JP3763504B2 - Heated transpiration insecticide - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat transpiration insecticide that transpires a smoke insecticide through a heat generating agent that reacts with water to generate heat.
[0002]
[Prior art]
As this type of heat transpiration insecticide, there is a heat-resistant inner container in which a soot insecticide and a heat generating agent made of quicklime are stored vertically, and this inner container is stored in an outer container. At the time of use, the inner container is taken out from the outer container, a predetermined amount of water is put into the outer container, and then the inner container is put back into the outer container. Then, the exothermic agent reacts with the water entering from the water hole provided at the bottom of the inner container and generates heat, and the smoke insecticide evaporates by this heat and is released from the evaporating port provided on the upper surface of the inner container. It has become.
[0003]
[Problems to be solved by the invention]
However, when water is put into the outer container at the time of use, tap water is generally poured into a small cup and poured into the outer container until reaching a mark position indicating a constant amount of water marked on the inner surface of the container. Such a water supply method requires a lot of troublesome work such as the use of a small cup. In addition, too much or too little water may be added, which may cause the smoke insecticide to not fully evaporate.
[0004]
SUMMARY OF THE INVENTION An object of the present invention is to provide a heat transpiration insecticide that can save the user the trouble of putting water in an outer container.
[0005]
[Means for Solving the Problems]
As shown in FIG. 1, the heat transpiration insecticide of the present invention includes an outer container 1 and a heat-resistant inner container 4 accommodated in the outer container 1. The inner container 4 has a water passage hole 21 on the bottom surface and a transpiration port 22 on the upper surface side. The inner container 4 contains the smoke insecticide 2 and generates heat that reacts with water and heats the smoke insecticide 2 between the inner bottom surface of the inner container 4 and the smoke insecticide 2. Agent 3 is stored. In addition, a water supply container 5 is arranged and stored in a predetermined position in the outer container 1 so that the water contained therein flows out by being moved by receiving a manual operation force. A water channel 14 for guiding the outflow water from the water supply container 5 to the water passage hole 21 of the inner container 4 is provided.
[0006]
As shown in FIG. 1, as the water supply container 5, the water supply port 15 of the water supply container 5 is closed by a sealing material 16 that can be easily broken, and is stored in the outer container 1 with the water supply port 15 facing downward. When the water supply container 5 is pushed down manually at a predetermined position in the outer container 1, the sealing material 16 is pierced by the sharp protrusion 17 provided below the water supply container 5 in the outer container 1. Alternatively, as shown in FIG. 5, it is assumed that the water supply port 15 of the water supply container 5 is closed by a screwed lid 26, and the water supply container 5 is manually rotated to a predetermined position in the outer container 1 with the water supply port 15 facing downward. The screwed lid 26 can be fitted and held in a non-rotating manner on a lid holding portion 27 provided below the water supply container 5 in the outer container 1. Further, as shown in FIG. 6, the water supply port 15 on the lower surface of the water supply container 5 is closed with an integral molded lid 31 that can be twisted, and the water supply container 5 is placed inside the outer container 1 with the water supply port 15 facing downward. It is assumed that it is housed in a predetermined position so as to be rotatable by manual operation, and the integrally formed lid 31 is fitted and held in a non-rotating manner on a lid holding portion 32 provided below the water supply container 5 in the outer container 1. it can.
[0007]
[Action]
At the time of use, without taking out the water supply container 5 in the outer container 1, the water can be discharged out of the water supply container 5 by a simple operation of manually pushing in the stored state or rotating and moving it. . The effluent water is guided in the outer container 1 through the water channel 14 to the water passage hole 21 of the inner container 4, and the heat generating agent 3 reacts with the effluent water and generates heat. Then, the smoke insecticide 2 is heated by the exothermic agent 3 to become steam and diverges from the transpiration port 22.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
1 and 2 show a first embodiment of a heat-transpiration insecticidal device according to the present invention, wherein an outer container 1 contains an inner container 4 containing a soot insecticide 2 and a heat generating agent 3, and a water supply container. 5 is stored.
