CN210043076U - Rat repelling and insect killing device - Google Patents

Abstract

A rat and insect repelling and killing device relates to a rat and insect repelling and killing technology, and aims to effectively eliminate rat and insect pests of a transformer substation. The novel energy-saving blue light lamp tube is arranged on the supporting body, and the insect killing power grid is coated on the periphery of the energy-saving blue light lamp tube; the ultrasonic low-frequency horn is fixed on the supporting body; the power supply E is used for supplying power to the ultrasonic low-frequency horn, the energy-saving blue light lamp tube and the disinsection power grid; the photosensitive switch is used for simultaneously controlling the connection and disconnection of the energy-saving blue light lamp tube and the disinfestation power grid; the low-frequency horn indicator lamp is used for indicating the working state of the ultrasonic low-frequency horn; the blue light tube indicator lamp is used for indicating the working state of the energy-saving blue light tube; the rat repelling circuit is used for controlling the ultrasonic low-frequency horn to send out low-frequency ultrasonic waves. Has the beneficial effect of good rat and insect repelling effect.

Description

Rat repelling and insect killing device

Technical Field

The utility model relates to a rat repelling and insect killing technology.

Background

At present, a deratization mode of three defense lines is generally adopted by a transformer substation, wherein the three defense lines refer to a squirrel cage, rodenticide and a rat guard; however, the three-line rat killing mode cannot effectively remove the rat damage; for the mouse cage, the probability of inducing the mouse to hook is very small, even if the mouse cage catches the mouse, the mouse treatment is also a difficult problem, and many transformer substation operation and maintenance personnel afraid of being infected by the mouse with diseases and dare not to touch the mouse or do not want to kill the mouse, and finally only can choose to release the mouse; although the rat guard can prevent rats entering from the doorway, due to numerous holes of the screen cabinet in the power transformation facility, the situation of untimely plugging exists, and multiple cables are difficult to plug at the wall penetrating position or the foundation sinks, and various holes and cracks are inevitable due to numerous factors such as long-term overhaul and the like, and similar holes and cracks are passages for the rats to enter and exit at will; for the raticide, because of various types and brands of the raticide, factors such as difficulty in distinguishing and counterfeiting, low toxicity, overdue period and the like, the raticide cannot effectively kill rats, and the phenomenon of personnel poisoning can also occur in the incorrect application process of a user; aiming at expelling insects, the transformer substation generally only adopts a mode of cleaning a net, insect feces and insect corpse, and cannot really expel insects at all.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rat repelling and deinsectization device in order to effectually clear away the rat damage and the insect pest of transformer substation.

The utility model relates to a rat repelling and insect killing device, which comprises a supporting body, an insect killing electric network, an energy-saving blue light tube, an ultrasonic low-frequency horn, a low-frequency horn indicator lamp, a blue light tube indicator lamp, a photosensitive switch, a power supply E and a rat repelling circuit;

the energy-saving blue light lamp tube is arranged on the supporting body, and the insect killing power grid is coated on the periphery of the energy-saving blue light lamp tube;

the ultrasonic low-frequency horn is fixed on the bearing body;

the power supply E is used for supplying power to the ultrasonic low-frequency horn, the energy-saving blue light lamp tube and the disinsection power grid;

the photosensitive switch is used for simultaneously controlling the connection and disconnection of the energy-saving blue light lamp tube and the disinfestation power grid;

the low-frequency horn indicator lamp is used for indicating the working state of the ultrasonic low-frequency horn;

the blue light tube indicator lamp is used for indicating the working state of the energy-saving blue light tube;

the mouse repelling circuit is used for controlling the ultrasonic low-frequency horn to send out low-frequency ultrasonic waves.

The utility model controls the ultrasonic low-frequency horn to send the low-frequency ultrasonic wave which can not be heard by human ears through the rat repelling circuit, so as to interfere and destroy the sense of smell and the central nervous system of the rat, and the rat repelling circuit can twinkle and emit light to influence the vision of the rat, so that the rat is anxious and difficult to endure, and is difficult to adapt to the existing environment and escape; meanwhile, the energy-saving blue light lamp tube can effectively attract insects after emitting light, and when the insects are close to the energy-saving blue light lamp tube, the insects are killed by the insect killing power grid.

