JP2004201788A - Bacteria eliminating device and accommodating device for bacteria elimination equipped with it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bacteria eliminating device which ensures a better bacteria eliminating treatment and is free of concerns to affect human bodies due to residual ozone by recovering released ozone completely in the bacterial eliminating device disinfecting by fumigating objects to be disinfected such as medical instruments by releasing ozone outside the device. <P>SOLUTION: The bacteria eliminating device includes an ozone mixing layer 32 for supplying the ozone generated by an ozone generator 34 to the inside of a room by a mixing fan 36 and for mixing it, and an ozone degradation layer 38 which is furnished with a catalyst 37 for the ozone degradation, a nitrogen oxide absorbing agent 38, and a suction fan 39 and is used for degrading the ozone after the bacteria eliminating treatment. A plurality of layers are formed by forming a partition 31 in a case of the bacteria eliminating device, and the ozone mixing layer 32 and the ozone degradation layer 33 are provided separately. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a disinfecting device that effectively utilizes the oxidizing power and sterilizing power of ozone, and a disinfecting container provided with the disinfecting device.
[0002]
[Prior art]
Conventionally, ozone has been known to have strong oxidizing and bactericidal properties, and has been widely used in daily life, such as for water treatment and medical treatment. In addition, ozone becomes a harmful substance at a high concentration and may affect the human body such as a decrease in lung capacity, headache, bronchitis, and the like. A known technique is to perform sterilization and reduce the concentration of ozone in the exhaust air.
[0003]
For example, as shown in Patent Document 1, a surface discharge type ozonizer is provided along a flow path of air to perform deodorization, and activated carbon or an ozone decomposition catalyst or the like is provided downstream of the ozonizer. A technology of an ozone deodorizing device that prevents the ozone concentration of the ozone from exceeding a safe value has been disclosed (for example, see Patent Document 1).
The technology disclosed in the above-mentioned document is to inhale the outside air and take it into the deodorizing device, ozone deodorize or sterilize bacteria in the air inside the device, decompose ozone after treatment with a catalyst, This is a particularly effective and excellent technique in terms of release.
[0004]
[Patent Document 1]
JP 06-63111 A
[0005]
[Problems to be solved by the invention]
In recent years, problems such as MRSA nosocomial infections have been rapidly taken out, awareness of the threat of the infectious diseases is increasing, and food hygiene management etc. in accordance with the HACCP (Hazard Analysis Critical Control Point) system The awareness of is increasing. In particular, regarding MRSA, sterilization of bacteria adhered to medical equipment carried between hospital rooms, corridors, and hospital wards, white coats of doctors, beds used by patients, and the like becomes a problem.
Also, in these countermeasures such as MRSA, the ozone deodorization or the sterilization treatment of bacteria in the air is effective. Therefore, the inventors effectively utilize the action peculiar to ozone and take measures against the problems such as MRSA. We developed a sterilization device to obtain it.
[0006]
In developing this disinfecting apparatus, the following were particularly problematic.
First, there are problems such as a peculiar smell of ozone and an adverse effect on human bodies due to residual ozone. In the prior art, this problem is intended to be solved by suppressing the ozone concentration to within a predetermined value. However, it is necessary to surely sterilize and sanitize the articles to be sterilized such as the medical devices described above. Must be sterilized for at least a predetermined time in an environment of high concentration ozone. As described above, it is necessary to simultaneously satisfy both the viewpoint of the effect on the human body and the viewpoint of sterilization in an environment of high-concentration ozone. For that purpose, it is necessary to form a closed space for accommodating the articles to be sterilized. There is.
Further, after treatment in an environment of high-concentration ozone, residual ozone needs to be recovered because the residual ozone has a bad effect on the human body.
In addition, it is necessary that anyone who uses the apparatus can easily use the apparatus for sterilization / sterilization processing without malfunction.
In addition, in order to perform the sterilization / sterilization treatment in a limited space such as a hospital room, it is necessary to form a closed space for accommodating the articles to be sterilized as necessary. SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and proposes a novel disinfecting apparatus and a disinfecting container provided with the same to perform reliable disinfection and sterilization treatment using ozone.
[0007]
[Means for Solving the Problems]
The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.
[0008]
That is, in claim 1, an ozone agitating layer for supplying ozone generated by an ozone generator into a room by an agitating fan and agitating the ozone, a member for decomposing ozone after the sterilization treatment, and a suction fan are provided. A sterilization apparatus having an ozone decomposition layer provided therein, wherein the ozone stirring layer and the ozone decomposition layer are provided in separate layers separated by a partition provided in a case of the sterilization apparatus.
[0009]
In claim 2, the sterilization apparatus includes a control device for executing a series of operation modes including an ozone agitation operation mode and an ozonolysis operation mode, and the control device performs the operation for a preset operation time. After the elapse, the operation of the sterilization apparatus is automatically stopped.
[0010]
Claim 3 is a disinfecting container provided with the disinfecting apparatus according to any one of claims 1 and 2, wherein the disinfecting container is a closed space for accommodating the articles to be disinfected. Is formed.
