JPH0759497A - Gas-insecticidal method and apparatus therefor - Google Patents

Abstract

PURPOSE:To apply a ready and safe insecticidal treatment to an insecticidal object by constructing an air-tight tent, etc., for accommodating the insecticidal object, supplying a mixture gas containing a specified ratio of gaseous carbon dioxide and ozone gas thereto and utilizing its high insecticidal effect ad deodorizing effect. CONSTITUTION:An air-tight tent 8, etc., is constructed for accommodating an insecticidal object such as a house 15. Carbon dioxide gas from a carbon dioxide gas cylinder 4 and ozone gas generated by an ozone gas generator 3 are mixed in a mixing box while detecting the concentrations of the respective gases by gas concentration sensors 11 and 12, controlling a valve 10 and an electromagnetic valve 13 by their electrical signals and keeping the mixture ratio of carbon dioxide gas to ozone gas within a range of 3:1 to 1:3. The resultant mixture gas is subsequently supplied to the tent 8, etc., and the waste mixture gas is then allowed to pass through an active carbon tank 16 and an edible salt water tank 17 in order and subsequently discharged into the outside air. This method enables application of a safe and ready insecticidal treatment to an insecticidal object by a high insecticidal effect and a high deodorizing effect.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas insecticidal method and apparatus for insecticidal objects. Here, the insecticidal object means a house, a vehicle interior, a cabin of a ship, a grain warehouse, an operating room of a hospital, a tatami mat, or the like that requires insecticidal treatment.

[0002]

2. Description of the Related Art In a conventional insecticidal method, for example, as an extermination of termites, an insecticide is injected or applied to wood such as the base of a house. In addition, ultraviolet rays are radiated to control the worms in the grain warehouse. In addition, insecticide is sprayed in the form of mist or smoke to combat cockroaches and mites.

[0003]

[Problems to be Solved by the Invention] Conventional insecticidal methods have used insecticides. Therefore, for example, the work of exterminating termites takes a lot of time and labor.
When cockroaches and mites were eliminated, a very strong odor was generated, which was a problem. Then, the chemical composition of the insecticide impairs health and causes discoloration in a part of the house. In addition, the irradiation of UV rays for the control of larvae was not very effective. Therefore, the present invention does not use an insecticide, does not require much labor and manpower, has no odor, and has a more effective insecticidal effect. Moreover, the present invention is a safe invention for health.

[0004]

In order to achieve the above object, the gas insecticidal method according to the first aspect of the invention comprises assembling an airtight tent for accommodating an insecticidal object, and mixing carbon dioxide gas and ozone gas. By supplying a mixed gas of ozone gas and carbon dioxide having a ratio in the range of 3: 1 to 1: 3, the insecticidal target is insecticidally treated. Furthermore, after the insecticidal treatment, ozone gas and carbon dioxide gas are decomposed. And the gas insecticidal device of the second invention is a gas-tight tent for housing the insecticidal object, a gas supply device for supplying a mixed gas of ozone gas and carbon dioxide gas, and a mixture of carbon dioxide gas and ozone gas. The gas control device maintains the ratio in the range of 3: 1 to 1: 3. Further, after the insecticidal treatment, it has a structure having an activated carbon tank for decomposing ozone gas and a water tank for decomposing carbon dioxide gas. The gas insecticidal method according to the third aspect of the present invention comprises placing the insecticidal object in an airtight container, and mixing the ozone gas and the carbon dioxide gas in a mixture ratio of carbon dioxide gas to ozone gas of 3: 1 to 1: 3. By filling and sealing the mixed gas, the insecticidal target is insecticidally treated. Furthermore, the gas insecticidal device of the fourth aspect of the present invention includes an airtight container, a gas supply device for supplying a mixed gas of ozone gas and carbon dioxide gas,
The gas control device maintains the mixing ratio of carbon dioxide gas to ozone gas in the range of 3: 1 to 1: 3. Moreover, you may attach the gas insecticidal device of this invention to the bed of a truck.

[0005]

