CS247401B1 - Equipment for attracting and killing insects - Google Patents

Abstract

The device for luring and killing harmful insects solves the problem of trapping and simultaneous killing of insects based on light luring. The solution consists in using a UV radiation source as a bait and a grid powered by a cascade generator with ballast elements in the killing part. The device can be used with advantage in all fields where the occurrence and destruction of troublesome and harmful insects are involved.

Description

The invention solves the attracting and killing of harmful insects by an electronic light attracting trap.

The prior art traps, which utilize the characteristics of the electric current and which are therefore dependent on the distribution of the electric power, generally use a light bait, for example a fluorescent tube, a lighting tube. The actual part is formed by a grid connected in such a way that the adjacent conductors always have a voltage between them. In this case, the grid is supplied with an increased voltage, which can be obtained either by transforming with stray transformers, semiconductor sources, or with a pulse thyristor device with a transformer.

In the case of visible light bait, these traps have reduced attracting efficiency, the high-voltage transformer-based source has energy losses, the pulsed sources have a large intrinsic impedance, which results in reduced insect killing reliability and is a source of radio interference. If a chemical bait is used, the trap has a low efficiency in this case and may pose a risk of environmental intoxication.

The above-mentioned drawbacks are eliminated by the trap according to the invention, which is based on the supplying of the control grid by the Delon semiconductor cascade generator, which is equipped with chokes on the input and output side which partially attenuate charging current grid.

The function of the line choke to the grid is that when the grid is contacted by insects, a discharge occurs between the grid conductors and the choke reduces current shock, thereby damping current surges throughout the circuit, increasing grid life and reducing acoustic effects substantially. The attract part is formed by a common ultraviolet emitter, consisting of a quartz mercury burner, eg of the RVK type, connected to the mains via a ballast - a choke. The use of ultraviolet radiation significantly increases the attracting effect on insects. This UV source is positioned so that the insects are forced to contact the grid. A suitable location is, for example, between two killing bars.

By using the Delon cascade generator as a high voltage source and using ultraviolet radiation, higher efficiency, i.e. more insects captured per unit of time, is achieved compared to an adequate trap with a visible attracting device. The actual high-voltage power supply has a higher energy efficiency than the connection with a transformer or with different pulse sources. Since the chokes are connected in the circuit of a cascading Delon generator, where they have only a transient function, ie at the moment of the electric discharge until the capacities are charged to a stable value, the energy losses are negligible.

The use of UV radiation generates energy savings, although compared to the current state with fluorescent tubes or luminous tubes, the device according to the invention has a higher power consumption. This phenomenon is explained by the fact that the device according to the invention catches a larger number of insects per unit of energy consumed.

The attached drawing shows a particular embodiment of an insect trap with an ultraviolet emitter connected.

The line voltage is applied to terminals 1 and 2, to which a light attracting circuit consisting of a ballast 20 is connected in parallel to which an ultraviolet radiator 23 is connected in series. The high voltage source for the grid consists of a capacitance 8, one end of which is connected to the input the terminal 8 and the other end of the capacitor £ are connected to the anode of the diode £, the cathode of the diode £ is connected to the first limiting choke 9 9, the other end of which is connected to the mains terminal a and one end of the ballast 22. the input of the Delon Cascade Generator 5 and the output of the Delon Cascade Generator 6 are connected via a second choke 21 to one end of the die grid 22, the other end of the die grid 22 being connected to the cathode of the diode 6.

Claims (1)

A device for attracting and controlling harmful insects, characterized in that a light attracting circuit consisting of a ballast (20) is connected in parallel to the mains voltage terminals (1, 2) to which an ultraviolet radiator (23) is connected in series, the grid (22) consists of a capacitance (3), one end of which is connected to the input terminal (1), the other end of the capacitance (3) is connected to the anode of the diode (4), the cathode of the diode (4) connected to the first limiting choke (19), the other end of which is connected to the mains terminal (2) and one end of the ballast (20) and that the input of the Delon cascade generator (5) and the Delon cascade generator output (5) are connected in parallel to the diode (4) via a second limiting choke (21) to one end of the die (22), the other end of the die (22) being connected to the cathode of the diode (4).