KR20130025506A

KR20130025506A - The apparatus of subjugation a animal with smart function

Info

Publication number: KR20130025506A
Application number: KR1020110088850A
Authority: KR
Inventors: 표창해; 김학구
Original assignee: 표창해; 김학구
Priority date: 2011-09-02
Filing date: 2011-09-02
Publication date: 2013-03-12

Abstract

PURPOSE: A wild animal eliminating apparatus is provided to effectively shun wild animals out and to search the location of a damaged supporting pole. CONSTITUTION: A wild animal eliminating apparatus comprises a wire(10) for blocking the entrance of wild animals; a wire separation unit(20) for separating wires from each other; a wire tension unit(20) for transmitting the sensed tension signal to a control box unit; a supporting pole(40) for elastically supporting the wire tension unit; a first lighting unit(50) for turning on multiple LED lights firstly; a solar cell power supplying unit(60) for supplying the generated power to each device; a second lighting unit(70) for turning on psychedelic lights of high brightness secondly; a speaker unit(80) for outputting loud sound effects under the control of the control box unit; a bell(90) for outputting a bell sound or siren sound under the control of the control box unit; and a control box unit(100) for transmitting the signals about the motion of wild animals to a user terminal in a remote location.

Description

THE APPARATUS OF SUBJUGATION A ANIMAL WITH SMART FUNCTION}

The present invention relates to an independent power supply, to combat wildlife through sound and light, and to combat smart wildlife that can navigate through a user terminal the location of a damaged prop.

Conventionally, scarecrows have been used to chase birds and wild animals, but the effect is insignificant. In recent years, more and more farmers install electric fences.

However, the installation of the electric fence is the most effective to prevent the invasion of wild animals, but there is a problem that it is impossible to respond to birds, and installation costs and maintenance costs are high.

Bird droppings are ugly, unsanitary, and corrosive, which can seriously damage food stores.

The major harmful wildlife that damages the field or cemetery rapidly increases, and the wild boar and elk are wild nocturnal animals that search for food at night. Their elimination effect is weak and the elimination effect is extremely minimal even as a device for lighting only at night.

In order to solve the above problems, the device for combating algae of Korean Utility Model No. 20-0239741 is a device for combating sounds using birds' dislike, which has limited utility by using only sound.

In addition, although it has been suggested to eradicate wild animals through light, it can emit light only at a specific location, and there is a problem that it is difficult to eradicate wild animals where no light is generated.

In addition, there is no independent power supply means, the user has to check the power means of the wild animal eradication frequently, then a problem occurs that must be replaced with a new battery, damaged by wild animals during widespread wild animal eradication Difficult to navigate the retreat location has caused a problem that the user should check directly.

Domestic Registration Utility Model No. 20-0239741

In order to solve the above problems, the present invention can supply power to each device through a solar cell power supply unit, which is an independent power supply means, and can install wild animal repellent at low cost, and the first (first light emitting means) + 2nd (2nd light emitting means) + 3rd (light and sound through the speaker part) + 4th (dividing the wire separating part and direct impact through the hedgehog hook and firecracker) can effectively combat wildlife In addition, by adding a unique identification ID to the props, by sending a check signal to a plurality of props through the user terminal (smartphone), by checking the response signal according to the smart type of wild animals that can search the location of the damaged props The purpose is to provide a fight.

Smart wild animal eradication according to the present invention to achieve the above object

A wire (10) installed between the support post and the support post to block wildlife from entering a specific protected place;

After the wire is connected between the magnets of the N and S poles, the loosened wire is pulled to give tension, and the wire separation part that separates the wire from the wire when the pushing force of the wild animal exceeds the reference set value ( 20) with,

The wire tension unit 30 is installed in a multi-step shape between the holding posts, and detects the movement of the wild animal with a wire tension, and then transfers the detected tension signal to the control box unit.

