JP2011211926A - Method and apparatus for attracting rat and rat capturing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for attracting a rat which has a high attracting effect and enables efficient rat capturing.SOLUTION: The method for attracting a rat by ultrasonic waves has frequency characteristics wherein units U consisting of a plurality of syllables S spaced apart from each other are repeated multiple times at intervals from each other.

Description

  The present invention relates to a method and apparatus for attracting a rat, such as a rat or a rat, for extermination, and a mouse capturing device.

As a method for extermination of a mouse, there are a method of capturing with a trap using a diet or an attractant, a method of using a rodenticide and the like.
However, these methods require consideration for safety and may limit the place of use. In addition, effective extermination may be difficult due to the familiarity of mice and the low incentive effect.
As a highly safe extermination method, there is a method of destroying or capturing a rat using ultrasonic waves (see Patent Documents 1 and 2).
To destroy the mice, ultrasound with repellent effect is used. In order to capture a mouse, the mouse is attracted using an ultrasonic wave having an inducing effect and captured by a trap.
The method using ultrasonic waves has the advantages of high safety and easy installation of the apparatus, and has attracted attention in recent years. Of course, it is needless to say that there is a great difference in characteristics between the ultrasound having a repellent effect and the ultrasound having an inducing effect.

JP 54-153164 A JP 56-045152 A

However, the method of destroying mice by ultrasonic waves has a serious problem that the repellency effect does not last long due to the acclimatization of the mice, and it cannot be fundamentally solved because the mice are not captured.
On the other hand, in the method of attracting and capturing a mouse by ultrasonic waves, the acclimatization of the mouse is relatively difficult, but the attracting effect is not sufficient, and a method with a higher inducing effect is required.
The present invention has been made in view of such a situation, and in a method for attracting a rat using ultrasonic waves, an attracting method and apparatus that have a high incentive effect and enable efficient mouse capture, and An object is to provide a mouse capture device.

The mouse attraction method of the present invention is a method for attracting a mouse by ultrasonic waves, and the ultrasonic wave has a frequency characteristic in which a unit composed of a plurality of syllables spaced apart from each other is repeated a plurality of times at intervals. This is a mouse attraction method.
In the present invention, the sound generated by the mouse can be used as the ultrasonic wave. The characteristics of the ultrasonic wave used are obtained based on the test results described later.
Within one unit, it is preferable that the average frequency of each syllable tends to decrease with time.
The average value of the number of syllables in one unit is preferably 2 to 20.
The average interval between the adjacent units is preferably at least twice the average interval between adjacent syllables in one unit.
The ultrasonic frequency is preferably in the range of 30 kHz to 47 kHz.

  The mouse attracting apparatus of the present invention is an apparatus for attracting a mouse by ultrasonic waves, and a unit composed of a plurality of syllables spaced apart from each other generates ultrasonic waves having frequency characteristics that are repeated a plurality of times at intervals from each other. It is a mouse attracting apparatus provided with the ultrasonic wave generation means to do.

The mouse capturing device of the present invention is a device that attracts and captures mice by ultrasonic waves, and includes a mouse attracting device that attracts mice and a trap that captures the attracted mice. A mouse capturing device including an ultrasonic generator that generates an ultrasonic wave having a frequency characteristic in which a unit composed of a plurality of spaced syllables is repeated a plurality of times at intervals.
The mouse capturing device of the present invention lowers the sound pressure of the ultrasonic wave in the ultrasonic generator based on a detection signal from the sensor unit that detects the mouse approaching a predetermined distance to the mouse attraction device and the sensor unit. It is good also as a structure which has a control part.

  According to the present invention, by using an ultrasonic wave having a frequency characteristic in which a unit composed of a plurality of syllables is repeated a plurality of times, an excellent incentive effect can be obtained and a rat can be captured efficiently.

