JP2003038079A - Transpiring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make arrival diffusion distance of an agent transpired by the air from a blower based on the size of the blower larger. SOLUTION: This transpiring device is obtained by forming a hollow- cylindrical and air-permeable structural part whose peripheral side has air permeable structure, packing an agent-carrying body into the air-permeable structural part to form an agent container 2 and connecting a suction side of a fan device 1 onto one end side of the agent container 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vaporizer for vaporizing a drug by allowing air to pass through a drug carrier impregnated with a vaporizable drug.

[0002]

2. Description of the Related Art Evaporators of this type are widely known, for example, those disclosed in the full text of Japanese Utility Model Laid-Open No. 2-116452. In this conventional one, a cylindrical container having a hollow central part is divided into several parts in the circular direction by partition walls, and ventilation holes are provided on the inner surface and the outer surface of every other partition, and different chemical agents are provided for each. A granular drug carrier impregnated with is put in, and this cylindrical container has a double cylindrical structure in which the cylindrical container is brought into close contact with each of the inner diameter and the outer diameter of the cylindrical container. Both are set in an outer container provided with a ventilation port that matches the width of the ventilation hole of one section of the above-mentioned cylindrical container, and the cylindrical container is rotated, and one section of this is set in the outer container. By adjusting the position of the ventilation port, the air supplied from the inner side of the inner cylinder of the outer container is blown outward through the inside of the compartment of the cylindrical container, whereby the air is stored in the compartment of the cylindrical container. The drug is evaporated from the drug carrier and diffused outward. .

[0003]

In the conventional vaporizer described above, air is supplied from the inside to the outside of the cylindrical container accommodating the drug carrier, and after passing between the drug carriers. Since it is designed to be discharged to the outside, the air blown from the inside of the outer container is weakened in its force while passing between the drug carriers, so that the air released to the outside of the inner container is The momentum is weak, and the arrival distance of the air containing the transpiration agent must be shortened, and in order to compensate for this, the amount of air blown by the fan provided in the external container must be increased,
This causes a problem of increasing the size of the device.

On the other hand, in the conventional vaporizer described above, the type of vaporized drug can be changed by rotating the cylindrical container, but the amount of the drug carrier to be stored in each section is fixed. Therefore, the specifications such as the application space and the effective period of use are limited, and it is not possible to use the specifications in different states.

The present invention has been made in view of the above circumstances, and it is possible to increase the diffusion reach distance of a chemical vaporized by the wind from the blower with respect to the size of the blower, and to apply the application space. It is also an object of the present invention to provide a vaporizer in which specifications such as the effective period of use can be arbitrarily changed as needed.

[0006]

In order to achieve the above object, the vaporizer according to the present invention has a hollow cylindrical shape and its peripheral side surface has an air permeable structure, and the drug carrying is carried on the air permeable structure portion. The body is filled to form a medicine container, and the suction side of the fan device is connected to one end side of the medicine container.

[0007] The opening ratio of the breathable portion of the vaporizer is 30 to 90%, the fan device side end of the drug container is made non-breathable, and the drug containers can be sequentially connected. And a packing material such as sponge, rubber, O-ring, etc. was interposed between the connecting portions.

[0008]

[Operation] The drug vapor in the drug container is sucked by the suction air of the fan device, and this drug vapor is blown out of the fan device directly by the fan of the fan device. At this time, the outer periphery of the fan device side end of the drug container is made non-air-permeable even if the drug carrier is pressed against the upper end of the drug container filled with the drug carrier in the drug container to leave a gap. Therefore, air is not sucked into the space from the outside.

[0009]

1 and 2 show a first embodiment of the present invention. In the drawings, 1 is a fan unit, and 2 is a removably connectable unit to the fan unit 1. It is a medicine container.

The fan unit 1 has a cylindrical body 3 with one end open.
And a lid 3a that releasably closes the open side of the cylindrical body 3.
Necessary members for blowing air, such as the fan 4, the motor 5 and the battery 6, are housed in a frame composed of. The bottom plate of the cylindrical body 3 is provided with a cylindrical suction cylinder 7. A duct 8 is provided which extends from the suction cylinder 7 to the opening of the cylindrical body 3, and a fan 4 is connected to the drive shaft of the motor 5 in the duct 8. The fan device 1 has a structure in which the fan 4 is rotated by a motor 5 so that air is sucked from a suction cylinder 7.

