RU75138U1 - FUMIGATOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to the design of devices intended mainly for transferring insecticides into the gas phase, in particular, to fumigators intended for use in residential, industrial and other premises with the aim of protecting against flying insect bites. The device can also be used for aromatization or deodorization of premises, fumigation of bee hives, as well as for solving other similar problems. The fumigator comprises a housing consisting of a cover and a bottom, a heater located in it, made in the form of a resistor placed in an insulating block and connected to a plug mounted in the housing with the possibility of its rotation, and a socket for accommodating the evaporating substance, which is made in the form of a side slot , the lower part of which is at the level of the upper edge of the insulating block. The slot is provided at the edges of the slot with protrusions for fixing the plate with the evaporating substance and is connected by channels to the outer surface of the lid. For spraying the insecticidal solution in the bottom of the housing, a seat is made in the form of a recess provided with a screw thread inside, and a vertical hole is made in the central part of the insulation block connecting the side slot with the seat.

Description

The utility model relates to the field of electrical engineering, namely to the design of devices intended mainly for transferring insecticides into the gas phase, in particular, to fumigators intended for use in residential, industrial and other premises with the purpose of protection from flying insect bites. The device can also be used for aromatization or deodorization of premises, fumigation of bee hives, as well as for solving other similar problems.

A large number of devices for controlling insects are known. In particular, the fumigator is known in the form of a flat spiral, compressed from a mixture of insecticide, combustible material and a filler (RU 42390), equipped with a metal belt.

The disadvantage of this fumigant is its disposability and insufficient safety in its use.

Known fumigator containing a flash lamp with a light filter, a heating element and a support for accommodating ferromone (RU 2204901).

The disadvantage of this device is its structural complexity, the need to use an expensive drug, the use of a constantly-on light source, which creates discomfort when using the device at night.

Most known fumigators consist of a container in which the active agent (tablet or solution) is located and a device that provides vapor formation, usually by heating the agent and letting its vapor into the environment (RU, 2014809; RU 2085092, RU 2004104629).

Typically, such devices are characterized by a lack of versatility, i.e. the ability to use different forms of insecticides, cumbersome performance, lack of effective spraying of the active principle.

The closest in technical essence to the claimed solution is a fumigator (RU 93003291), which includes a housing consisting of upper and lower parts (covers and bases), a heater made in the form of resistors placed in an insulating block and connected to a plug installed in the housing with the possibility of its rotation, and nests for accommodating the evaporating substance, made in a movable feeder, at the outlet of which a gutter is installed.

The disadvantage of this device is its structural complexity, lack of efficiency due to uneven heating of the entire surface of the plate containing the insecticide.

The technical problem solved by the author was the creation of a simple and structurally reliable fumigator, which would ensure the maximum use of the active principle.

The technical problem is solved in that in the fumigator, comprising a housing consisting of a cover and a bottom, a heater located in it, made in the form of resistors placed in an insulating block and connected to a plug mounted in the housing with the possibility of its rotation, and sockets for

the placement of the evaporating substance, the socket for accommodating the evaporating substance is made in the form of a side slot, the lower part of which is at the level of the upper edge of the insulating block, provided with protrusions on the edges of the slot for fixing the plate with the evaporating substance and connected by channels to the outer surface of the lid.

This design ensures the effective use of the device when using an insecticidal preparation in the form of plates.

To spray a liquid preparation from a special flask, a seat is additionally made in the bottom of the case in the form of a recess provided with a screw thread inside, and a vertical hole is made in the central part of the insulation block connecting the side slot with the seat.

A General view of the proposed fumigator shown in Fig.1. The fumigator consists of a detachable housing 1, inside of which there is a device for the evaporation of the insecticide 2, connected to an electric plug 3.

The housing 1 is made of a cover 4 and a bottom 5, interconnected by clamps 6. The device for the evaporation of the insecticide 2 is located inside the bottom 5 and consists of an insulating block 7 made of heat-resistant material, in which resistors 8 are placed, connected by wires 9 to an electric plug 3 .

Block 7 has in the central part a vertical hole 10 connected by a channel with a seat 11 located on the lower part of the bottom 5. In the middle part of the housing, a horizontal side slot 11 is made, the lower part of which is aligned with the upper surface of the heater insulation block 7, and the upper part is connected channels 12 with the outer surface of the cover 4. The width of the channels 12 is selected in such a way as to ensure the most efficient expenditure of the insecticidal preparation. The locking projections 13 are installed in the slot. The plug 3 is rotatable 90 ° and locked in the extreme positions.

Fumigator works as follows. When you turn on the plug 3 in the network, the resistor 8 is heated, which transfers heat to block 7.

When using an insecticide in the form of a plate, it is placed in the slot 11 under the protrusions 13, where it is heated. During heating, additional heating of the plate edges through the material of the protrusions 13 and the removal of drug vapor through the channels 12 occur, shifting the gas-solid balance over the plate surface in the desired direction.

Moreover, the presence of channels 12 immediately above the edges of the plate provides a quick removal of the insecticide from the less heated part of the plate.

When spraying a liquid, a container with a working fluid using a thread is installed in the seat 11 and the heating of the resistors is turned on. Under the action of heat, a vacuum is created in the channel 10, which ensures that the drug enters the slot 11 and is evacuated to the room through the channels 12. Some heating of the housing and the upper part of the tank increases the rate of release of the insecticide from the solution.

Thus, the proposed technical solution is easy to manufacture, reliable to use, because does not contain moving elements, can work with different forms of insecticides and provides a more complete use of the active principle when working with plates.

Claims (2)

1. The fumigator, comprising a housing consisting of a cover and a bottom, a heater located therein, made in the form of a resistor placed in an insulating block and connected to a plug mounted in the housing with the possibility of rotation, and a socket for accommodating the evaporating substance, characterized in that the slot for accommodating the evaporating substance is made in the form of a side slot, the lower part of which is at the level of the upper edge of the insulating block, and the slot is provided with protrusions on the edges to fix the plate with the evaporating material tion channels and associated with the outer surface of the cover. 2. The fumigator according to claim 1, characterized in that the bottom of the housing has a seat in the form of a recess provided with a screw thread inside, and a vertical hole is made in the central part of the insulating block connecting the side slot with the seat.