KR102429420B1 - Repelling moles using air column resonance tubes - Google Patents

Abstract

The present invention relates to a mole extermination using a host resonance tube.
The present invention provides a main body 10 inserted and installed in the ground, a cover 20 that is openly and closedly coupled to the upper portion of the main body 10, a solar cell power generation panel 30 formed on the cover, and the solar cell power generation A power supply unit 40 that is charged by the output of the panel to supply a current, and a control means that is electrically connected to the power supply unit 40 to automatically change the oscillation interval, oscillation time, and oscillation frequency of sound waves a circuit unit 60 and; In the mole extermination having a sound wave output means 70 for outputting a sound wave oscillated by the circuit unit 60, a resonance action occurs in the sound wave output from the sound wave output means 70 in the body 10. It is possible to amplify sound waves by including the resonance tube 80 disposed along the longitudinal direction of the main body 10, and to change the frequency of vibration according to a change in the internal temperature of the resonance tube to generate high-efficiency high sound with low power.

Description

Repelling moles using air column resonance tubes

The present invention relates to a mole exterminator, and more specifically, by installing a resonance tube in the sound wave oscillation part of the mole extermination device that generates sound waves in the ground to chase moles, amplifies the sound waves, and changes the frequency of vibration according to the temperature change inside the resonance tube It relates to a mole extermination using a host resonance tube that can generate high-efficiency high-pitched sound with low power.

In general, moles have an average lifespan of 3 to 4 years or more than 8 years, and they live in lowland grasslands or farmlands to mountain forests.

The mole is the second most common animal after the house mouse, but its ecology has not been well investigated. The reason is that moles are extremely sensitive to vibration and hide before people approach them. They only occasionally appear on the ground at night, but mostly live underground.

Although the diet differs depending on the region and season, it mainly eats caterpillars, pupae, spiders, earthworms, scarabs, snails, centipedes, and frogs, but also eats invertebrates such as centipedes and leeches, frogs, and plant seeds in autumn. Sometimes, while living underground, it damages root-grown plants such as sweet potatoes, potatoes, and ginseng in farmland, forming complex underground tunnels and adversely affecting the habitat of crops. As the sun sets, the ridge collapses and causes damage.

For this reason, moles are captured, and because they live underground, they are not easily seen by the captors, making it one of the most difficult animals to catch. Mole cubs grow rapidly and grow to the same size as their mother after six months, and natural enemies include weasels, foxes, badgers, owls, horsetails, herons, and egrets.

However, due to the small number of these natural enemies, the number of moles is hardly decreasing. As eco-friendly pesticide-free and organic farming is encouraged and expanded, earthworms are rapidly increasing, and the number of moles that feed on them is also increasing.

A lot of effort is being made to capture moles that are damaging to farms, but a general mole trap is installed in the expected movement path of moles to detect the entry of moles and can be captured or captured with a harpoon.

These mole traps are difficult to handle when killed with a harpoon, and if handling is careless, there is a high risk of damage to the body of not only the installer but also ordinary people in normal times. It can feel uncomfortable, and also, artificially killed moles can cause a disturbance in the ecosystem due to a decrease in the population.

Accordingly, a device for chasing out moles by generating sound waves or noise in a range that moles do not like has been proposed as a way to drive out of farmland without killing or capturing moles.

An example of such a device was disclosed in Korean Patent Application Laid-Open No. 10-2010-0122694 'Vibrating Fence for Repelling Moles'. This device is a tube body, with a sharp tip attached to the lower part and a lid to the upper part), and a vibration generating unit is built in the inner space to which the operation indicator is attached. It is composed of a timer device that can adjust the current supply time and set the tire operation time for day and night, so that it is possible to exterminate moles from agricultural land by generating electric vibrations in the ground.