The gas insecticidal method and apparatus of the present invention having the above-described structure are constructed by mixing ozone gas and carbon dioxide gas at various ratios,
By keeping the ratio constant, a synergistic effect is obtained with the action of carbon dioxide to make insects suffocate and the action of ozone gas to destroy the cells of the internal organs of the insects.
Carbon dioxide, which is an inert gas, has the property of causing insects to suffocate, and also has the property that the effect extends to the body of insects. So, with ozone gas,
Although only the surface of the insect can act, the carbon dioxide gas causes ozone gas to reach the insect's body and destroy the cells of the internal organs of the insect. Further, after insecticidal treatment, ozone gas is decomposed into oxygen by activated carbon and carbon dioxide gas is decomposed into sodium carbonate by a water tank. Further, the method and apparatus for gas insecticidal in a packaging container of the present invention is a packaging container that does not have gas permeability, utilizing the gas insecticidal method described above. By filling and sealing the mixed gas with, it is possible to perform insecticidal treatment on the insecticidal object. Furthermore, by mounting the insecticidal device of the present invention on the bed of a truck, the transfer of the device is facilitated.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIG. 1. First, 1 is a gas supply device and 2 is a gas control device. The gas supply device 1 is provided with an ozone gas generator 3 and a carbon dioxide gas cylinder 4, gas supply pipes 5 and 6 are connected to the ozone gas generator 3 and the carbon dioxide gas cylinder 4, and the tip of each gas supply pipe 5 and 6 is a mixing box. A gas supply pipe 9 is connected between the mixing box 7 and the tent 8 having airtightness. 10 is a carbon dioxide gas cylinder 4
Is a stop valve attached to. The gas control device 2 is for maintaining the mixing ratio of the ozone gas and the carbon dioxide gas supplied from the gas supply device 1 into the mixing box 7 at a constant ratio, and the two gas concentration sensors 11, 1
2 and the solenoid valve 13 are connected to the control panel 14. Each of the gas concentration sensors 11 and 12 has a mixing box 7
The ozone gas concentration and the carbon dioxide gas concentration are detected, and the detected values are sent to the control panel 14 as electric signals, which are mounted on the ceiling surface in the mixing box 7.
The solenoid valve 13 opens and closes the gas supply pipe 5 of the carbon dioxide gas cylinder 4, and is provided in the middle of the gas supply pipe 5. The control panel 14 is also connected to the ozone gas generator 3,
Upon receiving electrical signals from the gas concentration sensors 11 and 12,
The operation of the ozone gas generator 3 and the opening / closing of the solenoid valve 13 are automatically controlled.

In order to perform insecticidal treatment of the entire house according to the present invention having the above-mentioned structure, an airtight tent 8 for covering the house 15 is assembled, and ozone gas and carbon dioxide gas are introduced into the tent 8 from the ozone gas generator 3 and the carbon dioxide gas cylinder 4, respectively. Blow in.
At that time, the control panel 14 controls the gas concentration sensors 11 and 12
Receives an electric signal of the concentration of each gas in the mixing box 7, controls the ozone gas generator 3 and the electromagnetic valve 13, and maintains the mixing ratio of each gas at a constant ratio. In the tent 8, due to carbon dioxide, insects such as white ants lurking in the base of the house 15, pillars, etc., cockroaches lurking in the whole house 15 become suffocated due to lack of oxygen, and become a carrier of carbon dioxide. Depending on the sex, ozone gas destroys the internal organs of insects such as termites and cockroaches and kills them. After the insecticidal treatment, the ozone gas and the carbon dioxide gas in the tent 8 are not directly discharged to the outside air, but are first passed through the activated carbon tank 16 to decompose the ozone gas into oxygen, and then the water tank may be used. The carbon dioxide gas is decomposed into sodium carbonate by passing it through the air, and is exposed to the outside air.

Another embodiment of the present invention will be described with reference to FIG. 2. Reference numeral 21 is a gas supply device and 22 is a gas control device. The gas supply device 21 includes an ozone gas generator 23 and a carbon dioxide gas cylinder 24. Gas supply pipes 25 and 26 are connected to the ozone gas generator 23 and the carbon dioxide gas cylinder 24, and the tips of the gas supply pipes 25 and 26 are mixed boxes. A gas supply pipe 29 is connected between the mixing box 27 and the airtight packaging container 28. A stop valve 30 is attached to the carbon dioxide gas cylinder 24. The gas control device 22 is the gas supply device 2
The gas concentration sensors 31 and 32 and the solenoid valve 33 are connected to the control panel 34 in order to maintain the mixing ratio of ozone gas and carbon dioxide gas supplied from 1 to the mixing box 27 at a constant ratio. Become. Each gas concentration sensor 3
Reference numerals 1 and 32 respectively detect the concentrations of ozone gas and carbon dioxide gas in the mixing box 27 and send the detected values to the control panel 34 as electric signals, and are attached to the ceiling surface in the mixing box 27. The solenoid valve 33 is
The gas supply pipe 25 of the carbon dioxide gas cylinder 24 is opened and closed, and is provided in the middle of the gas supply pipe 25. The control panel 34 is also connected to the ozone gas generator 23, and receives an electric signal from the gas concentration sensors 31 and 32 to automatically control the operation of the ozone gas generator 23 and the opening / closing of the solenoid valve 33.