[0011]
In claim 4, the disinfecting container is constituted by a frame that can be disassembled or folded and a sheet that covers the frame, and can be disassembled or folded as necessary.
[0012]
In claim 5, the ozone generator is configured to be capable of generating a gas having various sterilizing effects.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the invention will be described.
First, a sterilization container having a sterilization apparatus according to a first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a perspective view showing an overall configuration of a sterilization apparatus according to one embodiment of the present invention, FIG. 2 is a perspective view showing an internal configuration of a sterilization container, FIG. 3 is a front view, and FIG. FIG. 5 is a left side view, FIG. 6 is a plan view, FIG. 7 is a bottom view, and FIG. 8 is a rear view.
[0014]
As shown in FIG. 1, the sterilization container 1 is a stainless steel box formed in a rocker shape, and has a sterilization device 2 on an upper portion thereof. The left and right doors 3 and 4 are disposed on the front of the disinfecting container 1 and the left side of the door 3 is attached to the main body by three hinges 5.5 and 5 on the left end thereof. Similarly, the right door 4 is also pivotally supported by the main body with three hinges 5.5 at the right end thereof. The left and right doors 3, 4 are provided with rotating latch handles 6, 6 at the center positions in the height direction, respectively, so that the doors can be opened and closed by using the rotating latch handles 6, 6 as handles. I have.
[0015]
As shown in FIG. 2, a gasket 7 made of an elastic member such as rubber is provided around the inside of the doors 3 and 4 so that airtightness inside the sterilization container 1 can be maintained. I have. Further, a hanging rod such as a cylindrical hanger pipe 8 and a shoe mounting table 9 serving as a table for mounting footwear and other small articles are provided inside the sterilization container 1. The hanger pipe 8 is fixed to stays 10, which are fixed to the left and right side surfaces inside the sterilization container 1, and is laterally suspended slightly below the sterilization apparatus 2. The shoe mount 9 is formed on a bottom plate 12 by connecting thin round bars to form a shelf.
[0016]
The top plate 13 that separates the upper part of the sterilization container 1 provided with the sterilization device 2 and the inside of the sterilization container 1 has a plurality of (four in this embodiment) ventilation holes 11a, 11b, 11c, 11d is provided, and a mesh having a large number of holes is arranged in the ventilation holes 11a, 11b, 11c and 11d. The upper sterilization apparatus 2 communicates with the inside of the sterilization container 1 through the ventilation holes 11a, 11b, 11c, and 11d, and the ozone generator 34 provided inside the sterilization apparatus 2 (FIG. Ozone generated from 11) enters the sterilization container 1 through the ventilation holes 11a, 11b, 11c, 11d. Further, ozone accumulated inside the sterilization container 1 is collected through the ventilation holes 11a, 11b, 11c, and 11d.
As described above, the ozone generated by the sterilization apparatus 2 is supplied to the inside of the sterilization container 1 through the ventilation holes 11a, 11b, 11c, and 11d, and the white coat and the shoes stored in the sterilization container 1 And other medical devices are fumigated with ozone to remove bacteria and deodorize.
[0017]
As shown in FIG. 6, a plug cord 14 extends from the back of the sterilization container, and power is supplied from the plug cord 14.
[0018]
Next, the configuration of the upper part of the sterilization container 1 provided with the sterilization apparatus 2 will be described. 9 is an enlarged top view of the sterilization container showing the operation display unit 15, FIG. 10 is a plan view of the remote control main body, and FIG. 11 is a top sectional view of the sterilization container showing the configuration of the sterilization device.
As shown in FIG. 9, an operation display unit 15 and a remote control receiving unit 20 are provided on the front surface of the sterilization container 1. The operation display unit 15 includes a character display lamp 16, a sterilization operation indicator (hereinafter, a red lamp) 17, a sterilization non-operation indicator (hereinafter, a green lamp) 18, and a residue display unit 19.
[0019]
The character display lamp 16 includes a dial indicated as "during deodorization and sterilization", and a backlight such as a lamp which is disposed at the rear of the dial and emits light. The backlight is configured to be turned on when the disinfecting device 2 is operated under the control of a CPU (control unit) 30 described later, so that the dial is irradiated with light. Then, when light is emitted from the backlight, the dial shines green, and the character portion "during deodorization sterilization" shines white. As described above, the character "under deodorization and sterilization" is clearly illuminated during the operation of the disinfecting apparatus, so that the operation and non-operation of the disinfecting apparatus can be recognized at a glance from the outside.
[0020]
The red lamp 17 and the green lamp 18 protrude from the upper front surface of the sterilization container 1, and the red lamp 18 is turned on during the operation of the sterilization apparatus 2 under the control of the CPU 30, and the sterilization apparatus 2 is not operated. If so, the green lamp 19 is turned on.
The remaining portion display section 19 displays the remaining time of the sterilization operation under the control of the CPU 30.
With such a configuration of the operation display unit 15, it is possible to externally check whether the disinfecting apparatus 2 is operating or not operating, and to constantly check the remaining work time. .