Another example of the device is disclosed in Korean Patent No. 10-2010-0044755 'A device for exterminating moles and rodents using a solenoid'. This device is a device for repelling harmful rodents such as moles and rats that damage crops. More specifically, it uses the principle that the iron core of a solenoid moves horizontally by a change in current. By hitting the inner wall surface, a shock vibration sound is generated, and the shock vibration is transmitted into the ground through the main body and the conduction pipe at the bottom, so that moles can be repelled from the farmland.

Generally, sounds in the natural world are heard louder at night than during the day, because the elasticity and density of the medium change with temperature, and the wave characteristics of sound waves change according to the temperature of the medium. Because it appears different. Therefore, the sound of the same sound range has different characteristics of waves depending on the temperature of the medium, and the speed is also changed differently. As the temperature increases, the speed of the sound wave increases, and as the temperature decreases, the speed decreases.

Since the above conventional device generates a certain sound wave and vibration, it is necessary to increase the intensity of the sound wave or vibration in order to exhibit a high repelling effect, so it is necessary to consume a lot of power, and the speed of the sound wave or vibration changes according to the temperature of the medium However, there was no means to control the speed according to the internal temperature of the resonance tube, which is the medium, so sound waves and vibrations with a constant speed were always generated, so it was not effective in power use.

In addition, as the vibration by the same frequency is repeatedly generated, the mole having a learning effect becomes insensitive to the vibration of the exterminator and lives in the area as it is, in a situation that is not practically practical due to insufficient use effect.

KR 10-2010-0122694 A (2010. 11. 23.) KR 10-2010-0044755 A (2010. 04. 30.)

It is an object of the present invention to provide a mole exterminator using a host resonance tube capable of generating high sound with low power by amplifying sound waves by installing a resonance tube in the sound wave generator of the mole exterminator.

Another object of the present invention is to provide a mole exterminator using a host resonance tube that can effectively combat moles with low power by measuring the internal temperature of the resonance tube in which the mole extermination is installed with a temperature sensor and generating different frequencies of sound waves depending on the underground temperature. it is to do

The purpose of the present invention and its technical problems are not limited to the technical problems described above. Accordingly, other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description.

Technical features for achieving the intended object of the present invention are a main body that is inserted into the ground, a cover that is openly and closedly coupled to the upper part of the main body, a solar cell power panel formed on the cover, and the solar cell power panel A circuit unit comprising: a power supply unit for supplying current by being charged by the output of In the mole repelling device having a sound wave output means for outputting sound waves oscillated by will do

According to a technical feature of the present invention, the power supply unit includes a rechargeable battery for charging the current supplied from the solar cell power generation panel, and a commercial battery, and is composed of a selection switch for selecting any one of the rechargeable battery and the commercial battery. do.

According to a technical feature of the present invention, the control means further comprises a temperature sensor ( ) for measuring the internal temperature of the resonance tube, the circuit unit receives and amplifies the weak signal measured by the temperature sensor; a signal processing unit that receives the signal output from the amplifying unit and converts it into an operable digital signal; a microcontroller that receives the signal output from the signal processing unit and calculates and outputs the sound wave frequency according to the measured temperature change; and a sound wave oscillator for receiving a signal output from the microcontroller and outputting a sound wave frequency corresponding to the measured temperature.

According to a technical feature of the present invention, the sound wave output means is characterized in that any one of a piezo buzzer or a speaker is selected.

According to a technical feature of the present invention, the resonance tube is characterized in that one of the upper end and the lower end of the cylindrical tube is opened, and the sound wave generating means is disposed from the end opposite to the open end toward the open end.

According to the technical features of the present invention, the resonance tube is characterized in that the upper end and the lower end of the cylindrical tube is formed as a straight tube.

According to a technical feature of the present invention, the resonance tube is characterized in that it is formed as a curved tube having at least one bending part.

According to the present invention as described above, the resonance tube amplifies the frequency band that is hard to hear by the human ear, and effectively changes the oscillation frequency according to the temperature change during the day and night, so that the activity of moles increases from sunset to late at night. By preventing unnecessary energy consumption by making it weak during the day, it is possible to implement a low-power and high-efficiency mole extermination. avoid conflict and live in harmony with each other.

