RU2053668C1 - Device for extermination of injurious insects - Google Patents

Abstract

FIELD: animal breeding. SUBSTANCE: device comprises n frames, each containing two individual sections of electrodes connected by buses to a supply source. Buses are interconnected by two side insulating strips. The unlike-pole electrodes may be arranged either in one or in two parallel planes. Connected additionally to one bus is a sharp-ridge discharger while the other bus is connected to a metal plate disposed in the sockets of vertical side strips. In case of a high window opening the frame may be made of two modified sections of which the middle one has the form of a two-sided electrode ridge while the other one is made of two parts installed underneath and above the middle two-sided ridge. EFFECT: improved design, aeroionization of air, reduced metal and material content. 7 dwg

Description

 The invention relates to agriculture, primarily to livestock, horticulture, as well as to household services, processing industry and other sectors of the economy, where there is a need to exterminate flying and some crawling insects, and at the same time improve air quality in industrial premises by its aeroionization.

 The main part of the device for exterminating insects is a frame with a grid made of vertical wire rods of electrodes, each of which is isolated from two neighboring ones to such an extent that the high voltage supplied to them up to 4-6 kV does not cause a leakage current between them. This is achieved by the fact that they are mounted in a common frame by connecting two pairs of side insulating strips belonging to bipolar modules of rods. This design requires special care in manufacturing, using individual equipment. This device, selected as an analogue, consists of one or more frames with grids and a high voltage source, which is included in the kit of the insect fighter.

The disadvantages of the device are the complexity of the grid structure, increased metal consumption, susceptibility rigidly fixed on the ends of the wire electrodes deformation with large variations of ambient temperature, e.g. 50 ^{° C} or higher in the sun on a hot summer day, to ^-20 ° C in winter , when storing frames with nets in unheated rooms.

 Another drawback of existing insect fighter circuits powered by step-up transformers is the fire hazard of a short circuit current in a high voltage circuit, which can cause a fire of trash settled on the grid, dry blades and other organic material.

 A known design of a frame with a grid of a fighter with vertical electrodes, selected as a prototype, in which the electrodes of the wire are fixed on one side only, while on the other they move freely with temperature changes in their length in the guide holes of the metal bus.

 A disadvantage of the known design is the manufacturing complexity, the need for two types of equipment for collecting wire rods-electrodes, since bipolar electrodes have different shapes, increased metal consumption for four busbars made of strip iron or brass, increased consumption of insulating material for four side strips, and excess weight due to increased consumption of materials, which, in turn, requires excessive labor costs for mounting them in the spring and dismantling in the fall for conservation for the winter.

 The aim of the invention is to simplify the design of the frame with the grid, aeroionization of air and reducing metal and material consumption, as well as creating a fire-safe power supply circuit, which is achieved by reducing the current strength, short circuit in a high voltage circuit up to 4-6 mA.

 This goal is achieved by the fact that in the device for exterminating insects, including a frame with a grid made in the form of two separate modules, each module, made in the form of a comb, has one connecting bus, on which are fixed vertical rods-electrodes made pointed, and the modules connected to a common grid using two vertical side strips made of insulating material, in addition, at one end of the side strips there are double sockets for attaching a connecting bus of one of the modes Leu at one of two possible positions, to connecting bus frame may be attached sawtooth ostrogrebenchaty istekatel charges, and the other pole of the upper module is connected to a metal plate disposed in vertical side slots of the insulating strips.

 Figure 1 shows the proposed device, a common frontal and side view of the frame with the grid.

 The grid frame includes two modules having one connecting busbar 1 and 2. On the connecting busbars 1 and 2, electrode rods are fixed E. The modules are connected to the frame using two side insulating strips 3 and 4 according to option 1, when the bipolar electrodes are located in one plane, or according to option 2, when the lower connecting bus 1 is placed in the sockets on the back of the side strips 3 and 4 and the bipolar electrodes are in different planes. For high window openings, the grids are assembled according to option 3, when the middle module (Cp) of the grid is made in the form of a two-sided ridge, and the upper (Bx) and lower (H) modules are the same one-sided ridges.

 Figure 2 and 3 shows the elements of a frame with a mesh for the destruction of crawling and flying insects. A sharp-ridge charge expiration 5 is connected to the connecting bus 1, and the pole of the upper module is connected to a metal plate 6 located on the sill in the slots of the lateral vertical strips 3 and 4.

 Thanks to the free ends, the electrodes are not deformed at significant changes in ambient temperature, and the sharpening of the ends ensures the outflow of ions when the voltage across bipolar electrodes of 4 or more kV is established by using the appropriate regulator in the power source.

 Variants of a frame with a grid with different interelectrode distances, a diagram explaining the technology of mounting a grid with a frame, as well as a variant of a frame with a grid having a node for the destruction of creeping insects, such as cockroaches or ants, are presented.

 The principle of universality of the modules of a high-voltage fighter can be applied to a fighter with a lamp, here the electrodes through one are arranged in a circle, forming a vertically hanging bipolar cylindrical structure, as shown in figure 4. In this case, the halves 8 and 9 (Fig. 5) are connected in a single structure using three insulating strips 7.

 For greater safety, these halves can be made of different diameters (Fig.6), and the outer cylinder of the rods is connected to the grounded pole of the high voltage source. The connecting strips 10 hold both modules on their different sides.

 To power several frames (up to 20-30 by the number of windows in the livestock building) located on the south or east side 8, a transformer Tr (Fig. 7) with a magnetic shunt is used, which is additionally equipped with a device for reducing short circuit current (CT) in secondary winding with non-linear resistance and a KB device, which prevents sensitive electric charge in case of unlikely human contact with an ungrounded half-grid in the fighter frame.

 The proposed device operates as follows.

 When insects fly between the electrode bars E through the insect and the gap 4 between the insect and electrode E, a weak electric spark jumps through, causing a lethal effect on the insect. Such a spark is caused by the fact that on every two adjacent electrodes E there is a potential difference voltage supplied from the power source (position And and IVN). Depending on the summer season of various insects, a different distance between the electrode bars E is selected (see Fig. 1, options 1 and 2), and the voltage supplied to the electrode bars E from 2 to 4-6 kV is also regulated. By regulating this voltage, it is also possible to change the intensity of the outflow from the pointed ends of the bar-electrodes of aero ions, lethally affecting microorganisms in the air and on the walls of rooms, as well as contributing to the deposition of small field suspensions from the atmosphere into the room.

 Simplification and cheapening of the main element of an insect exterminator frame with a grid will make it possible to more widely use the environmentally friendly method of pest control, drastically reduce the use of chemical means of protection, some of which penetrate into livestock and crop products, and from them into the human body.

Claims (1)

 DEVICE FOR CONSUMPTION OF INSECT PESTS, including n frames, each of which contains two sections of vertically mounted electrodes, connected by connecting busbars to opposite terminals of the power source, while connecting busbars are interconnected by side strips made of electrical insulating material, characterized in that that the ends of the electrodes of each section, opposite to those connected to the connecting bus of this section, are pointed and located with a gap relative to the connection tional tire opposite sections, wherein one of the electrode sections is fixedly mounted, and the other - with the possibility of its arrangement in the plane of the first electrode section or the electrode placement in a plane parallel thereto.

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