KR200475649Y1 - Rat exterminator - Google Patents

Abstract

The present invention relates to a rat control system, and a technical problem to be solved is to discharge a commercial power source supplied from the outside instantaneously so as to flow electric current of different polarity to a wire, so that a nearby mouse can be electrically discharged and eliminated.
To this end, one embodiment of the present invention is a rats eliminator comprising at least one wire disposed on the area of the rats and an elimination plate made of aluminum foil or metal foil to cover the wire, A high voltage generating unit for generating a high voltage pulse; A relay unit for interrupting the application of the high voltage pulse from the high voltage generating unit to the electric wire; A mouse movement sensing unit for sensing movement of the mouse; And a control unit for controlling the operation of the high voltage generator and the relay unit according to a detection signal of the mouse movement sensing unit to apply the high voltage pulse to the electric wire, wherein the electric wire is arranged in two columns or rows, Discloses a rat eliminator in which electric currents of different polarities are flowing through the electric wires and high voltage pulses of 550 to 600 V are generated between the electric wires when electric currents of different polarities are supplied to the electric wires.

Description

Rat Exterminator {RAT EXTERMINATOR}

One embodiment of the present invention relates to a rat exterminator that extinguishes and extinguishes rats using high voltage pulses generated by instantaneous discharge of voltage.

In general, rats, which are mainly living in Korea, such as rats or ducks, depend on people in farming areas such as sanitary warehouses, livestock farms, sewers, and sewage areas. They also steal food, contaminate them, It also causes electric shocks, resulting in a fire due to electric leakage, and it can also cause infectious diseases by transferring bacteria such as pest or typhus.

Conventionally, a method for eliminating such a mouse has been continuously studied and developed, for example, a method of eradicating a mouse using ultrasound. In other words, ultrasonic waves used for eradication of rats are ultrasonic waves in the frequency range of 18-30 kHz, which is an area of ultrasonic waves that humans can not hear. In this ultrasound region, rats are reported to exhibit aversion and avoidance, and ultrasonic generators used for eradication of rats are based on the characteristics of rats showing and avoiding rats on certain frequency bands resulting therefrom (Lee et al., "Effect of Ultrasonic Generator on Maternal Injury ", Korean Psychological Association: Biology and Physiology, Vol.1, 77-82, 1989). However, the method of exterminating the mouse using only ultrasonic waves is merely avoiding the mouse rather than eradicating it, which is not effective.

Japanese Patent Laid-Open Publication No. 10-2009-0103900 " Method of eliminating rats, method of capturing rats, Published Japanese Patent Application Laid-Open No. 10-2009-0019936 "

The present invention provides a rat eliminator capable of discharging a commercial power source supplied from an external source by discharging electric current of different polarity to the electric wire so that a nearby rat can be electrically charged.

According to an embodiment of the present invention to achieve the above-mentioned object, the inventive rats mover comprises at least one wire disposed on the area of the rats and an anti-fouling plate made of aluminum foil or metal foil to cover the wire A high voltage generator for generating a high voltage pulse by receiving power from an external source; A relay unit for interrupting the application of the high voltage pulse from the high voltage generating unit to the electric wire; A mouse movement sensing unit for sensing movement of the mouse; And a control unit for controlling the operation of the high voltage generator and the relay unit according to a detection signal of the mouse movement sensing unit to apply the high voltage pulse to the electric wire, wherein the electric wire is arranged in two columns or rows, When electric current of different polarity flows in the electric wire, and electric current of different polarity is supplied to each electric wire, a high voltage pulse of 550V to 600V may be generated between the electric wires.

The high voltage generating unit may include a high voltage amplifying unit that receives the power and amplifies the power to a high voltage and a high voltage converting unit that outputs the amplified high voltage through a capacitor.

The rat repellant may further include a high voltage sensing unit for sensing a high voltage pulse output from the high voltage generating unit; And a display unit for displaying a detection result of the high voltage sensing unit and an operation state of the high voltage generating unit.

Wherein the rat movement detecting unit comprises: a sensing period setting unit for setting a period for sensing the mouse movement; A movement sensor unit for sensing the rat movement through the period set in the detection period setting unit; A motion determiner for determining whether the mouse movement is continuous; And an alarm generating unit for generating a motion alarm according to the detection result of the mouse movement.