[0021]
Further, the remote control receiving unit 20 receives a radio wave transmitted from the remote control main body 21 as shown in FIG. The remote control main body 21 includes an operation button 22, a stop button 23, a 30-minute operation button 24, and a 60-minute operation button 25 (or a timer setting dial). Then, information input by operating each button is transmitted from a remote control transmitting section 26 provided at the tip of the remote control main body 21 and received by the remote control receiving section 20 of the sterilization container 1 main body.
The information received from the remote control receiving unit 20 is transmitted to the CPU 30, and the CPU 30 controls each device based on the information input by the remote control main body 21. Note that the sterilization container 1 main body is not provided with an operation unit for controlling operation and stop, and can be operated only by the remote control main body 21.
[0022]
In addition, the CPU 30 described above is provided inside the upper part of the sterilization container 1 as shown in FIG.
The CPU 30 receives the information transmitted by the remote control operation from the remote control receiving unit 20 and determines the operation / stop or the operation for 30 minutes or 60 minutes, and controls the operation / non-operation of the sterilization apparatus 2. ing. Further, the CPU 30 controls the operation display unit 15 and controls the operation / stop of the sterilization apparatus.
[0023]
Here, the internal configuration of the sterilization apparatus 2 will be described in detail.
As shown in FIG. 11, the sterilization apparatus 2 has an intermediate partition plate 31 erected at a substantially central position in the front-rear direction in a rectangular parallelepiped case 35, and the partition plate 31 divides a layer into two layers to form a two-layer system. Is formed. In the present embodiment, the layer on the front side of the partition 31 is the ozone stirring layer 32 and the layer on the rear side is the ozone decomposing layer 33. The ozone agitating layer 32 and the ozone decomposing layer 33, which are surrounded by the case 35 and the middle partition plate 31, are completely separate layers so that the gases in the layers are not mixed.
[0024]
An ozone generator 34 is attached to the left and right front walls on the side of the ozone stirring layer 32 so that ozone generated by the ozone generator 34 can be supplied into the ozone stirring layer 32. The ozone generation principle of the ozone generator 34 utilizes a surface discharge type. The ozone generator 34 has a built-in small heater for dehumidification, thereby increasing ozone generation efficiency.
[0025]
Further, ventilation holes 11 a and 11 b communicating with the inside of the sterilization container 1 are formed on the lower surfaces of the left and right ends of the ozone stirring layer 32. Each of the ventilation holes 11a and 11b has a mesh formed by piercing a plurality of small-diameter holes. A stirring fan 36 is provided on the other left and right side (slightly left side of the vent hole 11a formed in the lower right surface), and sucks air inside the sterilization container 1 through the vent hole 11a, and The air is blown toward the ventilation hole 11b. The ozone generator 34 is disposed above the ventilation hole 11b formed on the lower left surface, and the ozone is sent from the ventilation hole 11b into the sterilization container 1 by blowing air from the stirring fan 36. Like that.
[0026]
Vent holes 11c and 11d are also formed on the lower surfaces of the left and right ends of the ozone decomposing layer 33, similarly to the ozone stirring layer 32. A honeycomb-shaped ozone decomposition catalyst 37 and a nitrogen oxide absorbent 38 are disposed slightly to the right of the vent hole 11c formed in the lower left surface. For the ozone decomposition catalyst 37, for example, manganese oxide, titanium dioxide, or copper oxide is used, and for the nitrogen oxide absorbent 38, for example, calcium hydroxide or activated carbon is used.
Further, a suction fan 39 is disposed slightly to the left of the ventilation hole 11d formed in the lower right surface, and the suction fan 39 sucks air in the sterilization container 1 from the left ventilation hole 11c, The air containing ozone and nitrogen oxides is purified by the ozone decomposition catalyst 37 and the nitrogen oxide absorbent 38, and the clean air is introduced into the sterilization container 1 through the ventilation hole 11d by the suction fan 39. I am trying to put it back.
[0027]
The sterilization apparatus includes a CPU 30 for executing a series of operation modes including an ozone stirring operation mode in which the ozone stirring layer 32 functions and an ozone decomposition operation mode in which ozone is decomposed in the ozone decomposition layer 33. Is configured to automatically stop the operation of the sterilization apparatus after a predetermined operation time has elapsed.
Specifically, the time for sending ozone into the sterilization container 1 by the ozone agitating layer 32 is determined to be 30 minutes or 60 minutes. To the ozone stirring layer 32.
When the processing of the ozone stirring layer 32 for 30 minutes or 60 minutes is completed, the ozone decomposition layer 33 is controlled to operate for 10 minutes. That is, if the sterilization operation for 30 minutes is selected, the operation time is a total of 40 minutes, and if the sterilization operation for 60 minutes is selected, the operation time is a total of 70 minutes.
[0028]
In the configuration of the sterilization apparatus 2 as described above, when the sterilization process is started by operating the remote control main body 20, first, the stirring fan 36 and the ozone generator 34 of the ozone stirring layer 32 are operated for 30 minutes or 60 minutes. Ozone is supplied into the sterilization container 1 and stirred. At this time, the ozone decomposition layer 33 is in a stopped state. Then, in the treatment of the ozone agitating layer 32, the object to be treated inside the sterilization container 1 is sterilized by fumigation.