A large number of ventilation holes 9 are provided in the lid 3a. The motor 5 is attached to the central portion of the lid 3a, and the battery 6 is arranged outside the duct 8 so as to be engaged and held by closing the lid 3a. The arrangement and engagement are not limited to those shown in the drawing, and can be arbitrarily designed.

The medicine container 2 has a double-cylinder shape, and the upper end side of the medicine container 2 is attached to a top plate 11 having an opening cylinder 10 at the center thereof which is removably fitted into the suction cylinder 7 of the fan unit 1. It is closed. Further, the lower end is closed by a bottom plate 12 so as to be disengageable. A large number of ventilation holes 15 are provided in the inner wall 13 and the outer wall 14, and a drug carrier 16 impregnated with a drug is housed inside the vent holes 15. A packing 17 such as sponge or rubber as an airtight device is interposed between the bottom plate of the fan device 1 and the top plate 11 of the drug container 2.

FIG. 3 shows a modified example of the first embodiment, in which the fan device 1 and the drug container 2 are connected to each other through an O-ring 18 between the suction cylinder 7 and the opening cylinder 10. And are engaged. And in this example, it is blind over the width w of the upper end of the outer wall 14 of the drug container 2,
There is no breathability in this part. This portion may have a structure in which a non-breathable tape is wrapped around the outer circumference.

As described above, by providing a non-breathable portion on the upper end of the side surface of the breathable portion of the medicine container 2 in advance, even if a gap is generated at the upper end of the medicine container 2 during use, the medicine is not removed. An air flow that passes through a portion where the carrier 16 is absent is not generated, and it is possible to prevent the generation of an unnecessary air flow. If the width w of the non-breathable portion is 2 to 20 mm, the object can be sufficiently achieved.

FIG. 4 shows a second embodiment of the present invention, in which the drug container 2 is composed of a plurality of containers 2a, 2b, 2c. The containers 2a, 2b, 2c have the same structure and can be connected to the fan device 1 in series in an arbitrary number.

Each of the containers 2a, 2b, 2c has a double structure of an inner wall 13a and an outer wall 14a which are breathable.
The top plate 11a is provided with an opening cylinder 10a which is removably fitted to the suction cylinder 7 of the fan device 1, and the bottom plate 12a is provided with an opening cylinder 20 which is removably fitted to the upper opening cylinder 10a. A granular drug carrier 16 is filled in the interior of each. Reference numeral 21 denotes an opening cylinder 20 of the container 2c located at the bottom end.
Is a lid that closes.

Examples of the chemicals to be impregnated in the chemical carrier 16 are pest control agents, deodorants, fragrances, antibacterial and antifungal agents, and the like.
Both of them have transpiration property when exposed to wind. And, for example, the following can be exemplified as these.

(Pest control agent) Pyrethroid insecticide: allethrin, dl.d-T80-allethrin, dl.d-
T-allethrin, d.d-T-allethrin, d.d-T
80-praletrin, resmethrin, dl.d-T80
-Resmethrin, Empentrin, Terrarethrin, Transfluthrin, Flamethrin, Phenothrin, Etofenprox, Tefluthrin, Fenfluthrin, etc.

In addition to these, pyriproxyfen, methoprene, hydroprene, phenoxycalp, etc. are used as pest growth control agents, and diet, dimethyl phthalate, dibutyl phthalate, 2-ethyl-pest repellents.
1,3-hexanediol, p-dichlorobenzene, capric acid diethylamide, camphor, etc. are further added to functional natural essential oils such as anise oil, orange oil, cassia oil, grapefruit oil, perilla oil, clove oil, citronella oil, Examples include cinnamon oil, peppermint oil, hiba oil, cypress oil, peppermint oil, eucalyptus oil, lemongrass oil, geranium oil, and fennel oil.

(Deodorant) Citronella oil, lemongrass oil, bornyl acetate, methyl benzoate, ethyl benzoate, ethyl phenylacetate and the like.

(Fragrance) Natural fragrance of animal or plant origin, or artificial fragrance such as hydrocarbon, alcohol, aldehyde, ketone, lactone, oxide or ester.

(Antibacterial and antifungal agent) Ethyl alcohol, isopropyl alcohol, phenol, thymol, o-phenylphenol, hinokitiazole and the like.

Further, a drug carrier 16 carrying the above drug
Any material can be used as long as it can carry these drugs. Examples include cellulosic (pulp), inorganic minerals (zeolite, etc.), resins and the like.