[0009]
The outer container 1 includes a plastic bottomed cylindrical container main body 6 whose upper surface is open, and a plastic lid 9 that is detachably attached to the upper end opening 7 of the container main body 6. The lid 9 is formed in an annular shape having a central opening 9a. The inside of the container body 6 is partitioned into a first storage chamber 11 of the inner container 4 and a second storage chamber 12 of the water supply container 5 through a partition wall 10, and a vertical notch 13 is formed in the partition wall 10. A water channel 14 is formed to communicate the inner bottom surfaces of the second storage chamber 12 and the first storage chamber 11.
[0010]
The water supply container 5 is plastic-molded into a relatively thin bottomed cylindrical shape having a water supply port 15, and the water supply port 15 is filled with an easily breakable sealing material 16 such as aluminum foil after containing a required amount of water inside. It is. This water supply container 5 is accommodated in a vertical posture in the second storage chamber 12 of the outer container 1 with the water supply port 15 facing downward. On the inner bottom surface of the second storage chamber 12, a sharp protrusion 17 such as a cone shape or a pyramid shape capable of breaking through the sealing material 16 is integrally projected upward.
[0011]
A flexible ridge 19 is formed on a part of the outer periphery of the water supply container 5, and the ridge 19 is provided between the upper end of the partition wall 10 and a step portion provided on the side wall of the container body 6 facing the partition wall 10. Place. Thus, the water supply container 5 is fixed stationary with a space slightly above the sharp protrusion 17 without the bottom-side sealing material 16 coming into contact with the sharp protrusion 17 in the stored state before use.
When the water supply container 5 is used, as shown by a two-dot chain line in FIG. 1, the flexible bottle 19 is pushed downward while being warped and deformed upward by sliding contact with the inner peripheral wall of the second storage chamber 12. 16 is broken by the sharp protrusion 17, and the water in the water supply container 5 flows out from the water supply port 15 onto the inner bottom surface of the second storage chamber 12. After breaking through the sealing material 16, even if the hand is released from the water supply container 5, the water supply container 5 can be restricted from being lifted by a frictional force generated between the inner peripheral wall of the second storage chamber 12 and the flange 19. The inner bottom surface of the second storage chamber 12 is formed to be inclined downward toward the water channel 14. As a result, the water flowing out from the water supply port 15 of the water supply container 5 flows down on the inclined inner bottom surface, quickly flows into the inner bottom of the first storage chamber 11 through the water channel 14, and accumulates.
[0012]
The inner container 4 is provided with a water passage hole 21 at the bottom of a bottomed cylindrical container body 20 made of a heat resistant material such as a metal material, a transpiration port 22 is provided on the upper surface thereof, and an exothermic agent such as quick lime on the inner bottom. 3 and a soot insecticide 2 composed of a mixture of a pyrethroid insecticide and an oxadiazole insecticide or the like is housed on the exothermic agent 3. Support ribs 23 are provided radially on the inner bottom surface of the first storage chamber 11, and the inner container 4 is accommodated in the first storage chamber 11 so as to be freely put in and out from above so as to be placed on the support rib 23. Thus, the outflow water from the water channel 14 easily flows between the bottom of the inner container 4 and the inner bottom surface of the first storage chamber 11. Before use, the entire inner container 4 is contained in a bag (not shown) such as a highly moisture-proof aluminum foil so that the exothermic agent 3 does not react with moisture in the air. In use, the inner container 4 is used after breaking the bag.