After 30 minutes or 60 minutes have passed, the ozone agitating layer 32 is stopped, and the suction fan 39 of the ozonolysis layer 33 is activated to suck and collect air containing ozone sprayed in the sterilization container 1. Purify. Then, the ozone decomposing layer 33 is operated for 10 minutes, all the ozone in the sterilization container 1 is purified, and all the sterilization processes are completed.
[0029]
In this way, the object of the sterilization treatment stored in the sterilization container 1 can be reliably sterilized with high-concentration ozone, and the released ozone can be reliably collected. And since there is no leakage of ozone to the outside, there is no concern about the influence on the human body.
[0030]
Next, an indoor disinfection device which is a second embodiment of the disinfection device of the present invention will be described. 12 is a perspective view showing the entire configuration of the indoor sanitizing apparatus of the second embodiment, FIG. 13 is a front view of the indoor sanitizing apparatus, FIG. 14 is a right side view, FIG. 15 is a left side view, and FIG. 17 is a plan view, FIG. 17 is a bottom view, FIG. 18 is a rear view, and FIG.
[0031]
As shown in FIGS. 12 to 18, the indoor sanitizing apparatus 50 is formed in a rectangular parallelepiped shape, and is formed of a material such as stainless steel which is hardly oxidized. A character display lamp 51, a red lamp 52, and a green lamp 53 are provided on the front upper portion of the indoor disinfecting device 50 as in the first embodiment, and it is possible to determine at a glance whether the indoor disinfecting device 50 is in operation or not. So that it can be recognized. Further, a remote control receiving unit 54 is provided at the same height position as the green lamp 53 and slightly to the right. The remote control receiving unit 54 is exposed to the outside and receives information transmitted from the remote control main body 40 (FIG. 19). I can do it. In addition, since the indoor sterilization apparatus 50 of the present embodiment has two patterns of the operation time of 12 hours and the continuous operation, the indoor sterilization apparatus 50 does not include the residue display unit provided in the sterilization container 1 of the first embodiment. It is.
[0032]
As shown in FIG. 19, the remote controller main body 40 includes an “operation” button 41 and a “stop” button 42 for operating and stopping the indoor disinfecting device 50, and an air volume of a suction fan provided inside the indoor disinfecting device 50. , A "strong" button 43 and a "weak" button 44, and a "12" button 45 and a "continuous" button 46 for setting the operation time to 12 hours and continuous operation. Further, a remote control transmitting section 47 is provided at the tip of the remote control main body 40, and when the six buttons are operated, data is transmitted from the remote control transmitting section 47.
[0033]
Further, ventilation holes 50a and 50b are provided in the lower part of the indoor disinfecting apparatus 50 and the lower part of the character display lamp 51, respectively. The ventilation hole 50a at the lower part of the indoor sterilization apparatus 50 is formed in a mesh shape by piercing a plurality of small-diameter holes. Further, a rectangular frame 56 in which a plurality of oblong holes are formed in a vent hole 50b provided above the indoor disinfecting apparatus 50 and below the character indicating lamp 51, and is held by the frame 56. A filter 57 is provided. The frame 56 has four corners fixed by screws, and can be removed by removing the screws, so that the filter 57 can be easily replaced.
[0034]
Then, outside air is sucked through a ventilation hole 50b provided at an upper portion of the indoor sterilization apparatus 50, and air that has been sterilized inside the indoor sterilization apparatus 50 is discharged through a lower ventilation hole 50a. When the outside air is sucked from the upper air hole 50 b, impurities such as dust do not enter the interior of the indoor sterilization apparatus 50 because the air passes through the filter 57.
[0035]
As shown in FIG. 18, a plug cord 49 extends from a lower portion of the rear surface of the indoor disinfecting apparatus 50, and supplies power from the plug cord 49 to serve as a power source for each apparatus.
[0036]
Next, the internal configuration of the indoor sterilization apparatus 50 will be described.
FIG. 20 is a front view showing the internal configuration of the indoor sanitizing apparatus, and FIG. 21 is a side sectional view of the same.
As shown in FIG. 20 and FIG. 21, the inside of the indoor disinfecting device 50 has a top plate 64 on which the ozone generator 60 is mounted, and five five It is formed in five layers by shelves.
[0037]
The top plate 64 is disposed at a height between the character indicator lamp 51 and the upper air hole 50b, and the front, rear, left and right ends of the top plate 64 are fixed to the inner surface of the device 50 by welding or the like. . An opening is provided on the rear side of the top plate 64, and the ozone generator 60 is mounted in accordance with the position of the opening. The ozone generator 60 is of a creeping discharge type, similar to that of the first embodiment, and includes a small heater.