According to the present invention, the rat eliminator is easy to use because the rat is electrified when the rat is close, without using various conventional remedies or capturing means, and it is easy to use and fixed or carried according to the user's choice, .

In addition, one embodiment of the present invention can be used indoors or outdoors, and there is no harm to the human body because no medicine is used.

FIG. 1 is a block diagram schematically showing a rat repellent according to the present invention. FIG.
FIG. 2A is a block diagram schematically showing the high voltage generator of FIG. 1; FIG.
FIG. 2B is a block diagram schematically showing the rat motion detecting unit of FIG. 1. FIG.
Fig. 3 is a block diagram showing an example in which the rat remover according to the present invention is actually installed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The applicant will now describe in detail the construction of the embodiments with reference to the accompanying drawings.

Detailed descriptions of known functions and configurations that may be unnecessarily obscured by the gist of the present invention will be omitted.

FIG. 1 is a block diagram schematically showing a rat control system according to the present invention, FIG. 2 (a) is a block diagram schematically showing a high voltage generating unit of FIG. 1, Fig. 3 is a block diagram showing an example in which the rat remover according to the present invention is actually installed.

Referring to FIG. 1, the rat control device 10 according to the present invention comprises at least one wire 2 disposed on the area of the rats, and an inhibitor plate 2 made of aluminum foil or metal foil to cover the wire 2, (3) for supplying a high voltage pulse to the electric wire (2).

The deterrent plate 3 is formed flat so as to be positioned on the rugged area, for example, on the ground, and more preferably attached through an adhesive so as not to move on the area. As shown in Fig. 3, at least two aluminum foils or metal foils may be disposed in parallel to each other.

The electric wire 2 is made of a conductive material and is provided so as to be respectively connected to the preventive plate 3. For example, in the case where the electric wire 2 is composed of two lines, a current flows in one of the electric wires 2 and a positive electric current flows in the other electric wire 2 to generate a high voltage therebetween. When a nearby rat is electrified, it is eliminated. The electric wire 2 may be installed in parallel with two or four or more lines depending on the size of the area to be installed in order to widen the space where the rat can be charged.

The rat control unit 10 includes a high voltage generating unit 110, a relay unit 120, a mouse movement sensing unit 130, a high voltage sensing unit 140, a display unit 150, and a control unit 160.

The rat control unit 10 may include various components such as the high voltage generating unit 110, the relay unit 120, the mouse movement sensing unit 130, the high voltage sensing unit 140 ), The display unit 150 and the control unit 160) may be implemented as a single electronic circuit on a single printed circuit board and provided in the case. As described above, the case may be formed of a polyolefin resin composition to be described later to be used for a portable use or a mobile use, so that the strength, impact resistance and heat resistance can be improved.

The high voltage generating unit 110 is a device that receives power from the outside and generates a high voltage pulse. That is, when the movement of the rat is detected by the mouse movement sensing unit 130, the high voltage generating unit 110 amplifies a power supplied from the outside and applies a high voltage, for example, a voltage of 600 V or more to the wire 2.

As shown in FIG. 2A, the high voltage generating unit 110 includes a high voltage amplifying unit 111 that receives power and amplifies the voltage to a high voltage, and a high voltage converting unit 112 that outputs the amplified high voltage through a capacitor . The high voltage amplifying unit 111 amplifies the power supplied through the electric wire 2 to a predetermined voltage level (about 600 V or higher) through a voltage doubler circuit unit (not shown) and outputs the amplified voltage. The high voltage converting unit 112 converts the power supplied from the outside into a driving voltage and outputs the driving voltage. The power supplied from the outside may be a commercial power (for example, 220V) supplied from the power supply unit 1 through the jack. For example, the high-voltage generating unit 110 receives a power of AC 220 V and generates a constant voltage of a high-voltage pulse and supplies it to the getter plate 3 through the electric wire 2, It is possible to extend the instantaneous discharge generation region up to a space of up to

The relay unit 120 is a switching device that interrupts the application of a high voltage pulse from the high voltage generating unit 110 to the eliminating plate 3 via the electric wire 2. That is, the relay unit 120 is switched by the control unit 160 to apply the high voltage pulse signal of the high voltage generating unit 110 to the elimination plate 3 only when the movement of the mouse is sensed. Accordingly, the relay unit 120 connects the high-voltage generating unit 110 and the elimination board 3 to transmit the high-voltage pulse signal to the elimination board 3 when the movement of the mouse is sensed.