[0013]
The heat-transpiration insecticide having the above-described configuration is hermetically sealed in a state where the outer container 1 contains the inner container 4 and the water supply container 5 and is closed by the lid 9. The upward movement of the water supply container 5 is restricted by the lid 9. At the time of use, the outer packaging is removed, the lid 9 is removed from the outer container 1, the water supply container 5 is pushed downward, and the sealing material 16 is pierced by the sharp protrusion 17. Then, the water in the water supply container 5 flows out from the water supply port 15, accumulates by a predetermined amount on the inner bottom of the first storage chamber 11 through the water channel 14, and the bottom having the water passage hole 21 of the inner container 4 is submerged. After breaking through the sealing material 16, the lid 9 is put on the outer container 1 again. The exothermic agent 3 in the inner container 4 reacts with water entering from the water passage hole 21 to generate heat, and the soot insecticide 2 is heated, so that the soot insecticide 2 becomes vapor and becomes a transpiration port 22 and a lid 9. Diverges from the central opening 9a to the outside.
[0014]
(Second embodiment)
In the first embodiment, the flexible ridge 19 is formed to project from the upper and lower intermediate portions on the outer peripheral surface of the water supply container 5, but instead of this, in the second embodiment of FIG. 5 is formed so as to project from the upper end of the outer periphery of the wall 5, and the flange 19 is placed on the upper end of the partition wall 10. Other configurations are the same as those in the first embodiment. Also in the second embodiment, when used in the same manner as the first embodiment, the water supply container 5 pushes the flexible rod 19 downward while warping and deforming the flexible ridge 19 at the inner peripheral wall of the second storage chamber 12, The sealing material 16 of the water supply container 5 is pierced by the sharp protrusion 17, and the water in the water supply container 5 falls and flows out from the water supply port 15 onto the inner bottom surface of the second storage chamber 12.
[0015]
(Third embodiment)
FIG. 4 shows a third embodiment relating to the water supply container 5. In the third embodiment, flexible rods 19 and 19 having different diameters are formed to project outward from two locations on the outer peripheral surface of the water supply container 5. Then, the large-side ridge 19 on the upper stage is placed on the upper edge of the opening of the second storage chamber 12 formed with a step, and the small-diameter ridge 19 on the lower stage is placed on the upper and lower intermediate portions of the inner peripheral wall of the second storage chamber 12 It is placed on the provided step 24. Other configurations are the same as those of the first embodiment. Also in the third embodiment, when the water supply container 5 is used, the upper and lower ridges 19 and 19 are pushed downward while being warped and deformed by the inner peripheral wall of the second storage chamber 12, so that the sealing material 16 of the water supply container 5 is pushed. Is pierced by the sharp protrusion 17, and the water in the water supply container 5 falls and flows out from the water supply port 15 onto the inner bottom surface of the second storage chamber 12. After breaking through the sealing material 16, the water supply container 5 can be lifted by the frictional force generated between the upper and lower troughs 19 and 19 and the inner peripheral wall of the second storage chamber 12 even if the hand is released from the water supply container 5. Effective and reliable regulation.
[0016]
(Fourth embodiment)
FIG. 5 shows a fourth embodiment of the heat transpiration insecticide according to the present invention. The fourth embodiment is different from that of the first embodiment in the water supply container 5 and the lid opening method thereof, and the other configurations are the same as those of the first embodiment. That is, the water supply container 5 is formed in a relatively thin bottomed cylindrical shape having a water supply port 15. In the accommodated state, a rotary knob 25 is provided on the upper surface side, and the water supply port 15 at the lower end has a required amount of water inside. After being accommodated, the screw cap 26 is screwed into the male screw on the outer periphery of the water supply port 15 to close it. The water supply container 5 is accommodated in a vertical posture in the second storage chamber 12 of the outer container 1 with the water supply port 15 facing downward. On the inner bottom surface of the second storage chamber 12, a lid holding portion 27 having a concave portion 27a for fitting and holding the screwed lid 26 in a non-rotating manner is provided. A knurling 29 is provided on the outer periphery of the screwed lid 26, and an unevenness 30 that engages with the knurled 29 is provided on the inner periphery of the concave portion 27 a of the lid holding portion 27. The holding portion 27 is fitted and held in a non-rotating manner.