A unique identification ID is given, and the support base 40 for elastically supporting the wire tension portion,

A first light emitting means 50 connected to a wire to firstly emit a plurality of LED lights under the control of the control box;

Solar cell power supply unit 60 is located on one side of the upper end of the pillar, and supplies a plurality of electricity generated by collecting and generating electricity through the solar cells in a matrix structure to each device,

A second light emitting means (70) positioned at the bottom of the solar cell power supply and configured to secondarily emit a high-brightness psychedelic light under the control of the control box;

A speaker unit 80 which is located on one side of the second light emitting unit and outputs a high sound effect sound under the control of the control box unit;

Located on one side of the speaker unit, under the control of the control box unit bell bell (90) to output a signal of the bell or siren,

Located at one side of the center of the support, connected to the wire tension unit, the first light emitting means, the solar cell power supply unit, the second light emitting means, the speaker unit, the bell, and controls the overall operation of each device, the first light emitting means, the second It is achieved by controlling the light emitting means, the output period of the speaker unit, and the control box unit 100 for transmitting the movement signal of the wildlife detected by the wire tension unit to the remote user terminal.

As described above, in the present invention, the assembly is easy and can be easily mounted on the ground or any structure, and there is no need for maintenance or a separate power supply, and light and sound through the first light emitting means + the second light emitting means + the speaker unit. Simultaneously output the wild animal eradication rate can be improved by 80% compared to the existing, and by adding a unique identification ID to the props, by sending a check signal to a plurality of struts through the user terminal (smartphone), according to the response signal Checking has a good effect to explore the location of the broken strut.

1 is a block diagram showing the components of the smart wild animal eradication according to the present invention,
2 is an enlarged block diagram of components of the wire tension unit according to the present invention;
3 is an enlarged view illustrating components of a wire separating part according to the present invention;
Figure 4 is a block diagram showing the components of the control box unit according to the present invention,
Figure 5 is a perspective view of the entire component of the strut in accordance with the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 relates to a block diagram showing the components of the smart wild animal eradication according to the present invention, which is a wire 10, a wire separation unit 20, a wire tension unit 30, the holding table 40 The first light emitting unit 50, the solar cell power supply unit 60, the second light emitting unit 70, the speaker unit 80, the seedling 90, and the control box unit 100 are configured.

First, the wire 10 which concerns on this invention is demonstrated.

The wire 10 is installed between the support and the support ban serves to block the wildlife from entering the specific protection place.

It consists of a fishing line or wire.

As shown in FIG. 1, the wire according to the present invention has a wire separating part formed thereon, and the first light emitting unit, the hedgehog-type hook, and the firecracker (bean pellets) are formed on a vertical line.

When the hedgehog-type hooks try to enter while rubbing the body toward the wire, when the wire is separated through the wire separating part, it plays a role of scaring the wound by directly contacting the body of the wild animal.

The firecrackers are wrapped in a triangular shape so that the wild animal shakes the wire or exerts an external pressure, and when the wire is separated through the wire separation unit, the wild animal is surprised by the sound of popping firecrackers while falling to the ground by gravity. Play a role.

Next, the wire separation unit 20 according to the present invention will be described.

The wire separation unit 20 is connected between the wire and the wire with a magnet of the north pole and the south pole, and then give tension by pulling the loose wire, when the pushing force of the wild animal exceeds the reference value, the wire and the wire It serves to separate between.

As shown in FIG. 3, the first tension control unit 21, the second tension control unit 22, and the wire connection unit 23 are configured.

The first tension control unit 21 serves to give tension by pulling a loose wire while supporting one side of the separated wire end in the left direction.

It consists of a tension adjustment bar of bolt tightening method.

The second tension control unit 22 serves to give tension by pulling the loose wire while supporting the other end of the separated wire end in the right direction.

It consists of a tension adjustment bar of bolt tightening method.