The shape of the drug carrier 16 is not limited as long as it does not fall out from the ventilation hole 15 of the drug container 2 and can ensure the air permeability. Examples thereof include thread-like, fiber-like, sheet-like material folded, granular, and pellet-like. And if it is granular, the diameter is 2 to 15 mm
Is preferable, and more preferably 3 to 10 mm. 2m
If it is smaller than m, it may fall off from the ventilation hole 15, and if it is densely packed, the air permeability will deteriorate.
When it is larger than 15 mm, not only the filling efficiency into the medicine container 2 is deteriorated, but also the specific surface area is reduced and the efficiency of the evaporation of the medicine is deteriorated.

On the other hand, the size of the medicine container 2 for accommodating the medicine carrier 16 has an outer diameter of 5 to 5 for the purpose of providing a compact device by taking advantage of the high evaporation efficiency which is a characteristic of the present invention. A size of 20 cm, an inner diameter of 2 to 18 cm, and a height of 2 to 40 cm is suitable. In the third embodiment described above, the containers 2a, 2b, 2c ... Which are divided into a plurality of sizes within this height range are used.

The ratio of the inner wall surface area (fan suction side) of the drug container 2 to the outer wall surface area (outside air introduction side) is:
25 to 95% is preferable, and 35 to 85% is more preferable.
Is. If this value is 25% or less, the resistance of the fan suction to the introduction of the outside air is too large and it is not efficient. Again 95
% Or more, the inner diameter becomes large, and the volume for accommodating the drug carrier 16 in the entire drug container 2 becomes small,
Not efficient.

Further, the ratio of the outer diameter D of the medicine container 2 to the height H is preferably in the range of D: H = 3: 1 to 1: 3. If it deviates significantly from this, the variation of the ventilation amount at each site becomes too large, and as a result, the efficient evaporation of the drug cannot be performed.

The constituent material of the drug container 2 may be of any kind such as metal, synthetic resin, paper or cloth for the breathable portion, but synthetic resin is preferable from the viewpoint of economy and ease of molding, among others. Polyolefin, polyethylene terephthalate (PET) and the like are preferable from the viewpoint of chemical resistance to the contents. Further, the shape of the ventilation holes 15 may be, for example, a net shape, a lattice shape, or various pattern removal.

The opening ratio (area) of the breathable portion is preferably 30 to 90%, more preferably 40 to 90%.
80%. If it exceeds 90%, the strength of the hollow body itself may not be maintained, foreign matter may enter, and the contents may spill out. Also, the aperture ratio is 30%
If it is lower than the above range, not only will the ventilation be obstructed and energy will be lost, but also the weight of the medicine container 2 will increase, which is not economical.

As the power source of the fan device 1, an example using the battery 6 is shown in each of the above-mentioned embodiments.
Any power source that can drive the motor 5, such as a DC power source, may be used. In terms of utilizing the high evaporation efficiency, which is a characteristic of the present invention, D using nickel cadmium, lithium, hydrogen rechargeable battery, solar battery, etc. in addition to alkaline and manganese dry batteries
A C power source is preferred.

The fan 4 of this apparatus is not limited as long as it has a blowing function. Examples include sirocco fans and propeller (axial flow) fans. In addition, although the selection of the motor according to the above-mentioned power supply and fan is arbitrary, the current consumption when the power supply, the fan and the motor are driven in combination is 5 to the point that the high efficiency of evaporation which is the characteristic of the present invention is utilized. About 300 mA is preferable.
If it is 5 mA or less, the blowing capacity is too weak, and if it is 300 mA or more, the power is consumed so much that the life of the dry battery is too short. Also, the air flow rate during driving depends on the application, but is 10-50.
0 L / min is efficient.

In the above structure, the motor 5 drives the fan 4
By driving, the air inside the inner wall 13 of the medicine container 2 closed by the bottom plate 12 and the lid 21 is sucked toward the fan device 1 side and is discharged from the lid body 4 to the outside. The sucked air from the medicine container 2 at this time is sucked from the outside of the outer wall 14 of the medicine container main body 2, and the medicine impregnated in the medicine carrier 16 housed in the medicine container 2 is evaporated during this time and the air is blown together with the fan. It is emitted and diffused from the device 1.

