RU2111662C1 - Insect destroying apparatus - Google Patents

Abstract

FIELD: agriculture and public utilities, in particular, insect control. SUBSTANCE: insect destroying apparatus has casing 4, radiation source mounted within casing and composed of two parts 3,2 connected in parallel. One part provides ultraviolet radiation and associated ozone generation. Apparatus is provided with five switching devices, set of conductors 1 forming grid and ventilation unit 6. Casing 4 has swing apex member 8, bottom tray 5 and protective net 7. Third and fourth switching devices may be mechanically interconnected so as to provide inoperative position of one switching device, when other switching device is in operative condition. First switching device may be mechanically connected with third and fourth switching devices so as to provide operative position of fourth switching device and inoperative position of third switching device, when first switching device is in operative position, or to provide inoperative position of fourth switching device and operative position of third switching device, when first switching device is in inoperative position. Fifth switching device is connected to grid of conductors 1 between supply voltage source and first switching device. Inner surfaces of casing walls facing radiation sources 2,3 are covered with light-reflecting coat. EFFECT: wider operational capabilities, simplified construction and enhanced reliability in operation. 7 cl, 5 dwg

Description

 The invention relates to agriculture and utilities and can be used for pest control of domestic and industrial premises.

 A device is known that includes a power source, an associated array of conductors for exterminating insects, switching means and a housing (CS, copyright certificate, N 238321, class A 01 M 1/22, 1988).

 However, this device is not effective enough, and after its use requires additional measures to combat insects.

 It is also known a device for killing insects, comprising a housing with a radiation source installed in it in the form of a tubular fluorescent lamp and a trellised set of conductors, switching means, the first of which provides communication with the supply voltage source of the trellised set of conductors, and the second - radiation sources, a lightproof screen , covering the part of the opening between the radiation source and the trellised set of conductors, and the tray for collecting exterminated insects (GB, application N 2171882, class A 01 M 1/22, 1986).

 However, this device is not effective enough in the fight against insects. A device of this and a similar type is destroyed only by the imago of insects (i.e., adults who have gone through their developmental cycle - from an egg, larva, etc. to a mature state), which, when attracted by light, rush to a trellised set of conductors, where and they are struck by electric shock. At the same time, nearby eggs and insect larvae, as well as non-flying type insects located indoors (for example, for storing agricultural products or any food products, often representing a favorable environment for laying insect eggs, larva growth, their development, etc. .) remain outside the influence of the device, which does not impede the reproduction of insects and replenishment of their numbers. This necessitates additional measures to combat insects after the application of the known device.

 The technical result achieved by the implementation of this invention is to increase the efficiency of the device in the extermination of insects due to the prolonged action of the device, increase the exposure zone, expand operational capabilities and reduce the risk of infection of humans or animals in industrial premises (farm, poultry farm, etc.) .

 In FIG. 1, 2 and 3 are options for electrical circuits connecting the nodes of the device. In FIG. 4 shows a variant of the appearance of the device in its outdoor (portable) design with a double trellised set of conductors. In FIG. 5 shows a variant of the appearance of the device in its wall (mounted) design, with a folding top element of the housing.

The device for killing insects contains a trellised set of conductors 1, an optical radiation source 2, a radiation source in the ultraviolet region of the spectrum 3 and an ozonizer, first, second, third, fourth and fifth means for switching on K ₁ , K ₂ , K ₃ , K ₄ , K ₅ , remote control, inclusion (switch) - P.

 In FIG. 4, 5, there are presented options for the design of the device and its location in a room where disinfestation is necessary. In particular embodiments, the device comprises a lattice array of conductors 1, an optical radiation source 2, a radiation source in the ultraviolet region of the spectrum 3, which simultaneously serves as an ozonizer, a device case 4, the inner surface of the walls of which can be made reflective, and a bottom pull-out tray 5 is located in the lower part . At the same time, the unit 6 may include a fan unit 6 (indicated by a dotted line). And in the case 4 of the device can be located a protective grid 7 and a folding top element 8. The symbol A indicates the products stored in the room, and the symbol B indicates the gas flow.