The mouse movement sensing unit 130 is a device for sensing movement of a mouse at a predetermined period. The mouse movement sensing unit 130 analyzes movement of the mouse based on the detection result by the movement detection sensor, and outputs a motion detection alarm when motion occurs.

2B, the mouse movement sensing unit 130 includes a sensing period setting unit 131, a motion sensor 132, a motion determiner 133, (134).

The sensing period setting unit 131 sets a sensing period of the motion sensing sensor, divides the sensed information in units of sensing periods according to the sensing period, (133). For example, if the detection period is one second, the detection period setting unit 131 may transmit all information to the motion determination unit 133, and if the detection period is three seconds, three seconds, six seconds, nine seconds, And transmits only the even-numbered units to the motion determiner 133 as well.

In addition, the detection period setting unit 131 may adjust the motion detection period. In the present invention, it is assumed that motion is generated for a predetermined period of time when frequent motions occur in consideration of continuity of motion generation, and motion detection is performed again after a specific point of time without detecting motions during that period. Specifically, the detection period setting unit 131 sets the initial detection period to 1 second and confirms the motion detection every second. The detection period setting unit 131 increases the detection period by 1 when the motion occurs again within 3 seconds after the motion is generated, and sets the detection period as the basic motion occurrence period for the next 3 seconds. The detection period setting unit 131 basically transfers the related information to the alarm generating unit 134 on the assumption that the motion is generated in the basic motion generating period and excludes the information of the corresponding period from the motion detection check target. In addition, the detection period setting unit 131 reduces the detection period by 1 when no motion occurs within 3 seconds after the motion is generated. In addition, the detection period setting unit 131 receives the motion occurrence from the motion determination unit 133.

The motion sensor 132 detects movement of the mouse through the period set in the detection period setting unit 131 and includes a motion sensor for detecting movement of the mouse. The motion sensor detects the temperature of the mouse (far infrared ray with a wavelength of about 10 μm) in the detection range and operates it. It detects the signal reflected from the body of the mouse by emitting infrared rays or ultrasonic waves, And a method in which it is sensed when it is obstructed by a mouse, etc. However, the present invention does not limit the kind of motion sensor. The motion sensor 132 transmits mouse movement detection information to the alarm generator 134. [

The movement determining unit 133 determines whether the mouse movement is continuous or not. The movement determining unit 133 detects movement of the mouse through the movement sensor 132 within a motion detection period set by the detection period setting unit 131 If the mouse is judged to be moving. The motion determiner 133 transmits motion occurrence information to the alarm generator 134 when the mouse movement is continuous.

The alarm generating unit 134 generates a predetermined motion alarm according to a determination result of the mouse movement by the motion determining unit 133. [ That is, the alarm generating unit 134 receives the motion detection occurrence information and the detection information from the motion sensor unit 132, generates a motion alarm, and outputs the motion alarm through a microphone or the like.

The high voltage sensing unit 140 is a device for sensing a high voltage pulse output from the high voltage generating unit 110. The high voltage sensing unit 140 is connected to the high voltage generating unit 110 to detect a high voltage state, Always detect.

The display unit 150 is a device for displaying the detection result of the high voltage sensing unit 140 and the operation state of the high voltage generating unit 110 and has an indicator lamp or a display window for displaying the information. The display unit 150 may be a liquid crystal display (LCD), a light emitting diode, or the like capable of displaying a guidance message using text or images. However, the present invention is not limited thereto.