The wire connecting portion 23 is formed in a groove shape between the first tension control unit and the second tension control unit, when the pushing force of the wild animal exceeds the reference set value while being coupled to the N pole and the S pole, the wire and the wire It serves to separate between.

Here, the reference set values are set to 157G to 470G.

In other words, assuming that the weight of a wild animal is usually 40kg ~ 120kg, if converted into units of force, it is 392N ~ 1176N.

And since 1N = 0.4G, 392N-1176N will be 157G-470G.

By setting the reference value of the wire connection portion is set to 157G ~ 470G, it is possible to separate the wire and the wire in the reference set range when the wild animal keeps pushing the wire, it is possible to solve the problem that the props fall or damage, Firecrackers (wire peat) connected to the wires can surprise the wildlife with a hiccup as they fall to the floor, and the hedgehog hook can be amazed by injuring the wildlife by directly impacting it.

Next, the wire tension unit 30 according to the present invention will be described.

The wire tension unit 30 is installed in a multi-step shape on one side of the holding post, and detects the movement of the wild animal as a wire tension, and serves to transmit the sensed tension signal to the control box.

2, the wire spring 31 and the tension arm switch 32 are configured.

The wire spring 31 is connected to one side of the holding rod, and when the movement of the wild animal is transmitted through the wire tension, the wire spring 31 pulls the tension arm switch and serves to send a tension signal to the tension arm switch.

The tension arm switch 32 is located at one side of the lower end of the wire spring, and when the wire tension is transmitted, the switch is operated to change the resistance value to an amount of change in resistance and transmit it to the control box unit.

Next, the support stand 40 which concerns on this invention is demonstrated.

The support stand 40 is given a unique identification ID, and serves to elastically support the wire tension portion.

It consists of a rod in the vertical direction and has an RF sensor node inside.

Here, the RF sensor node receives an RF signal to the microcomputer unit of the control box unit and performs bidirectional communication to output a tension signal sensed by the tension arm switch.

At this time, the RF sensor node outputs the tension signal sensed by the tension arm switch together with the unique identification ID given to the strut.

The strut has a light weight, elasticity, durability, and anti-rust properties, and the one prepared by coating the anti-rust agent to the outside of the foamed aluminum.

Light weight, elasticity, and durability of the strut can be achieved by using foamed aluminum, and the rust preventiveness can be achieved by forming a film of trivalent chromate (Cr ³⁺ ) on the surface of the foamed aluminum.

Looking at the holding post in more detail, first, the production of foamed aluminum is first dissolved in 98 ~ 99.5% pure aluminum in a high frequency induction furnace, filled in a chamber maintaining a temperature of 700 ~ 720 ℃, and then rotated by a stirring impeller Stir the molten aluminum at several 500 to 700 rpm,

In this way, while stirring with a stirring impeller, calcium as a thickener is added to the chamber at 0.5 to 2 wt% with respect to the weight of pure aluminum, and 1 to 2 wt% of TiH ₂ (Titanium hydride) powder having a particle size of 200 to 250 µm as a blowing agent. It is made by pouring into a foam.

By coating trivalent chromate (Cr ³⁺ ) on the surface of the foamed aluminum thus produced, the antirust property is greatly improved.

The third is subjected to activation treatment by the acid treatment with a 0.5% HNO ₃ was washed with water foamed aluminum coating process is to increase the trivalent chromate (Cr ⁺ ³⁾ the adhesion and gloss chromate (Cr ^3+), then expanded Aluminum is immersed in ^trivalent chromate (Cr ³ ⁺ ) solution for 30 seconds, washed with cold water, and then washed again in hot water at 50 ~ 60 ℃ and dried at 60 ℃ to complete.

Specific embodiments of the production of the holding post is as follows.

After dissolving 98% pure aluminum in a high frequency induction furnace, the molten aluminum was placed in a chamber maintaining 710 ° C, and then stirred at 500 rpm to add calcium as a thickener, followed by a thickening process. TiH ₂ (Titanium hydride) powder is added to form a foamed aluminum through a foaming process at 710 ℃.