It should be noted that the third and fourth means of switching on K ₃ , K _{4 are} mainly mechanically interconnected in such a way that when the state of one is on, the state of the other is turned off. Thus, in particular, the switching means K _{3 is} closed, and the switching means K _{4 is} open.

In the embodiment of the electrical circuit of the device shown in FIG. 3, the fifth switching means K _{5 is} introduced into the circuit for connecting a trellised set of conductors to a power supply source. In this case, the switching means - the first K ₁ , the third K ₃ and the fourth K ₄ are interconnected mainly mechanically with the possibility of providing the on state K ₁ with the on state K ₄ and off K ₃ , and vice versa.

 A device for killing insects works as follows.

With the open position of the third means of inclusion K ₃ and the closed position of the first, second and fourth means of inclusion K ₁ , K ₂ , K ₄ , (Fig. 1, 2) and with the open position K ₃ and closed K ₁ , K ₂ , K ₄ , K ₅ (Fig. 3), the device operates as light traps for insects, which, being attracted by the light of an optical radiation source 2 (fluorescent lamp), are struck by electric current in the area of the array of conductors 1. Such a situation, as a rule, takes place in during the working day in rooms, for example, for processing or Anenia agricultural products. In the daytime, insects are most active, which forces them to fight.

Out of hours, when personnel are absent (night hours), and insects are less active, another option for turning on the device is possible. When the switching means K ₁ , K ₄ (for electrical circuits in Fig. 1, 2) or K ₁ , K ₄ , K ₅ (for electrical circuits in Fig. 3) are open, and the switching means K ₂ , K _{3 are} closed (for all three options for electrical circuits - Fig. 1, 2, 3), there is a source of radiation in the ultraviolet region of spectrum 3 (for example, lamps of the DV or DRT type) with the set of conductors 1 and source 2 turned off. In this case, the air flow B penetrating to the radiation source in the ultraviolet region of spectrum 3, is enriched with ozone, which is formed from oxygen in the air under deis twiys of ultraviolet rays. Since ozone is heavier than air, it tends to “leak” outside the device, especially in its bottom region, which can be taken into account when manufacturing the device — the installation of movable control elements, removable, sliding parts of the case, mesh elements in the end zones of the case or elements made with holes of the proper size, sufficient for unhindered passage of air currents, but excluding the possibility of insects penetrating into the device. Outside the device, ozone and a stream of ultraviolet radiation, which have a detrimental effect on eggs, larvae and even nymphs (recently hatched, not yet mature individuals), extend to the area of stored products (Figs. 4, 5). Moreover, the combined effect of these factors significantly enhances the effect of exposure. It is also important that in the presence of moisture particles (water droplets on the surface of agricultural products, for example, grain), under the action of ultraviolet rays from the ozone H ₂ O ₂ molecules (hydrogen peroxide) are formed, which also has an adverse effect on the development of these organisms. The action of the above factors (and it can be varied by changing the duration of the device in the mode under consideration) leads in some cases to the complete exclusion of the possibility of hatching of larvae from eggs, and in others to hatching of non-viable larvae. This is not only about eggs and larvae of insects such as flies or mosquitoes, but also about eggs and larvae of flour moths, ticks, in particular barns, etc., which are harmful pests of grain and other products. In addition, as is known, ticks are often carriers of many diseases dangerous to humans.

 The implementation of the inner surface of the housing 4 reflective improves the efficiency of the device.

 The possibility of partial restructuring of the device, in particular the presence of a retractable bottom tray 5, which changes the configuration of the bottom and reclining vertex element 8 in the housing 4, allows air flow B to more freely "flow" through the region of formation of the ultraviolet radiation flux, taking it outside the device to the products A, ozone-air mixture. The presence of a fan unit 6 increases the intensity of movement of the air flow B. The protective mesh 7 with a reclining vertex element B plays a protective role - it passes air, but does not allow insects to enter the device.