[0017]
Thus, the water supply container 5 accommodated in the outer container 1 has the knob 25 for rotation at the time of use, and rotates the whole water supply container 5 to the surroundings of a vertical axis center, and the screwing lid | cover 26 removes. With this opening, the water inside flows out from the water supply port 15 at the lower end of the water supply container 5, the exothermic agent 3 in the inner container 4 reacts with the outflow water to generate heat, and the smoke insecticide 2 is heated and evaporated. This is the same as in the first embodiment.
[0018]
(5th Example)
FIG. 6 shows a fifth embodiment of the heat transpiration insecticide according to the present invention. The fifth embodiment is different from that of the first embodiment in the water supply container 5 and its opening method, and the other configurations are the same as those in the first embodiment. That is, the water supply container 5 is formed in a relatively thin bottomed cylindrical shape having a water supply port 15, and in the accommodated state, a rotary knob 28 is provided on the outer periphery on the upper side, and the water supply port 15 stores a required amount of water inside. It is closed by an integrally formed lid 31 that can be twisted after being accommodated. The water supply container 5 is accommodated in a vertical posture in the second storage chamber 12 of the outer container 1 with the water supply port 15 facing downward. On the inner bottom surface of the second storage chamber 12, a lid holding portion 32 having an engagement groove for engaging and holding the integrally formed lid 31 in a non-rotating manner is provided.
[0019]
Thus, the water supply container 5 accommodated in the outer container 1 has the rotary knob 28 in use and rotates the water supply container 5 itself around the vertical axis to twist off the integrally formed lid 31. Can do. According to the first embodiment, the water supply port 15 is opened by this twisting and water flows out, the exothermic agent 3 in the inner container 4 reacts with the outflow water to generate heat, and the smoke insecticide 2 is heated and evaporated. It is the same as the case of.
[0020]
【The invention's effect】
According to the present invention, water can be supplied by a simple water supply operation in which the water supply container 5 in the outer container 1 is manually pushed in, or rotated and moved, and a specified amount of water is discharged from the water supply container 5. Since it can supply to the exothermic agent of the content 4 without excess and deficiency, it is excellent in usability.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing the overall structure of a heat-transpiration insecticidal device according to a first embodiment.
FIG. 2 is an internal plan view of the outer container of the first embodiment.
FIG. 3 is a longitudinal sectional view of a heat transpiration insecticide according to a second embodiment.
FIG. 4 is a longitudinal sectional view of a heat transpiration insecticidal device according to a third embodiment.
FIG. 5 is a longitudinal sectional view of a heat transpiration insecticide according to a fourth embodiment.
FIG. 6 is a longitudinal sectional view of a heat transpiration insecticide according to a fifth embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outer container 2 Smoke insecticide 3 Exothermic agent 4 Inner container 5 Water supply container 14 Water channel 15 Water supply port 16 Sealing material 17 Sharp projection 21 Water passage hole 22 Transpiration port 26 Screw-in lid 27/32 Lid holding part 31 Integrated molding lid

Claims (4)

An outer container (1) and a heat-resistant inner container (4) accommodated in the outer container (1),
The inner container (4) has a water passage hole (21) on the bottom surface and a transpiration port (22) on the upper surface side,
The inner container (4) contains the smoke insecticide (2), and reacts with water between the inner bottom surface of the inner container (4) and the smoke insecticide (2). In the heat transpiration insecticide containing the exothermic agent (3) for heat transpiration of the insecticide (2),
The interior of the outer container (1) is partitioned into a first storage chamber (11) and a second storage chamber (12) via a partition wall (10),
A water supply container (5) configured such that the inner container (4) is moved to the first storage chamber (11) and the second storage chamber (12) is moved by receiving a manual operation force so that the water contained therein flows out. ) Are stored and arranged,
The water supply container (5) has a vertical posture in the second storage chamber (12) with the water supply port (15) facing down,
In order to guide the outflow water from the water supply container (5) to the water passage hole (21) of the inner container (4) , the partition wall (10) is provided with a vertical notch (13), and the second storage chamber ( 12) A transpiration insecticidal device characterized in that a water channel (14) is formed to communicate the inner bottom surfaces of the first storage chamber (11) . An outer container (1) and a heat-resistant inner container (4) accommodated in the outer container (1),
The inner container (4) has a water passage hole (21) on the bottom surface and a transpiration port (22) on the upper surface side,
The inner container (4) contains the smoke insecticide (2), and reacts with water between the inner bottom surface of the inner container (4) and the smoke insecticide (2). In the heat transpiration insecticide containing the exothermic agent (3) for heat transpiration of the insecticide (2),
A water supply container (5) configured to allow water contained therein to flow out by being moved by receiving a manual operation force at a predetermined position in the outer container (1) is housed and disposed.