The utility model has the advantages that the mice living in the ultrasonic range can show more activity, anorexia and irregular behaviors and are difficult to adapt to the existing environment within 3 weeks after the olfactory sensation, the vision and the central nervous system of the mice are destroyed in the initial stage of using the device, and the mice can automatically leave the living environment outside the range of other searching sound waves after 3 to 5 weeks; the rats which are not in the range of the sound wave of the ultrasonic low-frequency horn feel uncomfortable when entering the coverage area and immediately escape; when the insect killing function is used, like continuously patting the wall or the screen cabinet by palm, various insects at the corners of the wall or the screen cabinet can be effectively repelled, pests hidden in pipelines or gaps are alarmed to escape, the energy-saving blue light tube can attract various flying insects, the flying insects fly to the light source like moth fire suppression, and then touch the insect killing power grid outside the energy-saving blue light tube, so that the pests are killed.

Drawings

Fig. 1 is a schematic structural view of a rat/insect repelling and killing device according to a first embodiment;

FIG. 2 is a schematic diagram of the circuit connection of the insect-killing function in the second embodiment;

FIG. 3 is a schematic diagram of a mouse repelling circuit according to a third embodiment;

fig. 4 is a schematic structural view of a rat/insect repelling and killing device according to the fourth embodiment.

Detailed Description

The first embodiment is as follows: the embodiment is described with reference to fig. 1, and the rat repelling and killing device of the embodiment comprises a supporting body 1, a pest killing grid 3, an energy-saving blue light tube 2, an ultrasonic low-frequency horn 4, a low-frequency horn indicator lamp 5, a blue light tube indicator lamp 6, a photosensitive switch 7, a power supply E and a rat repelling circuit;

the energy-saving blue light lamp tube 2 is arranged on the bearing body 1, and the insect-killing power grid 3 is coated on the periphery of the energy-saving blue light lamp tube 2;

the ultrasonic low-frequency horn 4 is fixed on the supporting body 1;

the power supply E is used for supplying power to the ultrasonic low-frequency horn 4, the energy-saving blue light lamp tube 2 and the disinfestation power grid 3;

the photosensitive switch 7 is used for simultaneously controlling the connection and disconnection of the energy-saving blue light lamp tube 2 and the disinfestation power grid 3;

the low-frequency horn indicator lamp 5 is used for indicating the working state of the ultrasonic low-frequency horn 4;

the blue light tube indicator lamp 6 is used for indicating the working state of the energy-saving blue light tube 2;

the rat repelling circuit is used for controlling the ultrasonic low-frequency horn 4 to send out low-frequency ultrasonic waves.

In the embodiment, the mice living in the ultrasonic range can be more active, anorexia and irregular behaviors due to the damage to the olfactory sensation, vision and central nervous system of the mice within 3 weeks in the initial stage of using the device, and are difficult to adapt to the existing environment, and after 3 to 5 weeks, the mice automatically migrate away from the living environment outside the range of other searching sound waves; while the rats which are not in the range of the sound wave of the ultrasonic low-frequency horn 4 feel uncomfortable when entering the coverage area and immediately escape; when the insect killing function is used, like continuously patting the wall or the screen cabinet by palm, various insects at the corners of the wall or the screen cabinet can be effectively repelled, pests hidden in pipelines or gaps are disconcerted to escape, the energy-saving blue light lamp tube 2 can attract various flying insects, the flying insects fly to a light source like moth fire suppression, and then touch the insect killing power grid 3 outside the energy-saving blue light lamp tube 2, so that the pests are killed.

In this embodiment, if the 220V ac power is used instead of the power supply E, a transformer is added; after the low-frequency horn indicator lamp 5 is lightened, the mouse repelling function is started; when the environment of the transformer substation is dark, the photosensitive switch 7 is automatically closed, the blue light lamp tube indicating lamp 6 is turned on, and the deinsectization function is started.