 The device, if necessary, allows you to turn it on and in the mode when both the system of lattice contact electrodes and the radiation source in the ultraviolet region of spectrum 3 operate simultaneously (for a certain type of insect, radiation in the ultraviolet range is most attractive for bait).

 Note that the functioning of the radiation source in the ultraviolet region of spectrum 3 should be carried out only in the absence of personnel. Therefore, it seems convenient if the switching means will be equipped with remote control mechanisms, including those made with the ability to control the program type.

 When the source 3 is functioning, in addition to the results that are achieved in the fight against insects and have been described above, the following positive aspects occur simultaneously.

 The presence of a radiation flux in the ultraviolet range and an ozone-air flow contributes to the disinfection of the room in the installation zone of the device — both air in it and products placed in this zone, for example, agricultural products, which is very important, as it is known, for example, [1] that some microbes, including plague pathogens, can remain on products (grain, vegetables, etc.) for an exceptionally long time, weeks, but they are sensitive to the action of radiation in the ultraviolet range, which is harmful to them.

 Reducing the infestation of the environment helps to reduce the infestation and infection of the insects themselves, living in the area of the device. This is very important, since insects are often carriers of infections, and when servicing the device, personnel have to contact them (insects) from time to time, in particular when cleaning the tray with their corpses.

 Using the described device significantly reduces the risk of infection of personnel, which is extremely important during epidemics.

 Moreover, it is known that ozone is an unstable chemical gaseous substance that quickly decomposes under normal conditions, replenishing the gas-air environment with oxygen. Therefore, after turning off the source 3, which causes the formation of ozone, the latter, decomposing, causes an increase in the oxygen content in the air of the room where the device is installed, which is one of the advantages of this device.

 In addition, it should be noted that this device for the destruction of insects is environmentally friendly and safe for humans.

Sources of information
1. Z.I. Kochemasova et al. Microbiology. M .: Medicine, 1984, p. 251.

Claims (7)

 1. Device for exterminating insects, including a housing with a radiation source installed in it and a trellised set of conductors, switching means connected to a supply voltage source, the first of which provides the connection of a trellised set of conductors, and the second a radiation source, characterized in that the radiation source made in the form of a combination of at least two sources connected in parallel, one of which provides radiation in the ultraviolet region of the spectrum with concomitant ozone formation and the other is not, with the third and fourth switching means, respectively, while the normally closed state of the third switching means corresponds mainly to the open state of the fourth switching means and vice versa, and the design of the device is made at least not preventing or contributing to the spread of air-gas particles and radiation from a radiation source in the ultraviolet region of the spectrum beyond the device, including with the possibility of tuning the latter, when Torah one or more elements of the device, advantageously belonging to the housing, or made retractable or shifted or reclines, or removable, provide with proper installation likening design to a certain extent, the duct and simultaneously irradiator.  2. The device according to claim 1, characterized in that the third and fourth means of inclusion are interconnected, in particular mechanically, so that when the on state of one of them provides an off state of the other.  3. The device according to claim 1, characterized in that the first, third and fourth switching means are interconnected, in particular mechanically, with the possibility of providing the switched on state of the first switching means with the switched on state of the fourth switching means and the switched off state of the third switching means, and vice versa, and in the circuit connecting the array of conductors to the power supply between the last and first switching means, the fifth switching means is installed.  4. The device according to claim 1, characterized in that the inner wall or walls of the housing are made reflective.  5. The device according to each of claims 1 to 4, characterized in that it is equipped with a fan unit.  6. The device according to each of claims 1 to 5, characterized in that the switching means are remote.  7. The device according to each of claims 1 to 5, characterized in that the switching means is equipped with a remote control mechanism, including program type.

Images