According to the present invention, it provides a low-power, high-efficiency mole extermination, and by changing the oscillation frequency, there is an effect that does not cause a learning effect in which the sense is dulled by the same frequency.

In addition, since there is no need to kill or capture moles, there is no inconvenience of dealing with killed or captured moles, and since it is possible to preserve the number of moles in the ecosystem, there is an effect of maintaining a normal ecosystem.

1 is a perspective view of the present invention;
2 is a cross-sectional view of the present invention;
3 is a cross-sectional view of another embodiment of the present invention;
Figure 4 is a cross-sectional view showing another embodiment of the resonance tube applied to the present invention
5 is a block diagram of the present invention;

The features and advantages of the present invention will be more clearly understood by the embodiments described by the accompanying drawings.

The application of the present invention is not limited by the configuration and arrangement of components described in the embodiments of the present invention or shown in the drawings. The present invention is capable of being embodied in other embodiments and of being carried out in various ways. In addition, expressions and predicates used in the embodiments with respect to terms such as devices, orientations of elements, etc. are used only for the understanding of the present invention, and do not indicate or imply that the related devices or elements simply have to have a specific orientation.

In addition, although the present invention has been mainly described with reference to the accompanying drawings, those skilled in the art will be able to make various changes without departing from the scope of the present invention from these descriptions. Therefore, the present invention is not limited to the presented embodiment, and within the equivalent scope of the technical spirit of the present invention and the technical spirit described in the claims to be described below by those of ordinary skill in the technical field to which the present invention belongs. should be interpreted in

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of the present invention, and Fig. 2 is a cross-sectional view of the present invention.

1 and 2, the mole repelling device using the host resonance tube of the present invention is a body 10, a cover 20, a solar cell power generation panel 30, a power supply unit 40, a temperature sensor 50, It is composed of a circuit unit 60 , a sound wave output means 70 and a resonance tube 80 .

The main body 10 is formed as a relatively long cylindrical tube, and the lower end is formed with a pointed end so that it can be inserted into the ground, and the resonance tube 80 is installed along the longitudinal direction inside, and the cover 20 is provided on the upper portion. detachably coupled.

The cover 20 forms a space extending from the bottom to the top coupled to the body 10, and the substrate 90 is fixedly installed by the support structure 200 formed inside the expanded space.

In addition, the solar cell power generation panel 30 is attached and fixed to the upper surface forming the expanded space, and on one side of the solar cell power generation panel 30, a selection switch 420 for turning on/off the power to the circuit unit 60 is provided. It is formed to be openably coupled to the upper portion of the main body 10 .

The solar cell power panel 30 is preferably a 360 mA solar cell mounted thereon, is formed on the upper surface of the cover 20 to form an expanded space so that sufficient sunlight can be incident, as is well known. Electric current is produced by the photovoltaic effect, in which light energy is converted into electricity.

A power supply unit 40 , a temperature sensor 50 , and a circuit unit 60 are formed on the substrate 90 .

The power supply unit 40 is configured to include a rechargeable battery 400, a commercial battery 410, and a selection switch 420, and preferably, a rechargeable battery 400 to which the solar cell power generation panel 30 is connected as the main power is used. do.

The rechargeable battery 400 is preferably a nickel hydride battery to store the current generated by the solar cell power generation panel 30, and the commercial battery 410 is a non-rechargeable general battery or a battery that can be charged with commercial power. can

One of these rechargeable batteries 400 and commercial batteries 410 is selected by the selection switch 420 so that current can be supplied to the temperature sensor 50 and the circuit unit 60 .

This is because, in addition to using the battery 410 using commercial power, electricity generated by the solar cell power generation panel 30 equipped with a solar cell as the main power is used by charging the rechargeable battery 400 which is a nickel hydrogen battery. , it is possible to prevent the consumption of commercial power and generate strong sound waves for a longer period of time without additional energy consumption through eco-friendly installation and management using solar power as the main power.

