to the opening of the sterilization container, so that the inside of the sterilization container is in a sealed state. This is effective in surely preventing leakage of ozone introduced into the sterilization container, preventing environmental pollution due to ozone, and performing reliable sterilization and deodorization treatment.

[Brief description of drawings]

FIG. 1 is a perspective view showing an example of a cleaning apparatus using ozone according to the present invention.

FIG. 2 is a piping system diagram showing an example of a piping system of the purification processing device.

FIG. 3 is a time chart showing an example of opening / closing operation of each solenoid valve, a state of ozone-containing air coming in and out from an opening of each pair pipe, and a driving state of each humidifier.

FIG. 4 is an extracted view of a main part of the piping system diagram of FIG. 2, showing an open / closed state of each solenoid valve between time t0 and time t1 in the exhaust process of the first cycle.

FIG. 5 is an extracted view of a main part of the piping system diagram of FIG. 2, showing an opened / closed state of the solenoid valve between time t1 and time t2 in the filling process of the first cycle.

FIG. 6 is an extracted view of a main part of the piping system diagram of FIG. 2, showing an opened / closed state of the solenoid valve between time points t2 and t3 in the filling process of the first cycle.

FIG. 7 is an extracted view of a main part of the piping system diagram of FIG. 2, showing an open / closed state of each solenoid valve between time points t4 and t5 in the exhaust process of the second cycle.

FIG. 8 is an extracted view of a main part of the piping system diagram of FIG. 2, showing an open / closed state of the solenoid valve between time points t5 and t6 in the filling process of the second cycle.

FIG. 9 is an extracted view of a main part of the piping system diagram of FIG. 2, showing an opened / closed state of the solenoid valve from time t6 to time t7 in the filling process of the second cycle.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Purification processing apparatus 11 Casing 12 Outside air intake window 13 Exhaust window 14 Power switch 15 Start switch 16 Operating condition setting section 16a Cycle setting section 16b Driving time setting section 16c Fog drop generation time setting section 17 Lead wire 17a Power plug 18 Mounting port 2 Ozone Generator 21 Ozonizer 3 Ultrasonic Humidifier 31 First Ultrasonic Humidifier 32 Second Ultrasonic Humidifier 33 Water Supply Cartridge 34 Exciter 4 Suction Blower 5 Ozone Removing Means 6 Bundling Member 7 Filter Member 71 First Opening 72 2nd opening part L1 1st pipe L2 2nd pipe (1st distribution pipeline) L3 3rd pipe L4 4th pipe L5 5th pipe (exhaust pipeline) L6 6th pipe (2nd distribution pipeline) L7 7th Pipe (third distribution line) L8 Eighth pipe (third distribution line) L9 Ninth pipe (second distribution line) Lx gas pipe Lx1 first gas pipe (exhaust path and an intake passage, first
Gas pipe line Lx2 Second gas pipe (exhaust path and intake path, second
Gas pipe) Ly Pipe for mist drops Ly1 First pipe for mist drops (first wet line) Ly2 Second pipe for mist drops (second wet line) Lz Pair pipe Lz1 First pair pipe Lz2 Second pair pipe 801 to 810 1st-10th solenoid valve (switching valve) B vinyl bag C control part D sterilization target U hydraulic unit (operation control means)

Claims (11)