Inside the outer container (1) is provided a water channel (14) for guiding the outflow water from the water supply container (5) to the water passage hole (21) of the inner container (4),
The water supply port (15) on the lower surface of the water supply container (5) is closed with a sealing material (16) that is easy to break,
In a predetermined position in the outer container (1), the water supply container (5) is housed and arranged so that it can be pushed down with its water supply port (15) facing downward,
Below the water vessel of the outer container (1) in (5), the water supply container (5) pointed projections (17) pressurized heat transpiration insect killer that provided the pierce with sealing material (16) with the push-down operation of the. An outer container (1) and a heat-resistant inner container (4) accommodated in the outer container (1),
The inner container (4) has a water passage hole (21) on the bottom surface and a transpiration port (22) on the upper surface side,
The inner container (4) contains the smoke insecticide (2), and reacts with water between the inner bottom surface of the inner container (4) and the smoke insecticide (2). In the heat transpiration insecticide containing the exothermic agent (3) for heat transpiration of the insecticide (2),
A water supply container (5) configured to allow water contained therein to flow out by being moved by receiving a manual operation force at a predetermined position in the outer container (1) is housed and disposed.
Inside the outer container (1) is provided a water channel (14) for guiding the outflow water from the water supply container (5) to the water passage hole (21) of the inner container (4),
The water supply port (15) of the water supply container (5) is closed by a screwed lid (26);
In a predetermined position in the outer container (1), the water supply container (5) is housed and arranged so as to be rotatable by manual operation with the water supply port (15) facing downward.
Below the water vessel of the outer container (1) in (5), a lid holder (27) pressurized heat transpiration insect killer that has provided for fitting holding the screwing cover (26) to the detent-like. An outer container (1) and a heat-resistant inner container (4) accommodated in the outer container (1) ,
The inner container (4) has a water passage hole (21) on the bottom surface and a transpiration port (22) on the upper surface side,
The inner container (4) contains the smoke insecticide (2), and reacts with water between the inner bottom surface of the inner container (4) and the smoke insecticide (2). In the heat transpiration insecticide containing the exothermic agent (3) for heat transpiration of the insecticide (2),
A water supply container (5) configured to allow water contained therein to flow out by being moved by receiving a manual operation force at a predetermined position in the outer container (1) is housed and disposed.
Inside the outer container (1) is provided a water channel (14) for guiding the outflow water from the water supply container (5) to the water passage hole (21) of the inner container (4),
The water supply port (15) on the lower surface of the water supply container (5) is closed with an integrally formed lid (31) that can be twisted by turning the water supply container (5).
In a predetermined position in the outer container (1), the water supply container (5) is housed and arranged so as to be rotatable with the water supply port (15) facing downward,
Below the water vessel of the outer container (1) in (5), pressurized heat transpiration insect killer that have cover holding portion fitted holding (32) is provided integrally formed cap (31) to the detent-like.

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