The controller 160 controls the operations of the high voltage generator 110 and the relay unit 120 according to the sensing signal of the mouse movement sensing unit 130 to apply the high voltage pulse to the wire 2. That is, the controller 160 receives the sensing signal transmitted from the motion sensor, determines the movement of the mouse through the motion determiner 133, generates a high voltage pulse when it is determined to be a mouse movement, And controls the high voltage generating unit 110 and the relay unit 120 so that the high voltage generating unit 110 and the relay unit 120 are applied to the preventive plate 3. At this time, the high-voltage pulse signal lasts for a predetermined time at a predetermined frequency so that a momentary shock can be induced by a high voltage when a moving rat comes into contact with the obstacle plate 3. For example, the high voltage pulse signal preferably lasts for about three seconds at a frequency of about 10 Hz.

In addition, the controller 160 includes a memory (not shown) for counting time and a memory for storing mouse access information according to a signal transmitted from the motion sensing unit. At this time, the access information stored in the memory includes the time at which the mouse sensed by the movement contacted the repellent plate 3, the number of contact times, and the like. In addition, the memory may store program data for operation of the mouse suppressor 10, setting information necessary for operation, operation result data, and the like.

The controller 160 determines whether an abnormality has occurred in the high voltage generator 110 using a diagnostic signal transmitted from the high voltage diagnostic unit and displays a message to inform the occurrence of an abnormality in the high voltage generator 110 upon occurrence of an abnormality Or controls the display unit 150 to light the indicator.

The rat control unit 10 according to the present invention configured as described above is easy to use because the rat is electrified if the rat is close to the control unit without using various existing types of detoxification agents or capturing means, It can be fixed or carried and used to increase the efficiency of elimination. In addition, one embodiment of the present invention can be used indoors or outdoors, and there is no harm to the human body because no medicine is used.

The mouse movement detection unit 130, the high voltage sensing unit 140, the display unit 150, and the control unit 160, which constitute the present mouse suppressor 10, and the high voltage generating unit 110, the relay unit 120, (Not shown) is formed of a polyolefin resin composition containing 25 to 39% by weight of an olefin resin and 61 to 75% by weight of an inorganic filler. The inorganic filler may be glass fiber, barium sulfate, or a mixture thereof.

The olefin-based resin preferably contains 25 to 39% by weight of the ultrafine crystalline resin and improves the flowability of the inorganic filler and improves the heat resistance, rigidity and thermal deformation of the polyolefin resin composition. When the content of the olefin resin is less than 25% by weight, the inorganic filler is used in an excessive amount to lower the flowability and moldability of the resin. When the olefin resin is more than 39% by weight, Which is not effective in improving stability and dimensional stability.

More specifically, the ultra-crystalline olefin-based resin is selected from the group consisting of isotactic polypropylene, propylene-ethylene copolymer, propylene-1-butene copolymer, propylene- A copolymer or a random copolymer of propylene with one or more selected from among copolymers, or a mixture thereof.

The olefin resin preferably has a melt index of 1 to 70 g / 10 min (230 ° C), more preferably 3 to 30 g / 10 min.

It is preferable that the isotactic peptad fraction of the homo part in the olefin resin is 96 to 99% by C13-NMR. If it is less than 96%, the heat resistance, rigidity and heat change of the polyolefin resin composition are deteriorated .

The inorganic filler is preferably glass fiber, barium sulfate, or a mixture thereof. The inorganic filler includes 61 to 75% by weight of the inorganic filler and improves strength, impact resistance, and surface coating property when the injection-molded article is manufactured. If the amount of the inorganic filler is less than 61% by weight, the strength and impact resistance are lowered and the problem is caused by the low weight. When the inorganic filler is more than 75% by weight, the production process is not smooth due to high weight and high rigidity.

The glass fiber preferably has a chopped strand shape having an average particle diameter of 5 to 15 탆 and a length of 1 to 16 mm. When the average particle diameter is less than 5 탆, the glass fiber tends to be broken during mixing The stiffness effect is insufficient. When the thickness exceeds 15 탆, the deformation of the molded article may be deteriorated and the appearance of the molded article may be deteriorated. If the length is less than 1 mm, the strength, impact resistance and weight are lowered. If the length is more than 16 mm, it is difficult to input the material in the processing step.