Example 1 In the vaporizer of the first embodiment shown in FIGS. 1 and 2, the inner wall 13 of the drug container 2 has a diameter of 40 mm, the outer wall 14 has a diameter of 80 mm, and a height of 80 m.
m, the inner diameter of the suction cylinder 7 is set to 30 mm, and
Both walls 13 and 14 were made of a wire mesh having an opening of 2 mm, and the container was filled with a granular drug carrier 16 impregnated with a vaporizable perfume. Further, the inner diameter of the connecting portion (suction port 7) with the fan device 1 was set to 30 mm. Fan 4 of fan device 1
Had a diameter of 30 mm and an air volume of 50 liters per minute. And this is 33m as a fragrance machine with a fan
It was operated in a room of ² (10 tsubo) for 4 months.

As a result, despite being a small fan, the fragrance permeates the entire room and retains an appropriate fragrance for three months or longer. In addition to a large space of 33 m ² , even a small fan evaporates aroma. I was able to demonstrate its function as a container.

(Embodiment 2) In Embodiment 2, the structure shown in FIG. 3, that is, the connecting portion between the fan device 1 and the medicine container 2 is connected to the suction cylinder 7, the opening cylinder 10 and the O-ring 18 between them.
And a blind cylindrical shape having no ventilation hole 15 over a predetermined width w from the upper end of the outer wall 14 of the drug container 2.

In the vaporizer shown in FIG. 3, the inner wall 13 of the medicine container 2 has a diameter of 40 mm and the outer wall 14 has a diameter of 80 m.
m, height 200 mm, and suction cylinder 7 inner diameter 30
mm and the blind portion of the upper end of the outer wall 14 is 15 m
The portion where m was left and the entire surface of the inner wall 13 were constituted by a metal mesh having an opening of 2.5 mm, and the container was filled with a granular drug carrier 16 impregnated with a transpiration-resistant insecticide. The fan 4 of the fan device 1 had a diameter of 30 mm and an air volume of 50 liters per minute. Then, this was operated as an insecticide with a fan in a room of 66 m ² (20 tsubo) continuously for 3 months.

As a result, despite being a small fan, the insecticidal effect spreads throughout the room, and the effect is 3
It lasted for months. At this time, the granular drug carrier 16 in the drug container 2 is 8 mm above the container due to vibration.
Space is created, but the upper part of the outer wall 14 of the container body 2 is
Since air was not inhaled from the portion having a width of 15 mm as a blind portion over the mm, there was no obstacle to the evaporation of the insecticide from the drug carrier 16 in the container.

(Embodiment 3) In the connected type vaporizer of the second embodiment shown in FIG. 4, the inner wall 13a of each container 2a, 2b, 2c is 30 mm, the outer wall 14a is 70 mm, and the height is 40.
mm, the inner diameter of the suction cylinder 7 of the fan device 1 is set to 25 mm, and both walls 13a and 14a of the container are opened by 2.5 m.
Each container 2a, 2b, 2c was filled with the drug carrier 16 by a wire mesh of m. The fan 4 used in the device 1 had a diameter of 25 mm and an air volume of 35 liters per minute.

In Example 3, it was confirmed that when only one container 2a was used as the drug container 2, the effect was obtained for a continuous month in a room of 16.5 m ² (5 tsubo).
And as the medicine container 2, two containers 2a and 2b are
In addition, when the duration effect when three containers 2a, 2b and 2c are connected and used is examined, it is 2 months for 2 connections and 3 months for 3 connections, showing a sustained effect proportional to the number of connected containers. Moreover, even if the number of containers was increased, the blowing performance of the fan device 1 did not change at all.

As can be confirmed in each of the above examples,
The intake side of the fan device 1 is connected to the opening cylinder of the drug container in which the drug carrier is filled in the air-permeable inner and outer walls, and the fan device 1 sucks the air passing between the drug carriers of the drug container 2. By diffusing this from the discharge side of the fan device 1 to the outside, it is a large room of 33 to 66 m ² , and even a small fan 4 can sufficiently exhibit its function as an evaporator. It turned out to be possible.

As described above, in the vaporizer according to the present invention, the fan device 1 sucks the air from the medicine container side and discharges it from the fan device. The effect of this suction type is confirmed. Therefore, the following experiment was compared with a so-called blow-out type in which the air blown from the fan device is reversed to the outside via the medicine container 2 by reversing the direction of the wind by the fan 4.