[0038]
In addition, five shelves are arranged from below the upper side ventilation hole 50b to above the lower side ventilation hole 50a, and the first shelf 66 at the uppermost part has its front part and both sides arranged in the device 50. The rear side is opened to allow the air inside the device to flow downward. The second shelf 67 disposed below the first shelf 66 has its rear part and both sides fixed to the inner surface of the apparatus, and its front part is open. The third shelf 68 arranged below the second shelf 67 is configured similarly to the first shelf 66, and the fourth shelf 69 arranged below the third shelf 68 is the second shelf 67. It has the same configuration as the shelf 67.
The fifth shelf board 65 disposed at the lowermost portion has front, rear, left and right ends fixed to the inner surface of the apparatus, and has an opening on the rear side. An ozone decomposition catalyst 62 and a nitrogen oxide absorbent 63 are provided on the lower surface in accordance with the position of the opening. The ozone decomposition catalyst 62 and the nitrogen oxide absorbent 63 are formed in a honeycomb shape similarly to those used in the first embodiment.
[0039]
In the top plate 64 and the five shelves configured as described above, the space sandwiched between the top plate 64 and the first shelf plate 66 is assigned to the first layer 71, the first shelf plate 66, and the second shelf plate 67. The space that is sandwiched between the second layer 72, the second shelf 67, and the space that is sandwiched between the third shelf 67 and the third shelf 73 is referred to as a fourth layer 74 and a fifth layer 75, and indoor disinfection is performed. The inside of the device 50 has a five-layer structure.
[0040]
In the indoor sterilization apparatus 50 having the above-described internal configuration, when the operation is started by operating the remote controller, the outside air is sucked into the inside of the apparatus by the suction fan 61 provided inside the ventilation hole 50b on the upper side.
The inside of the device is filled with ozone generated by the ozone generator 60, and the air sucked into the device is sterilized by ozone. In the sterilization process, the air sucked into the device by the suction fan 61 flows downward while moving back and forth between the first layer 71 and the fifth layer 75. As a result, the processing time becomes longer, and the processing can be performed without unevenness. In addition, since ozone is not released to the outside of the apparatus, it is possible to perform a strong sterilization treatment with a high concentration of ozone.
[0041]
Then, the ozone and the acidic gas generated by the ozone treatment are treated by the ozone decomposition catalyst 62 and the nitrogen oxide absorbent 63 fixed on the lower surface of the fifth shelf 65, and only the clean air is discharged outside the apparatus. It is done.
In addition, although the indoor sterilization apparatus 50 of this embodiment has a five-layer structure inside the apparatus with a top plate 64 and five shelf plates 65, 66, 67, 68, and 69, the number of layers is limited. The same effect can also be obtained by forming a labyrinth shape.
[0042]
Next, a simple sterilization apparatus which is a third embodiment of the sterilization apparatus of the present invention will be described.
22 is a perspective view showing the entire configuration of the simple sterilization apparatus of the third embodiment, FIG. 23 is a front view of the same simple sterilization apparatus, FIG. 24 is a right side view thereof, FIG. 25 is a left side view thereof, 26 is a plan view, FIG. 27 is a bottom view, and FIG. 28 is a rear view.
[0043]
As shown in FIGS. 22 to 28, the simple sterilization apparatus 80 has a rectangular parallelepiped shape made of stainless steel, and has a handle 81 fixed to the upper surface thereof so as to be portable. In addition, the simple disinfecting apparatus 80 has a red lamp 82 and a green lamp 83 protruding from the front upper portion, similarly to the previous embodiment, and a switch 84 protruding therefrom. The red lamp 82 and the green lamp 83 are controlled by a CPU provided inside the upper portion of the simple sterilization apparatus 80, and the red lamp 82 is turned on at the start of the sterilization processing. When the sterilization process is completed, the red lamp 82 is turned off and the green lamp 83 is turned on.
The switch 84 is used to perform "ON" and "OFF" operations.
[0044]
A plurality of small-diameter holes are formed in the lower part of the front surface of the simple sterilization apparatus 80, and ventilation holes 80a and 80b formed in a mesh shape are provided on the left and right, and the ventilation hole 80b on the right side is a ventilation hole for ozone release. In addition, the left vent 80a is a vent that discharges air after decomposing the collected ozone.
[0045]
Further, as shown in FIG. 28, ventilation holes 80 c and 80 d formed in a mesh shape like the front surface are provided at the lower rear portion of the simple sterilization apparatus 80 so as to cover the ventilation holes 80 c and 80 d. The filter 85 is arranged at the bottom. The filter 85 is held by filter brackets 86 fixed above and below the ventilation holes 80c and 80d. The vent 80a and the vent 80c provided on the front surface of the simple sterilization apparatus 80 correspond to the same side, and the vents 80b and 80d correspond to the same side.
[0046]
Next, the internal configuration of the simple sterilization apparatus 80 will be described.
FIG. 29 is a front view showing the internal configuration of the simple sterilization apparatus, FIG. 30 is a plan view of the same, and FIG. 31 is a right side view.