The selection switch 420 is formed on one side of the solar cell power generation panel 30 on the upper surface of the cover 20, for example, is composed of a slide switch, any one of the rechargeable battery 400 and the commercial battery 410 By selecting one, a closed circuit can be formed, and the switch can be turned OFF.

In this way, the selection switch 420 selects any one of the rechargeable battery 400 and the commercial battery 410 to supply power to the temperature sensor 50 and the circuit unit 60 or to turn it off.

The temperature sensor 50 detects the internal temperature of the resonance tube and outputs it to the circuit unit 60 to change the frequency of the sound wave output from the sound wave output means 70 according to the internal temperature of the resonance tube.

The circuit unit 60 includes an amplifying unit 600 , a signal processing unit 610 , a microcontroller 620 , and a sound wave oscillation unit 630 .

The amplifying unit 600 receives and amplifies the weak signal measured by the temperature sensor 50 .

The signal processing unit 610 receives the signal output from the amplifying unit 600 and converts it into an operable digital signal.

The microcontroller 620 is electrically connected to the power supply unit 40 and includes a control means for automatically changing the oscillation interval, oscillation time, and oscillation frequency of the sound wave, and receives the signal output from the signal processing unit 610 . It receives and calculates and outputs the frequency of sound waves according to the measured temperature change.

The sound wave oscillation unit 630 receives the signal output from the microcontroller 620 and outputs a sound wave frequency corresponding to the measured temperature.

The sound wave output means 70 is selected from a piezo buzzer or a speaker, and outputs a sound wave oscillated by the circuit unit 60 .

The sound wave output from the sound wave output means reacts sensitively and the frequency of 50 Hz ~ 250 Hz, which is a vibrating sound that moles hate, is emitted in all directions at intervals of 25 to 35 seconds.

The resonance tube 80 is disposed along the longitudinal direction of the main body 10 so that a resonance action is generated in the sound wave output from the sound wave output means 70 .

As shown in FIG. 2, the resonance tube 80 has a sound wave generating means 70 disposed from the end opposite to the open end toward the open end while the lower end of the cylindrical tube body is opened.

3 is a cross-sectional view showing another embodiment of the present invention.

Referring to this figure, as for the resonance tube 80, the upper end and the lower end of the cylindrical tube are formed as straight tubes, the lower end of the cylindrical tube is closed, a plurality of through holes 800 are formed on the outer peripheral surface of the tube, and the closed lower end A sound wave generating means 70 is disposed on the inside.

4 shows another embodiment of the resonance tube applied to the present invention.

Referring to FIG. 4 , the resonance tube 80 may be formed as a curved tube having at least one bending part 810 .

In the present invention configured as described above, since the speed of sound in a resonance tube having a limited length varies depending on the temperature, the temperature inside the resonance tube is measured with a temperature sensor, and the frequency is changed according to the measured underground temperature, and the sound wave is convey enough.

Therefore, it outputs sound waves with different frequencies according to the temperature change inside the resonance tube, and it occurs strongly at night from the sunset when the activity of moles increases and is weakly generated during the day, thereby preventing unnecessary energy consumption and exhibiting low power and high efficiency. there will be

In addition, by solving the problem that moles, which had a learning effect due to vibrations that are simply repeated in the prior art, did not respond to vibrations, it is possible to more effectively retreat the moles from the area.

So far, the present invention has been focused on preferred embodiments.

The embodiments described in this specification and the configurations shown in the drawings relate to one most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and modifications that can be substituted for them are It should be understood that there may be examples.

Therefore, the present invention is not limited to the presented embodiment, and within the equivalent scope of the technical spirit of the present invention and the technical spirit described in the claims to be described below by those of ordinary skill in the technical field to which the present invention belongs. There may be various modifications and changeable embodiments.