The second embodiment is as follows: the present embodiment is described with reference to fig. 2, and is further limited to the rat/insect repelling and killing device according to the first embodiment, in the present embodiment, the positive electrode of the power source E is connected to one end of the photosensitive switch 7, and the other end of the photosensitive switch 7 is connected to the positive electrode power supply terminal of the insect killing grid 3 and the positive electrode power supply terminal of the blue light tube indicator 6; the cathode power supply end of the blue light tube indicator lamp 6 is connected with the anode power supply end of the energy-saving blue light tube 2; the negative power supply end of the energy-saving blue light lamp tube 2 and the negative power supply end of the disinfestation power grid 3 are connected with the negative electrode of the power supply E at the same time.

In the embodiment, the circuit is connected in parallel by the disinsection power grid 3 and the energy-saving blue light lamp 2, so that the disinsection effect is better.

The third concrete implementation mode: the present embodiment is described with reference to fig. 3, and is further limited to the rat repelling and insect killing apparatus according to the first embodiment, in the present embodiment, the rat repelling circuit includes a switch S, an electromagnetic relay J, a time control circuit, a sound wave generating circuit, and a power amplifying circuit;

the time control circuit comprises a time base circuit NE555, a resistor R1, a slide rheostat R2, a slide rheostat R3, a capacitor C1, a capacitor C2, a diode D1, a diode D2 and a diode D3;

the sound wave generating circuit comprises an integrated chip U1, a resistor R4, a slide rheostat R5, a capacitor C3, a capacitor C4, a capacitor C5 and a capacitor C6;

the power amplification circuit comprises a power amplifier T, a capacitor C7 and a capacitor C8;

the model number of the integrated chip U1 is: KD-5605; the model of the power amplifier T is LM 386;

the negative electrode of the power supply E is simultaneously connected with one end of a capacitor C1, a first pin of a time-base circuit NE555, one end of a capacitor C2, one end of a coil of an electromagnetic relay J, the cathode of a diode D3, a seventh pin of an integrated chip U1, one end of a capacitor C5, the inverting input end of a power amplifier T, the negative electrode power supply end of the power amplifier T and the negative electrode power supply end of an ultrasonic low-frequency horn 4;

the negative electrode of the power supply E is connected with one end of the switch S;

the other end of the switch S is simultaneously connected with one end of the resistor R1, an eighth pin of the time-base circuit NE555, a fourth pin of the time-base circuit NE555 and one end of a normally open contact J1 of the electromagnetic relay J;

the other end of the resistor R1 is connected with the fixed end of the slide rheostat R2;

the other end of the capacitor C1 is connected with the anode of the diode D1;

the cathode of the diode D1 is simultaneously connected with the moving end of the slide rheostat R3, the cathode of the diode D2, the pin II of the time base circuit NE555 and the pin six of the time base circuit NE 555;

the pin seven of the time base circuit NE555 is simultaneously connected with the anode of the diode D2, the moving end of the slide rheostat R2 and the fixed end of the slide rheostat R3;

a pin III of the time-base circuit NE555 is simultaneously connected with the other end of the coil of the electromagnetic relay J and the anode of the diode D2;

a fifth pin of the time-base circuit NE555 is connected with the other end of the capacitor C2;

the other end of a normally open contact J1 of the electromagnetic relay J is simultaneously connected with one end of a capacitor C3, one end of a resistor R4, the moving end of a slide rheostat R5 and the positive power supply end of a power amplifier T;

a pin nine of the integrated chip U1 is connected with the other end of the capacitor C2;

a pin II of the integrated chip U1 is connected with the other end of the capacitor C3;

the third pin of the integrated chip U1 is simultaneously connected with the sixth pin of the integrated chip U1 and the other end of the resistor R4;

the first pin of the integrated chip U1 is connected with the fixed end of the slide rheostat R5;

a No. ten pin of the integrated chip U1 is connected with one end of a capacitor C4, and the other end of the capacitor C4 is connected with a No. eleven pin of the integrated chip U1;

a No. fifteen pin of the integrated chip U1 is connected with one end of a capacitor C6, and the other end of the capacitor C6 is connected with the non-inverting input end of the power amplifier T;

one end of the gain setting of the power amplifier T is connected with one end of the capacitor C7, and the other end of the gain setting of the power amplifier T is connected with the other end of the capacitor C7;

the output end of the power amplifier T is connected with one end of a capacitor C8, and the other end of the capacitor C8 is connected with the positive power supply end of the ultrasonic low-frequency horn 4.