As shown in FIG. 29, a partition plate 90 is provided upright at the center position in the left-right direction inside the simple sterilization apparatus 80, and an ozone stirring layer 91 is formed on the right side of the partition plate 90 and on the left side. An ozonolysis layer 92 is formed. Further, a top plate 93 is fixedly provided on the upper portion of the simple sterilization apparatus 80. An opening is formed in the top plate 93 on the right side on the ozone stirring layer 91 side, and an ozone generator 88 is arranged in accordance with the position of the opening. A CPU (not shown) is mounted on the top plate 93, and the CPU generates an ozone generator 88 and a fan 94 for the ozone stirring layer 91, a fan 98 for the ozone decomposition layer 92, and a red lamp 82. The control of the green lamp 83 and the like is performed.
Since the ozone stirring layer 91 and the ozone decomposition layer 92 are completely separated from each other by the partition plate 90 and the top plate 93, the gas in the ozone stirring layer 91 and the gas in the ozone decomposition layer 92 do not mix. It is.
[0047]
As shown in FIGS. 30 and 31, a stirring fan 94 is provided on the back side of the ozone stirring layer 91. The stirring fan 94 sucks air from the ventilation hole 80d on the back side, and the ozone generator The ozone generated at 88 is discharged from the vent 80b on the front surface.
An ozone decomposition catalyst 95 and a nitrogen oxide absorbent 96 are arranged on the back side of the ozone decomposition layer 92, and a suction fan 98 is provided in front of the ozone decomposition catalyst 95. Then, the outside air containing ozone is sucked into the ozone decomposition layer 92 from the vent hole 80c by the suction fan 98.
[0048]
In the simple disinfecting apparatus 80 configured as described above, when the switch 84 is turned “ON” and the start operation of the disinfecting process is performed, first, the stirring fan 94 in the ozone stirring layer 91 and the ozone generator 88 are connected. When activated, air is sucked through the vent hole 80d through the filter 85, and the ozone generated by the ozone generator 88 is agitated and discharged to the outside through the vent hole 80b. Then, the interior of the room where the simple disinfecting apparatus is installed is disinfected and deodorized. The sterilization processing time by the ozone stirring layer 91 is controlled by the CPU to 30 minutes or 60 minutes.
[0049]
After the lapse of the specified time, the stirring fan 94 of the ozone stirring layer 91 and the ozone generator 88 stop, and the suction fan 98 of the ozone decomposition layer 92 operates. Then, with the suction fan 94 of the ozone decomposition layer 92, outside air containing ozone is sucked into the inside of the ozone decomposition layer 92 through the ventilation hole 80 c through the filter 85, and the ozone decomposition catalyst 95 and the nitrogen oxide absorbent 96 Decomposes ozone and removes harmful gases. After that, clean air is discharged from the ventilation hole 80a. The ozone recovery processing time by the ozonolysis layer is performed for 10 minutes regardless of the sterilization processing time in the ozone stirring layer 91, and the apparatus is stopped.
[0050]
As described above, the simple disinfecting apparatus 80 is configured as a two-layer system including the ozone agitating layer 91 and the ozone decomposing layer 92, so that it is possible to generate and recover ozone only with the apparatus, and to be compact and portable. Therefore, if there is a sealable case, it is possible to remove bacteria in any place.
[0051]
In the sanitizing apparatus of the three embodiments described above, the ozone generator provided in each of the apparatuses can be replaced with an apparatus for generating a gas having various sterilizing actions. An example is a negative ion generator.
Negative ions do not have the bactericidal activity of ozone, but they have a bactericidal effect and have the effect of preventing air pollution and decomposing and deodorizing tobacco smoke and unpleasant odors.
[0052]
Next, as an example of use of the simple disinfecting apparatus 80, an example in which it is attached to a disinfecting container will be described.
FIG. 32 is a perspective view of the sterilization container.
The sanitizing container 100 shown in FIG. 32 has a rectangular bottom plate 101, four side frames 102, 102, 102, 102 vertically extending from four corners of the bottom plate 101, and the side frames 102, 102, 102. A body frame composed of a ceiling frame 103 connecting the upper ends of the two members 102 and 102 is covered with a sheet 106 formed of a material such as vinyl chloride.
[0053]
One of the bottom plate 101 and the side frame 102 of the main body frame is provided with a concave portion and the other has a convex portion protruding and fixed in a fitting manner so that it can be easily attached and detached. In addition, the connecting portion between the side frame 102 and the upper ceiling frame 103 is also provided with projections and depressions, and is configured to be fitted so that it can be easily removed. As described above, it is possible to easily carry and disassemble and assemble.
[0054]
The sheet 106 is covered around the main body frame configured as described above. The sheet 106 is formed in a rectangular parallelepiped so as to match the outer peripheral shape of the main body frame. Further, the front side (storage entrance side) of the sheet 106 is closed by a fastener, so that the work can be easily performed when storing the sterilization target in the sterilization container 100.
In addition, a pocket is provided on the front surface of the sheet 106 closed by the zipper, so that a memo or the like relating to a storage item can be stored.