10: body 20: cover
30: solar cell power generation panel 40: power supply unit
50: temperature sensor 60: circuit part
70: sound wave output means 80: resonance tube
90: substrate 200: support structure
400: rechargeable battery 410: commercial battery
420: suntex position 600: amplification unit
610: signal processing unit 620: microcontroller
630: sound wave oscillation unit 800: through hole
810: bending unit

Claims (8)

The main body (10) inserted into the ground and installed,
A cover 20 coupled to the upper portion of the main body 10 so as to be open and closed;
A solar cell power generation panel 30 formed on the cover, and
a power supply unit 40 that is charged by the output of the solar cell power generation panel and supplies current;
a circuit unit (60) electrically connected to the power supply unit (40) and having a control means for automatically changing an oscillation interval, an oscillation time, and an oscillation frequency of sound waves;
In the mole extermination having a sound wave output means 70 for outputting a sound wave oscillated by the circuit unit 60,
and a resonance tube 80 disposed along the longitudinal direction of the main body 10 in the main body 10 so that a resonance action occurs in the sound wave output from the sound wave output means 70,
The resonance tube 80,
While any one of the upper end and the lower end of the cylindrical tube is opened, a mole repelling device using a host resonance tube, characterized in that the sound wave generating means 70 is disposed from the end opposite to the open end toward the open end.
The main body (10) inserted into the ground and installed,
A cover 20 coupled to the upper portion of the main body 10 so as to be open and closed;
A solar cell power generation panel 30 formed on the cover, and
a power supply unit 40 that is charged by the output of the solar cell power generation panel and supplies current;
a circuit unit (60) electrically connected to the power supply unit (40) and having a control means for automatically changing an oscillation interval, an oscillation time, and an oscillation frequency of sound waves;
In the mole extermination having a sound wave output means 70 for outputting a sound wave oscillated by the circuit unit 60,
and a resonance tube 80 disposed along the longitudinal direction of the main body 10 in the main body 10 so that a resonance action occurs in the sound wave output from the sound wave output means 70,
The resonance tube 80,
As the upper end and lower end of the cylindrical tube are closed, the sound wave generating means 70 is disposed from one end to the other end, and a plurality of through holes 800 are formed in the outer circumferential surface of the tube. Mole extermination using.
3. The method of any one of claims 1 and 2,
The power supply unit 40,
It includes a rechargeable battery 400 for charging the current supplied from the solar cell power generation panel 30, and a commercial battery 410,
Mole extermination using a host resonance tube, characterized in that it consists of a selection switch 420 that can select any one of the rechargeable battery 400 and the commercial battery 410.
3. The method of any one of claims 1 and 2,
The control means,
Further comprising a temperature sensor 50 for measuring the internal temperature of the resonance tube,
The circuit unit 60,
an amplifying unit 600 for receiving and amplifying the weak signal measured by the temperature sensor 50;
a signal processing unit 610 for receiving the signal output from the amplifying unit 600 and converting it into an operable digital signal;
a microcontroller 620 that receives the signal output from the signal processing unit 610 and calculates and outputs the sound wave frequency according to the measured temperature change;
Mole extermination using a host resonance tube, characterized in that it comprises a sound wave oscillator 630 for receiving the signal output from the microcontroller (620) and outputting a sound wave frequency suitable for the measured temperature.
3. The method of any one of claims 1 and 2,
The sound wave output means 70,
Mole extermination using a host resonance tube, characterized in that any one of the piezo buzzer or the speaker is selected.
delete 3. The method of any one of claims 1 and 2,
The resonance tube 80,
Mole extermination using a host resonance tube, characterized in that the upper end and lower end of the cylindrical tube is formed as a straight tube.
3. The method of any one of claims 1 and 2,
The resonance tube 80,
Mole extermination using a host resonance tube, characterized in that formed in a curved tube having at least one bending portion (810).

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