In the present embodiment, the voltage of the power supply E is 6V; the diode D3 is used as a low-frequency horn indicator lamp 5 for indicating the working state of the ultrasonic low-frequency horn 4; the time control circuit is a pulse oscillator with adjustable duty ratio, wherein the duty ratio refers to the proportion of the electrifying time relative to the total time in a pulse cycle; the duty ratio of the circuit is controlled by the sliding rheostat R2 and the sliding rheostat R3 together; the sound wave generating circuit utilizes a storage technology to solidify 3 ultrasonic waves and one imitation magnetic resonance wave in the sound wave generating circuit; the power amplifier circuit adopts a cheap and beautiful universal low-power audio amplification power amplifier T which has the characteristics of few peripheral elements, wide voltage range, small distortion degree and simple assembly; when the switch S is closed, the time base circuit NE555 is electrified to work, pulse output is continuously carried out on three pins of the output end of the time base circuit NE555, when pulse exists, the electromagnetic relay J is excited and attracted, the normally open contact J1 of the electromagnetic relay is switched on, the rear-stage circuit is enabled to obtain power supply to work, sound waves are generated, when the integrated chip U1 is triggered once, the sound waves are output, and after the power of the power amplifier T is amplified, the ultrasonic low-frequency horn 4 emits low-frequency ultrasonic waves which can not be heard by human ears.

The fourth concrete implementation mode: referring to fig. 4, the present embodiment is further limited to the rat/insect repelling and killing device according to the first, second or third embodiments, and in the present embodiment, the device further comprises a conductive ground nail 8 and a solar panel 9;

the top end of the conductive ground nail 8 penetrates through the ultrasonic low-frequency horn 4 and is fixed on the supporting body 1;

the solar panel 9 is used for charging the power supply E.

In the embodiment, the shape of the supporting body 1 is changed, the conduction ground nail 8 and the solar cell panel 9 are additionally arranged, the device is suitable for being used outdoors, the bottom end of the conduction ground nail 8 is fixed on the ground, low-frequency ultrasonic waves are transmitted in a solid medium transmission mode, the low-frequency ultrasonic waves and the ground solid medium generate vibration, various insects at the corners of walls and cabinets can be effectively repelled, pests hiding in pipelines or gaps are avoided, and a mouse is surprised to escape.

Claims (4)

1. A rat and insect repelling and killing device is characterized by comprising a bearing body (1), an insect killing power grid (3), an energy-saving blue light lamp tube (2), an ultrasonic low-frequency horn (4), a low-frequency horn indicator lamp (5), a blue light lamp tube indicator lamp (6), a photosensitive switch (7), a power supply E and a rat and insect repelling circuit;

the energy-saving blue light lamp tube (2) is arranged on the bearing body (1), and the insect killing power grid (3) is coated on the periphery of the energy-saving blue light lamp tube (2);

the ultrasonic low-frequency horn (4) is fixed on the bearing body (1);

the power supply E is used for supplying power to the ultrasonic low-frequency horn (4), the energy-saving blue light lamp tube (2) and the insect killing power grid (3);

the photosensitive switch (7) is used for simultaneously controlling the connection and disconnection of the energy-saving blue light lamp tube (2) and the insect killing power grid (3);

the low-frequency horn indicator lamp (5) is used for indicating the working state of the ultrasonic low-frequency horn (4);

the blue light tube indicator lamp (6) is used for indicating the working state of the energy-saving blue light tube (2);

the rat repelling circuit is used for controlling the ultrasonic low-frequency horn (4) to send out low-frequency ultrasonic waves.

2. The rat repelling and insect killing device according to claim 1, wherein the positive pole of the power supply E is connected with one end of a photosensitive switch (7), and the other end of the photosensitive switch (7) is simultaneously connected with the positive power supply end of the insect killing power grid (3) and the positive power supply end of the blue light tube indicator lamp (6); the cathode power supply end of the blue light tube indicator lamp (6) is connected with the anode power supply end of the energy-saving blue light tube (2); the negative power supply end of the energy-saving blue light lamp tube (2) and the negative power supply end of the disinfestation power grid (3) are connected with the negative electrode of the power supply E at the same time.