[Claims] 1. An ozone generator for generating ozone and a humidifier for generating moist air are provided. By introducing the ozone and the moist air into the container, a cleaning target object loaded in the container is obtained. On the other hand, a cleaning device using ozone for performing one or both of a sterilization process and a deodorizing process, in which two systems of distribution pipelines facing the opening are provided in the container, and one of the distribution pipes is provided. The ozone and the moist air are introduced into the container through the passage, and the air in the container is exhausted through the other passage, and the introduction and the exhaust are alternately switched for each of the passages. A cleaning device using ozone, which is configured as described above. 2. A cleaning device having an ozone generator for generating ozone and a humidifier for generating moist air, wherein the ozone and the moist air are introduced into a container by introducing the ozone and the moist air from a sealing port of the container. A cleaning apparatus using ozone for performing one or both of sterilization processing and deodorization processing on an object, wherein an exhaust passage having openings at both ends and one opening accommodated in the container And an intake passage communicating with the ozone generator and the humidifier, respectively.
A distribution pipeline of the system, an exhaust valve provided in the exhaust passage for each of these distribution pipelines to open and close the exhaust passage, and the above-mentioned exhaust pipe for each of these distribution pipelines. A suction valve that is provided in the intake passage and opens and closes the intake passage, and an intake means that opens the intake passage to guide ozone from the ozone generator and wet air from the humidifier to the one opening. Exhaust means for opening the exhaust passage to exhaust the fluid in the container from one opening to the other opening, operation of the intake means for one flow conduit, and operation of the exhaust means for the other flow conduit And a switching means for alternately switching between the suction operation and the exhaust operation for the both flow conduits. 3. The intake means and the exhaust means are formed by a single blower, and the operation control means operates the intake means for one of the flow channels and the exhaust means for the other flow channel. 3. The ozone cleaning processing apparatus according to claim 2, wherein the cleaning processing is performed in time series. 4. One of the ozone generator and the humidifier is provided, and when one of the intake passages is opened between the ozone generator and the humidifier and the intake passages of both flow conduits. 4. The ozone purification processing apparatus according to claim 2, further comprising a switching valve that closes the other intake passage. 5. An ozone generator for generating ozone and a humidifier for generating moist air, wherein the ozone and the moist air are respectively formed in a container by a first opening and a second opening. A cleaning device using ozone that performs one or both of a sterilization process and a deodorizing process on a cleaning object loaded in a container by being introduced via an outside air inlet from the outside air intake port. A first distribution pipe in which a blower for sucking air and the ozone generator are sequentially provided toward the downstream side, and a branch which is branched from between the blower and the ozone generator and which communicates with an exhaust outlet. A second flow conduit and a third flow conduit branched from the second flow conduit and connected to the humidifier at the downstream end are provided, and the first opening is provided on the downstream side of the ozone generator. First communicating with the department
A gas conduit and a second gas conduit communicating with the second opening are provided in a branched manner, and the humidifier communicates with the first wetting conduit communicating with the first opening and the second opening. And a second wetting pipeline, which communicates with the first gas pipeline and the second gas pipeline and is connected to an upstream side of the blower. ), (B), (c) and (d) are sequentially repeated, and a switching means for switching the flow state of the pipeline is provided. (A) A state in which the first opening portion, the first gas pipeline, the exhaust pipeline, the first distribution pipeline, the second distribution pipeline and the exhaust outlet are communicated with each other and the other pipelines are closed. (B) The outside air intake port, the first distribution pipeline, the first gas pipeline, and the first opening are communicated with each other, and the first distribution pipeline and the second distribution pipeline are connected.
A state in which the distribution pipeline, the third distribution pipeline, the first wetting pipeline and the first opening are in communication with each other and the other pipelines are closed. (C) A state in which the second opening, the second gas pipeline, the exhaust pipeline, the first distribution pipeline, the second distribution pipeline and the exhaust port are in communication with each other and the other pipelines are closed. (D) The outside air intake port, the first distribution pipeline, the second gas pipeline, and the second opening communicate with each other, and the first distribution pipeline, the second distribution pipeline, the third distribution pipeline, and the second wet pipeline. The state in which the passage and the second opening are communicated with each other and the other pipelines are closed. 6. The ozone cleaning apparatus according to claim 2, wherein the openings are separated from each other in the container. 7. The cleaning with ozone according to claim 2, wherein the tubes in the container have different lengths when the opening is inserted in the container. Processing equipment. 8. The apparatus for cleaning treatment with ozone according to claim 7, wherein the container has a locking tool that locks the opening at mutually spaced positions inside. 9. The apparatus for cleaning with ozone according to claim 2, wherein the exhaust passage is provided with ozone removing means for removing ozone. 10. The apparatus for cleaning with ozone according to claim 2, wherein the container is a bag made of a deformable material. 11. A tie for maintaining the lengths of tubes in a container different from each other in a state where the opening is inserted in the bag, and the tie is inserted into the bag, 11. A cleaning device with ozone according to claim 10, further comprising: a bag sealing jig which is attached to the tying device via a bag in a state where the opening portion of the bag is in close contact with the outer peripheral surface of the locking device. Processing equipment.