In this case, the amount of the molten aluminum, the thickener, and the blowing agent is 96 wt% of the molten aluminum, 2wt% of the calcium as a thickener, and 2wt% of the TiH ₂ (Titanium hydride) powder as the blowing agent.

After the foamed aluminum is manufactured in this way, the coating process of ^trivalent chromate (Cr ³⁺ ) is performed to increase the rust resistance of the foamed aluminum.

At this time, in order to increase the adhesiveness and gloss of trivalent chromate (Cr ³⁺ ), the foamed aluminum is subjected to acid treatment using 0.5% HNO ₃ .

After the acid treatment, the foamed aluminum is immersed in a ^trivalent chromate (Cr ³ ⁺ ) solution for 30 seconds, washed with cold water at 10 ° C., washed again with warm water at 60 ° C., and then completely dried at 60 ° C. By doing so, the strut according to the present invention is completed.

As shown in FIG. 5, the supporter has a lower supporter 41 formed in a regular shape.

For this reason, by supporting in a sperm shape in the ground, it is possible to prevent the support from being shaken or damaged by wind or wild animals.

Next, the first light emitting means 50 according to the present invention will be described.

The first light emitting means 50 is connected to a wire to serve to primarily emit a plurality of LED lights under the control of the control box.

It consists of a high brightness stroboscope or a high brightness light emitting diode (LED).

When the high brightness light emitting diode is configured, a plurality of LEDs are formed in a shape wound around the wire tension portion, or are arranged in a line.

The first light emitting means according to the present invention is formed by twisting the wire tension portion to form a shape, the LED light is normally turned off, when the movement of the wildlife is detected, a plurality of LEDs wound around the wire tension portion to emit light at once There is a number.

Because of this, it is possible to brighten the surroundings of the extinction in a flash, and to surprise the wildlife to maximize the extermination of the wildlife.

In addition, the first light emitting means according to the present invention can set the timing so that the LED light is periodically turned on at night.

In other words, if the LED light is turned on at night, it can prevent access to wildlife that hates light.

Next, the solar cell power supply unit 60 according to the present invention will be described.

The solar cell power supply unit 60 is located at one side of the upper end of the holding post, and serves to supply electricity generated by collecting solar power through the solar cells in a matrix structure and generating electricity to each device.

The first unit cell of the positive terminal and the second unit cell of the negative terminal are arranged in a matrix form with a plurality of spaced apart from each other, each unit cell is connected in series or parallel to each other by an interconnector made of aluminum metal foil Form an array.

The interconnectors connecting the unit cells are connected to (+) and (−) power terminals which are plated on one side of the printed circuit board.

Solar cells are collected through the solar array, and electricity is generated to generate electricity to charge the rechargeable battery.

Here, the rechargeable battery is composed of 32, 64, 128, pre-charged through the solar cell array.

The electricity charged in the rechargeable battery supplies power to each device.

In addition, in the present invention, the solar cell power supply unit is configured to include a wind power generation power supply unit 65 for generating electricity through the wind.

Next, the second light emitting means 70 according to the present invention will be described.

The second light emitting means 70 is located at the bottom of the solar cell power supply, and serves to secondaryly emit a high brightness psychedelic light under the control of the control box.

It consists of high brightness psychedelic lighting.

High brightness psychedelic lighting according to the present invention is a kind of arc (disc) type discharge bulb, and emits light while flickering with (semi) transparent fusion crystal or tungsten electrode and arc stacked on an aluminum tube.

The second light emitting means according to the present invention, in addition to the first light emitting means, can be brightened while blinking around the extermination, and serves to scare wild animals to combat wild animals.

Next, the speaker unit 80 according to the present invention will be described.

The speaker unit 80 is located at one side of the second light emitting unit, and serves to output a high sound effect sound under the control of the control box unit.