According to another embodiment, in order to perform insecticidal treatment on tatami mats and futons, a tatami mat 35 is placed in an airtight packaging container 28, and ozone gas and carbon dioxide gas are respectively supplied from the ozone gas generator 23 and the carbon dioxide gas cylinder 24 to the packaging container 28. Blow in. At that time, the control panel 34 uses the gas concentration sensor 31,
An electric signal of the concentration of each gas in the mixing box 27 is received from 32, and the ozone gas generator 23 and the solenoid valve 3 are received.
3 is controlled and the mixing ratio of each gas is maintained at a constant ratio. In the packaging container 28, due to carbon dioxide gas, insects such as mites lurking in the tatami mat 35 become dull due to lack of oxygen, and when in a suffocation state, insects such as mites lurking in 35 become sluggish due to lack of oxygen. Ozone gas destroys the internal organs of insects such as mites and kills insects due to the carrier property of carbon dioxide gas as well as suffocation.

Further, as another embodiment, when a tent is not necessary, for example, when a car, a bus, a passenger car, or a warehouse, a cabin, a hospital operating room, etc. are subjected to insecticidal treatment, gas is supplied to the inside or inside the car. Insert the tube and perform. A cooler vent may also be used. Moreover, when the insecticidal device is mounted on a truck, the insecticidal device of the present invention can be moved.

[0011]

[Table 1]

In the above table, the ratio between ozone gas and carbon dioxide gas will be explained based on the test of the insecticidal effect according to the present invention conducted by the inventor. The test method is diameter 15
cm, height of 35 cm in a cylindrical closed container, put three pieces of wood with hundreds of termites attached, and fill the container with a mixed gas of ozone gas and carbon dioxide at a ratio of 1: 1 for 3 hours,
As a result of leaving it sealed, all termites died. The ratio of ozone gas to carbon dioxide gas is 1 to 3 to 3 to 1.
Up to, there was an insecticidal effect. The insecticidal state is indicated by a circle when all of them are killed within 5 hours, and the triangle indicates that the insecticidal state is almost killed.

[0013]

As described above, since the peculiar effect of the present invention is to kill insects by using the mixed gas of ozone gas and carbon dioxide gas, not only the insects in the tent but also in the car such as a train or in the grain warehouse. The insecticidal effect in the packaging container is extremely high, which enables perfect insecticidal effect and the deodorant effect is also great. Moreover, the insecticidal work is extremely easy. Furthermore, since no chemicals are used, there is no unpleasant odor after insecticide,
It is safe from a health point of view and can be expected to spread as an insecticidal method and an insecticidal device.

[Brief description of drawings]

FIG. 1 is an overall view of an embodiment of an insecticidal device.

FIG. 2 is an overall view of another embodiment.

[Explanation of symbols]

 1, 21 ... Gas supply device 2, 22 ... Gas control device 3, 23 ... Ozone gas generator 4, 24 ... Carbon dioxide cylinder 7, 27 ... Mixing box 8 ... Tent 28. ..Packaging container 13, 33 ... Solenoid valve 16 ... Activated carbon tank 17 ... Salt water tank

Claims (7)

[Claims] 1. An airtight tent or the like for housing an insecticide target is assembled, and ozone gas and carbon dioxide having a mixture ratio of carbon dioxide gas to ozone gas in the range of 3: 1 to 1: 3 are assembled in the tent. A gas insecticidal method, which comprises subjecting an insecticidal object to insecticidal treatment by supplying a mixed gas with a gas. 2. A tent or the like having an airtightness for accommodating an insecticidal object, a gas supply device for supplying a mixed gas of ozone gas and carbon dioxide gas to the tent and the like, and a mixture ratio of carbon dioxide gas to ozone gas being 3 pairs. A gas insecticidal device comprising: a gas control device for maintaining a range of 1 to 1: 3. 3. The gas insecticidal method according to claim 1, wherein ozone gas and carbon dioxide gas are decomposed after the insecticidal treatment. 4. The gas insecticidal device according to claim 2, further comprising an activated carbon tank for decomposing ozone gas and a water tank for decomposing carbon dioxide gas after the insecticidal treatment. 5. The insecticidal object is put in an airtight container and the mixture ratio of carbon dioxide gas to ozone gas is from 3: 1 to 1: 3.
A gas insecticidal method, which comprises performing insecticidal treatment on an insecticidal object by filling and sealing a mixed gas of ozone gas and carbon dioxide gas in the range up to. 6. A gas-tight container, a gas supply device for supplying a mixed gas of ozone gas and carbon dioxide gas, and a gas for maintaining the mixing ratio of carbon dioxide gas to ozone gas in the range of 3: 1 to 1: 3. A gas insecticidal device comprising a control device. 7. The gas insecticidal device according to claim 2, 4 or 6, which is mounted on a bed of a truck.