3. The rat repelling and killing device of claim 1, wherein the rat repelling circuit comprises a switch S, an electromagnetic relay J, a time control circuit, a sound wave generating circuit and a power amplifying circuit;

the time control circuit comprises a time base circuit NE555, a resistor R1, a slide rheostat R2, a slide rheostat R3, a capacitor C1, a capacitor C2, a diode D1, a diode D2 and a diode D3;

the sound wave generating circuit comprises an integrated chip U1, a resistor R4, a slide rheostat R5, a capacitor C3, a capacitor C4, a capacitor C5 and a capacitor C6;

the power amplification circuit comprises a power amplifier T, a capacitor C7 and a capacitor C8;

the model number of the integrated chip U1 is: KD-5605; the model of the power amplifier T is LM 386;

the negative electrode of the power supply E is simultaneously connected with one end of a capacitor C1, a first pin of a time-base circuit NE555, one end of a capacitor C2, one end of a coil of an electromagnetic relay J, the cathode of a diode D3, a seventh pin of an integrated chip U1, one end of a capacitor C5, the inverting input end of a power amplifier T, the negative electrode power supply end of the power amplifier T and the negative electrode power supply end of an ultrasonic low-frequency horn (4);

the negative electrode of the power supply E is connected with one end of the switch S;

the other end of the switch S is simultaneously connected with one end of the resistor R1, an eighth pin of the time-base circuit NE555, a fourth pin of the time-base circuit NE555 and one end of a normally open contact J1 of the electromagnetic relay J;

the other end of the resistor R1 is connected with the fixed end of the slide rheostat R2;

the other end of the capacitor C1 is connected with the anode of the diode D1;

the cathode of the diode D1 is simultaneously connected with the moving end of the slide rheostat R3, the cathode of the diode D2, the pin II of the time base circuit NE555 and the pin six of the time base circuit NE 555;

the pin seven of the time base circuit NE555 is simultaneously connected with the anode of the diode D2, the moving end of the slide rheostat R2 and the fixed end of the slide rheostat R3;

a pin III of the time-base circuit NE555 is simultaneously connected with the other end of the coil of the electromagnetic relay J and the anode of the diode D2;

a fifth pin of the time-base circuit NE555 is connected with the other end of the capacitor C2;

the other end of a normally open contact J1 of the electromagnetic relay J is simultaneously connected with one end of a capacitor C3, one end of a resistor R4, the moving end of a slide rheostat R5 and the positive power supply end of a power amplifier T;

a pin nine of the integrated chip U1 is connected with the other end of the capacitor C2;

a pin II of the integrated chip U1 is connected with the other end of the capacitor C3;

the third pin of the integrated chip U1 is simultaneously connected with the sixth pin of the integrated chip U1 and the other end of the resistor R4;

the first pin of the integrated chip U1 is connected with the fixed end of the slide rheostat R5;

a No. ten pin of the integrated chip U1 is connected with one end of a capacitor C4, and the other end of the capacitor C4 is connected with a No. eleven pin of the integrated chip U1;

a No. fifteen pin of the integrated chip U1 is connected with one end of a capacitor C6, and the other end of the capacitor C6 is connected with the non-inverting input end of the power amplifier T;

one end of the gain setting of the power amplifier T is connected with one end of the capacitor C7, and the other end of the gain setting of the power amplifier T is connected with the other end of the capacitor C7;

the output end of the power amplifier T is connected with one end of a capacitor C8, and the other end of the capacitor C8 is connected with the positive power supply end of the ultrasonic low-frequency horn (4).

4. A rat and insect repelling and killing device according to claim 1, 2 or 3, further comprising a conductive ground nail (8) and a solar panel (9);

the top end of the conductive ground nail (8) penetrates through the ultrasonic low-frequency horn (4) and is fixed on the bearing body (1);

the solar cell panel (9) is used for charging the power supply E.

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