Next, the seedling 90 according to the present invention will be described.

The bell 90 is located at one side of the speaker unit and serves to output a signal of a bell or siren under the control of the control box unit.

Next, the control box unit 100 according to the present invention will be described.

The control box unit 100 is located at one side of the center of the strut, and is connected to the wire tension unit, the first light emitting unit, the solar cell power supply unit, the second light emitting unit, the speaker unit, and the bell to control the overall operation of each device. Controls the output period of the first light emitting means, the second light emitting means, and the speaker unit, and transmits the motion signal of the wild animal detected by the wire tension unit to the remote user terminal 150.

As shown in FIG. 4, the main box 101 is formed in a rectangular box shape, a key button unit 102 is formed on the front side, and a microcomputer unit 103 and a WiFi communication module (PIC16C711 one-chip microcomputer) are formed therein. 104) is configured.

The control box unit according to the present invention is installed 1: 1 in the support stand, or is formed in a 1: N through the RF sensor node, the middle node by forming a plurality of support stand in a network.

The microcomputer 113 is composed of a PIC16C711 one-chip microcomputer, the tension arm switch of the wire tension unit is connected to one side of the input terminal, receives the movement of the wildlife detected by the tension arm switch as a resistance value change amount, and another input terminal It is connected to the RF sensor node of the support on the other side, and receives the movement of the wildlife detected by the tension arm installed on the support from the support located at the RF communication distance, and changes the resistance value, and the solar cell on the other input terminal. It is connected to the power supply, checks the power supply of the solar cell power supply, and controls to supply power to each device, the first light emitting means is connected to one side of the output terminal, LED emitting output signal toward the first light emitting means The second light emitting means is connected to the other output terminal on the other side, and sends the HID light output signal to the second light emitting means, and on the other output terminal The speaker unit is connected, and sends a high sound effect sound output signal to the speaker unit, the bell is connected to the other output terminal is configured to output a bell or siren signal to the bell.

In addition, the control box unit according to the present invention is connected to the user terminal (smartphone) 150 through the WiFi network, when receiving a plurality of strut check signal from the user terminal, check the response signal according to the damaged strut stand A strut stand search unit 105 for searching a position is included.

The user terminal 150 is composed of a smartphone, PDA phone.

Hereinafter, a detailed operation process of the smart wild animal eradication according to the present invention.

First, the solar cell power supply unit collects sunlight through a plurality of solar cells in a matrix structure and supplies electricity generated by generating electricity to each device.

Subsequently, the wire tension unit detects the movement of the wild animal as the wire tension, and then transfers the detected tension signal to the control box unit.

Subsequently, the first light emitting means is driven in the control box unit to primarily emit light of the plurality of LED lights.

Subsequently, the second light emitting means is driven in the control box part to secondly emit the psychedelic light.

Subsequently, the speaker box is driven in the third order to output the high sound effect sound.

In addition, the bell bell or siren sound is output by driving the bell.

Subsequently, the wild animal pushes on the wire so that when the pushing force of the wild animal exceeds the reference value, the wire separator is driven to separate the wire from the wire.

At this time, as the wire is separated between the wires, the firecrackers connected with the wires fall to the floor, surprise the wildlife with a humming sound, and the hedgehog hook attaches to the wildlife and inflicts a direct impact on the wildlife. To amaze them, effectively killing wildlife.

In addition, when the pushing force of the wild animal exceeds the reference set value can be separated between the wire and the wire, it is possible to solve the problem that the props fall or damage.

Subsequently, the control box unit transmits the movement signal of the wild animal detected by the wire tension unit to the remote user terminal.

Subsequently, when a plurality of strut check signals are received from the user terminal through the strut searching unit, the response signal is checked to search for the position of the broken strut.

Finally, the position of the strut is output on the screen of the user terminal.