As the evaporator, the one shown in FIGS. 1 and 2 was used. The fan 4 has a wind speed of 1 m / s and an air volume of 50 L / s.
Minutes, the drug is transfluthrin 8%, the experiment place is the room 21 of 11 m × 6 m and the height of 2.5 m shown in FIG. 5, and the test sample is a net-like bag (10) containing 10 mosquitoes.
As shown in FIG. 5, (9) was arranged at a position of 1 m from the floor at a total of 9 positions in the lateral direction of the room 21 and 3 positions in the lateral direction of the center part. And the evaporator A is in room 2
At one end of No. 1, the air was blown toward the center of the room 21 in a room 1 m from the floor. At this time, the number of fallen rolls of Culex pipiens in each bag during the elapsed time (10 minutes to 130 minutes, every 10 minutes) was examined.

As a result, the fan device is made to be a suction type, and the blowing side of the fan device is arranged so as to face the room side.
The case where the air flows in the order of fan-blowing (the present invention) is shown in Table 1, and the case where the fan device is made to be the blowing type and the medicine container side is arranged toward the room side and the wind flows in the order of fan-medicine-blowing. It shows in Table 2.

In FIG. 5, the bags (1) to (3) are located within 1 m in front of the volatilizer, and the bags (4) to (6) are about 5 m and (7) to (9). The bag is about 10 meters away.

In Tables 1 and 2, the numbers of the Culex pipiens in the bags (1) to (3) close to the evaporator A are 30 to 4 in both cases.
At 0 minutes, all 10 fell and succumbed. And (4)-
As shown in Table 2, the bag of (6) is a balloon type, and it takes 120 minutes to 1 for all the Culex pipiens to fall and lie down.
It took 30 minutes, whereas in the suction type, as shown in Table 1, all dropped and laid down in 50 to 60 minutes. Further, in the bags of (7) to (9), as shown in Table 2 in the blow-out type, no fall and lie after 130 minutes, whereas in the suction type, in Table 1. As shown in (1), almost all Culex pipiens fell and lie down in 130 minutes.

[0046]

[Table 1]

[0047]

[Table 2]

[0048]

According to the present invention, since the air passing through the drug carrier in the drug container is sucked from the drug container by the fan device, and this air is directly discharged from the fan device to the outside, the vaporizer The force of the released air is stronger, so that the diffusion reach distance of the air containing the chemical vapor is increased, and the diffusion effect in a large room can be exhibited by the evaporator using the small fan.

Further, by making the outer periphery of the end portion on the fan device side of the drug container non-air permeable, even if a space is formed above the drug container filled with the drug carrier, air is sucked into this space. Is cut even in the above non-breathable part,
The effect of sucking the drug vapor from the drug container is not impaired by the space above the drug container.

Further, since the medicine container is composed of a plurality of connectable containers, the medicine capacity can be changed according to the use conditions and the medicine can be partially replaced.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a first embodiment of the present invention.

FIG. 2 is a plan view showing the first embodiment of the present invention.

FIG. 3 is a cross-sectional view showing another example of the first embodiment of the present invention.

FIG. 4 is a cross-sectional view showing a second embodiment of the present invention.

FIG. 5 is an explanatory diagram showing a state of an experiment in an experiment room.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Fan device, 2 ... Pharmaceutical container, 2a, 2b, 2c ... Container, 3 ... Cylindrical body, 3a ... Lid body, 4 ... Fan, 5 ... Motor, 6 ... Battery, 7 ... Suction cylinder, 8 ... Duct, 9 , 15 ... Ventilation holes 10, 10a, 20 ... Opening cylinder, 11, 11a ... Top plate, 12 ... Bottom plate, 13, 13a ... Inner wall, 14, 14a ...
Outer wall, 16 ... Drug carrier, 17 ... Packing, 18 ... 0 ring, 21 ... Lid.

Claims (5)

[Claims] 1. A hollow cylinder, the peripheral side surface of which is a breathable structure, a drug carrier is filled in this breathable structure portion to form a drug container, and a fan device is provided on one end side of this drug container. A vaporizer characterized in that the suction side of is connected. 2. The vaporizer according to claim 1, wherein the breathable portion of the drug container has an opening ratio of 30 to 90%. 3. The vaporizer according to claim 1, wherein an outer periphery of an end portion of the medicine container on the fan device side is made air-impermeable. 4. The vaporizer according to claim 1, wherein the medicine containers are a plurality of containers that can be sequentially connected. 5. The vaporizer according to claim 1, wherein a sponge, rubber, O-ring or other packing material is interposed in the connecting portion.