[0055]
In the disinfecting container 100 configured as described above, the disinfecting device mounting table 108 is fixed to the ceiling frame 103, and the simple disinfecting device of the third embodiment is mounted on the disinfecting device mounting table 108. The ozone is mounted and the ozone is generated and collected. Since the disinfecting container is hermetically sealed by the main frame and the sheet 106, the ozone generated by the simple disinfecting device 80 does not flow out of the room, and the disinfecting treatment is strongly performed with high-concentration ozone. Can be performed.
The sterilization container 100 according to the present embodiment is designed to be easily sized to accommodate the wheelchair 105 as shown in FIG. 31. However, the size of the sterilization container is not limited to this. , A blood pressure meter, a cardiac output meter, a blood flow meter, a stethoscope, and other medical devices may be designed to be small.
[0056]
Next, a second embodiment of the sterilization container will be described.
FIG. 33 is a perspective view showing the entire configuration of the sterilization container of the second embodiment, and FIG. 34 is a schematic diagram showing the frame structure of the sterilization container of the second embodiment.
The simple sterilization chamber 110 according to the second embodiment includes a frame portion 111 which expands and contracts in an umbrella shape, and a sheet 112 covered by the frame portion 111. The simple sterilization chamber 110 is configured to be movable by providing a roller so that a large and hard-to-move thing such as the bed 200 can be sterilized, and is larger than the outer shape of the bed when the frame portion 111 is maximized. It is configured to be. Further, in order to form a closed space, a closed sheet 112b is provided so as to surround the lowermost portion of the open sheet 112.
[0057]
As shown in FIGS. 33 and 34, the frame portion 111 includes two rollers 113, 113 (FIG. 33) provided on both sides, front and rear frames 114, 114 for supporting the rollers, and two front and rear frames 114. · Three pipes 116 · 115 · 116 suspended in a substantially “U” shape by being suspended by 114 and two connecting bodies 122 · 122 suspended by the pipes 116 · 115 · 116 ing.
[0058]
A fixed pipe 115 disposed at the center of the three pipes is vertically fixed on the front and rear center upper surfaces of the front and rear frames 114, and a movable body slidable on the fixed pipe is provided on both feet of the fixed pipe 115. 120 are provided.
The moving pipes 116, 116 disposed on both sides of the fixed pipe 115 are rotatably supported by fulcrum bodies 119, 119 fixed on the front and rear sides of the front and rear frames 114, respectively. Moving bodies 121, 121 slidable on the moving pipes are also provided on both feet of the moving pipes 116, respectively.
A connecting body 122 is suspended from a moving body 120 slidably disposed on a fixed pipe 115 and a moving body 121 slidably disposed on a moving pipe 116. Both ends of the bodies 122 are rotatably supported by the moving body 120 and the moving bodies 121.
Further, a hook 123 for suspending the simple sterilization apparatus 80 is fixed to the ceiling of the fixed pipe 115. Alternatively, the moving body 120 can be fixed with a pin or the like.
[0059]
In the frame unit 111 configured as described above, when used as a sterilizer, the moving body 120 on the fixed pipe 115 is lowered. Then, the fixed pipe 115 side of the connecting bodies 122, 122 pivotally supported by the moving body 120 is lowered, and the opposite ends of the connecting bodies 122, 122 are pushed outward to move the moving body on the moving pipe 116 side. While moving 121 outward, the moving pipe 116 falls outward and opens like an umbrella.
When storing the opened moving pipes 116, the moving body 120 on the fixed pipe 115 side is lifted upward. Then, the moving pipes 116 return to the vertical position in the reverse procedure to the case of opening in an umbrella shape as described above.
[0060]
Then, the sheet 112 is coated on the frame portion 111 configured as described above. The skirt of the sheet 112 is formed long so that there is no gap when the sheet 112 is put on the frame 111.
In addition, a window 112a is provided at an upper position of the sheet 112 in a state where the sheet 112 is covered by the frame 111, and the simple sterilization apparatus 80 in the sterilization container 110 is operating, or It is possible to check whether the sheet is stopped without opening the sheet 112.
[0061]
As described above, since the sterilization container 110 is configured, even if the bed 200 or the like is difficult to move, it can be sterilized on the spot. In addition, since it is folded and shrunk to a small size and can be moved by the rollers 113 and 113, it is moved to a sick room as needed, and sterilization / sterilization processing is performed by forming a sterilization container, and after completion, It can be moved to other places, and is particularly effective for sterilization / sterilization treatment in places where space is limited, such as hospital rooms.
[0062]
【The invention's effect】
The present invention is configured as described above, and has the following effects.
[0063]
That is, as shown in claim 1, an ozone stirring layer for supplying and stirring the ozone generated by the ozone generator into the room by a stirring fan, a member for decomposing ozone after the sterilization treatment, and a suction fan A sterilizer having an ozone decomposing layer equipped with the ozone decomposing device, wherein the ozone stirring layer and the ozone decomposing layer are provided in a separate layer by a partition provided in a case of the sterilizer,
The ozone agitating layer increases the ozone concentration, enabling strong sterilization and deodorization, and the ozone decomposing layer can decompose ozone and nitrogen oxides and release it as oxygen, thus releasing high-concentration ozone for a short time. And can be reliably recovered and decomposed, and there is no concern about residual ozone.