10: wire 20: wire separation unit
30: wire tension unit 40: holding stand
50: first light emitting means 60: solar cell power supply
70 second light emitting means 80 speaker part
90: seedling 100: control box

Claims

A wire (10) installed between the support post and the support post to block wildlife from entering a specific protected place;
After the wire is connected between the magnets of the N and S poles, the loosened wire is pulled to give tension, and the wire separation part that separates the wire from the wire when the pushing force of the wild animal exceeds the reference set value ( 20) with,
The wire tension unit 30 is installed in a multi-step shape between the holding posts, and detects the movement of the wild animal with a wire tension, and then transfers the detected tension signal to the control box unit.
A unique identification ID is given, and the support base 40 for elastically supporting the wire tension portion,
A first light emitting means 50 connected to a wire to firstly emit a plurality of LED lights under the control of the control box;
Solar cell power supply unit 60 is located on one side of the upper end of the pillar, and supplies a plurality of electricity generated by collecting and generating electricity through the solar cells in a matrix structure to each device,
A second light emitting means (70) positioned at the bottom of the solar cell power supply and configured to secondarily emit a high-brightness psychedelic light under the control of the control box;
A speaker unit 80 which is located on one side of the second light emitting unit and outputs a high sound effect sound under the control of the control box unit;
Located on one side of the speaker unit, under the control of the control box unit bell bell (90) to output a signal of the bell or siren,
Located at one side of the center of the support, connected to the wire tension unit, the first light emitting means, the solar cell power supply unit, the second light emitting means, the speaker unit, the bell, and controls the overall operation of each device, the first light emitting means, the second Light-emitting means, controlling the output period of the speaker unit, smart type wild animal eradication, characterized in that consisting of a control box unit 100 for transmitting the movement signal of the wildlife detected in the wire tension unit to the remote user terminal.

The method of claim 1, wherein the wire separation unit 20
A first tension adjusting part 21 for tensioning the loosened wire while supporting one side of the separated wire end;
A second tension adjusting part 22 which supports the other end of the separated wire end in the right direction and pulls the loose wire to give tension;
It is formed in the groove shape between the first tension control unit and the second tension control unit, when coupled to the N pole and the S pole, when the pushing force of the wild animal exceeds the reference set value, the wire connecting portion separating the wire ( 23) smart wildlife repellent, characterized in that it comprises a.

According to claim 1, wherein the wire tension unit 30
Is connected to one side of the support pole, when the movement of the wild animal is transmitted through the wire tension wire spring 31 to send a tension signal to the tension arm switch by pulling the tension arm switch,
Located at one side of the lower end of the wire spring, when the wire tension is transmitted, the switch is operated to change the resistance value by changing the amount of resistance arm switch 32 smart smart animal, characterized in that consisting of the switch.

2. The apparatus of claim 1,
Smart type wild animal repeller, characterized in that the lower support (41) is formed in a sperm shape.

2. The apparatus of claim 1,
After dissolving 98 to 99.5% of pure aluminum in a high frequency induction furnace, it was filled into a chamber maintaining a temperature of 700 to 720 ° C, and then stirred at a rotational speed of 500 to 700 rpm by a stirring impeller, and the thickener calcium Trivalent chromate (Cr ³⁺ ) was added to the surface of the foamed aluminum, which was added at a weight of 0.5 to 2 wt% and foamed by adding 1 to 2 wt% of TiH ₂ (Titanium hydride) powder having a particle diameter of 200 to 250 μm as a blowing agent. As coating of
The trivalent chromate (Cr ³⁺ ) coating treatment is activated after the foamed aluminum water treatment by acid treatment with 0.5% HNO ₃ and then immersed foamed aluminum in trivalent chromate (Cr ³ ⁺ ) solution for 30 seconds. After washing with cold water, and then washed again in hot water at 50 ~ 60 ℃ smart smart animal eradication, characterized in that is made by drying at 60 ℃.