More specifically, it is preferable that the glass fiber is a glass fiber whose surface has been treated with a modified polypropylene obtained by grafting an unsaturated carboxylic acid or an anhydride thereof. In producing an injection molded article, the strength, impact resistance and heat resistance It plays an effective role in improvement. The unsaturated carboxylic acid is preferably one selected from the group consisting of acrylic acid, tricrylic acid, maleic acid, fumaric acid, itaconic acid, crotonic acid, ditralic acid, sorbic acid and phosphoric acid, and the anhydride is preferably an acid anhydride, an ester, And metal salts, and specific examples thereof include maleic anhydride, itaconic anhydride, anhydrodithioconic acid, sodium acrylate, and sodium methacrylate. In order to treat the surface of the glass fiber, it is preferable to use a modified polypropylene prepared by charging an unsaturated carboxylic acid or its anhydride and a catalyst to a crystalline polypropylene into a twin-screw extruder and melting by heating at 180 to 220 ° C , The modified polypropylene and the glass fiber are preferably treated at a ratio of 1: 9.

The barium sulfate preferably has an average particle diameter of 0.5 to 1 μm by laser diffraction scattering. When used in combination with glass fibers, the barium sulfate plays an effective role in exhibiting high weight characteristics. If less than 0.5 μm, high weight and high rigidity properties And it is difficult to inject in the processing step. When the thickness exceeds 1 탆, there is a problem that the gloss of the surface appearance of the molded article is lowered during the production of an injection molded article.

When the glass fiber and barium sulfate are mixed and used as an inorganic filler, the mixing ratio of glass fiber and barium sulfate is preferably 2: 8 to 8: 2, more preferably 4: 6 to 5: 5.

As described above, the present invention is not limited to the above-described embodiment, but rather may be applied to other types of rats, Any person skilled in the art will appreciate that there is a technical spirit of the present invention to the extent that various modifications can be made.

1: Power supply 2: Wires
3: Inhibition plate 10: Rat repellent
110: high voltage generator 111: high voltage amplifier
112: high voltage conversion unit 120: relay unit
130: Mouse movement detection unit 131: Detection period setting unit
132: Motion sensor unit 133:
134: an alarm generating unit 140: a high voltage sensing unit
150: display unit 160:

Claims (4)

At least two or more aluminum foils or metal foils which are attached on the surface of the paper so as to be placed on the ground of the area where the mouse is carried and which are provided so as to cover the electric wires and are electrically connected to the electric wires, An eradication plate;
A high voltage generating unit that receives power from the outside to generate a high voltage pulse;
A relay unit for interrupting the application of the high voltage pulse from the high voltage generating unit to the electric wire;
A mouse movement sensing unit for sensing movement of the mouse;
Wherein the control unit controls the operation of the high voltage generating unit and the relay unit according to a sensing signal of the mouse movement sensing unit to apply the high voltage pulse as the electric wire and when the mouse movement is detected through the mouse movement sensing unit, And a control unit controlling the relay unit to apply the high voltage pulse signal to the elimination plate.
A high voltage sensing unit for sensing a high voltage pulse output from the high voltage generating unit; And
A display unit for displaying a detection result of the high voltage sensing unit and an operation state of the high voltage generating unit; , ≪ / RTI &
The electric wires are arranged in two rows or columns, respectively, and electric currents of different polarities flow through the electric wires. When electric currents of different polarities are supplied to the electric wires, a high voltage pulse of 550 to 600 V Lt; / RTI &
The high voltage generating unit includes a high voltage amplifying unit for amplifying power supplied from the outside to a preset voltage level when the mouse movement is detected by the rat motion detecting unit and a high voltage converting unit for outputting the amplified high voltage through a capacitor and,
The mouse movement detection unit may include a sensing period setting unit for setting a period for sensing the mouse movement, a movement sensor unit for sensing the mouse movement through the period set in the sensing period setting unit, And an alarm generating unit for generating a motion alarm according to the detection result of the mouse movement. The detection period setting unit may set a period of time for a certain period of time Is set to perform motion detection again from a specific point in time without detecting motion during that time, assuming that motion has occurred basically,
Wherein the high voltage generating unit, the relay unit, the mouse movement sensing unit, the high voltage sensing unit, the display unit, and the control unit are mounted in a case mounted on one printed circuit board and the case is made of a polyolefin resin composition Formed,
≪ / RTI > delete delete delete

Images