[0064]
As described in claim 2, the sterilization apparatus includes a control device for executing a series of operation modes including an ozone stirring operation mode and an ozonolysis operation mode, and the control device has a preset operation time. After the elapse of, the operation of the sterilizer is automatically stopped,
The operation of the disinfection and sterilization treatment is easy for anyone who uses the apparatus and can be used without malfunction.
[0065]
As shown in claim 3, a disinfection container provided with the disinfection device according to any one of claims 1 and 2, wherein the disinfection container is a sealed container for accommodating an article to be disinfected. Because it forms a space,
Odors peculiar to ozone and problems such as adverse effects on the human body due to residual ozone do not occur, and it is possible to reliably disinfect and sterilize articles to be disinfected in an environment of high concentration ozone.
[0066]
As shown in claim 4, the disinfecting container is composed of a disassembleable or foldable frame, and a sheet covering the frame, and can be disassembled or folded as necessary.
Even in a place where space is limited, such as a hospital room, a disinfection / sterilization treatment can be performed by forming a disinfection container as needed.
[0067]
As shown in claim 5, the ozone generator is configured to be able to generate a gas having various sterilizing effects,
The gas generated corresponding to the article to be sterilized can be changed. In particular, by generating negative ions in indoor disinfection, it is possible to remove harmful substances such as formaldehyde generated by vaporization from new building materials together with indoor disinfection.
[Brief description of the drawings]
FIG. 1 is a perspective view showing the overall configuration of a sterilization apparatus according to one embodiment of the present invention.
FIG. 2 is a perspective view showing an internal configuration of a sterilization container.
FIG. 3 is a front view of the same.
FIG. 4 is a right side view of the same.
FIG. 5 is a left side view of the same.
FIG. 6 is a plan view of the same.
FIG. 7 is a bottom view of the same.
FIG. 8 is a rear view of the same.
FIG. 9 is an enlarged top view of the sterilization container showing the operation display unit.
FIG. 10 is a plan view of a remote control main body.
FIG. 11
FIG. 3 is an upper cross-sectional view of the sterilization container showing the configuration of the sterilization apparatus.
FIG. 12 is a perspective view showing the overall configuration of the indoor sanitizing apparatus of the second embodiment.
FIG. 13 is a front view of the indoor disinfecting apparatus.
FIG. 14 is a right side view of the same.
FIG. 15 is a left side view of the same.
FIG. 16 is a plan view of the same.
FIG. 17 is a bottom view of the same.
FIG. 18 is a rear view of the same.
FIG. 19 is a plan view of a remote control main body.
FIG. 20 is a plan view showing the internal configuration of the indoor sanitizing apparatus.
FIG. 21 is a side sectional view of the same.
FIG. 22 is a perspective view showing the entire configuration of the simple sterilization apparatus of the third embodiment.
FIG. 23 is a front view of the simple sterilization apparatus.
FIG. 24 is a right side view of the same.
FIG. 25 is a left side view of the same.
FIG. 26 is a plan view of the same.
FIG. 27 is a bottom view of the same.
FIG. 28 is a rear view of the same.
FIG. 29 is a front view showing the internal configuration of the simple sterilization apparatus.
FIG. 30 is a plan view of the same.
FIG. 31 is a right side view of the same.
FIG. 32 is a perspective view of a sterilization container.
FIG. 33 is a perspective view showing the entire configuration of the sterilization container of the second embodiment.
FIG. 34 is a schematic view showing a frame structure of a sterilization container of the second embodiment.
[Explanation of symbols]
31 Partition
32 Ozone stirring layer
33 Ozone decomposition layer
34 Ozone generator
36 Stirring fan
37 Ozone decomposition catalyst
38 Nitrogen oxide absorbent
39 suction fan

Claims (5)

It has an ozone agitating layer for supplying and agitating ozone generated by an ozone generator into a room with an agitating fan, and an ozone decomposing layer containing a member for decomposing ozone after sterilization and a suction fan. A sterilizing apparatus, wherein the ozone stirring layer and the ozone decomposing layer are provided in separate layers separated by a partition provided in a case of the sterilizing apparatus. The sterilization apparatus includes a control device for executing a series of operation modes including an ozone agitation operation mode and an ozonolysis operation mode, and the control device automatically performs after a lapse of a preset operation time. The disinfection device according to claim 1, wherein the operation of the disinfection device is stopped. It is a disinfection container provided with the disinfection device according to any one of claims 1 and 2, wherein the disinfection container forms a closed space for accommodating the articles to be disinfected. A disinfection container equipped with a disinfection device characterized by the above. The disinfecting container according to claim 3, wherein the disinfecting container includes a disassembleable or foldable frame and a sheet covering the frame, and is disassembled or foldable as necessary. Container. 3. The sterilization apparatus according to claim 1, wherein the ozone generator is configured to generate a gas having various germicidal effects. 4.

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