It is a figure which shows schematic structure of the mouse | mouth capture device which is one Embodiment of this invention. It is a figure which shows schematic structure of the mouse attraction apparatus of the mouse | mouth capture apparatus shown to a previous figure. (A) It is a graph which shows the frequency characteristic of the ultrasonic wave of an Example. (B) It is a graph which shows the frequency characteristic of the ultrasonic wave of a comparative example. It is a graph which shows the detail of the frequency characteristic of the ultrasonic wave of the Example shown to a previous figure. An example of a syllable waveform (frequency characteristic) is shown. It is explanatory drawing which shows the sensor part of a mouse | mouth capture | acquisition apparatus, and a mouse | mouth attraction apparatus. It is explanatory drawing which shows in more detail the sensor part of a mouse | mouth capture | acquisition apparatus, and a mouse | mouth attraction apparatus. It is a top view which shows schematic structure of the test apparatus used by the test example. It is a graph which shows a test result. It is a graph which shows a test result. It is a graph which shows a test result.

  FIG. 1 shows a mouse capturing device 1 which is an embodiment of the mouse capturing device of the present invention. FIG. 2 is a diagram showing a schematic configuration of the mouse attracting device 2 of the mouse capturing device 1. FIG. 3A is a graph showing the frequency characteristics of the ultrasonic waves of the example, and FIG. 3B is a graph showing the frequency characteristics of the ultrasonic waves of the comparative example. FIG. 4 is a graph showing details of the frequency characteristics of the ultrasonic waves of the example. FIGS. 5A to 5C show examples of the waveform (frequency characteristic) of the syllable S. FIG. 6 and 7 are explanatory views showing the main part of the mouse capturing device 1.

As shown in FIGS. 1 and 2, the mouse capturing device 1 includes a mouse attracting device 2 that attracts mice, a trap 3 that captures the attracted mice, and a sensor unit 4 that detects the mice.
The trap 3 includes a trap body 6 and a cover portion 7 provided on the trap body 6.
The trap body 6 can be formed in a substantially rectangular parallelepiped case shape, and an opening 6 b for dropping the mouse 10 into the trap body 6 is formed in the top plate portion 6 a. The opening 6b can be provided with a lid 6c that closes the opening 6b so as to be freely opened and closed.

An apparatus for processing the captured rat 10 may be provided inside the trap body 6. For example, a water tank for drowning the mouse 10, an energizing means for electric shock of the mouse 10, a cooling means for freezing the mouse 10, and the like can be provided.
Reference numeral 5 denotes a guide portion that guides the mouse 10 onto the trap body 6.

The cover part 7 has a top plate part 7a and side plate parts 7b depending from both side edges. Both ends of the cover part 7 are opened, and the mouse 10 can pass through the one end opening 7c.
The cover part 7 can be provided on the top plate part 6a of the trap body 6 at a position covering the opening 6b.

As shown in FIG. 2, the mouse attraction apparatus 2 includes a storage unit 11 that stores audio data, a control unit 12 that generates a signal based on data in the storage unit 11, and an ultrasonic wave based on a signal from the control unit 12. And a speaker 13 (ultrasonic wave generating means) for generating
As the storage unit 11, a storage device such as a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a hard disk built in a computer system can be used.
The mouse attracting device 2 is provided on the top plate portion 6a of the trap body 6 on the other end portion 7d side of the cover portion 7, and sends ultrasonic waves emitted from the speaker 13 into the cover portion 7 from the other end portion 7d. Can do.

The ultrasonic wave emitted by the mouse attracting device 2 has a frequency characteristic in which a unit composed of a plurality of syllables spaced from each other is repeated a plurality of times at intervals.
FIG. 3 (a) shows an example of the frequency characteristic of the ultrasonic wave used in the present invention, which is obtained from the sound produced by a 1 week old black rat away from the parent. 3A and 3B, the horizontal axis indicates time, and the vertical axis indicates frequency (Hz). The scale on the horizontal axis indicates “minute: second”. For example, “1: 09.5” indicates 1 minute and 9.5 seconds.
The waveform shown in this figure is configured by repeating a unit U composed of a plurality of syllables S several times at intervals (units U _{1 to} U ₄ ).

FIG. 4 shows an example of the unit U. The unit U is composed of ₁₂ syllables S (S _{1 to} S ₁₂ ) spaced apart from each other.
One syllable S is a continuous sound, and the average length of one syllable S can be set to 0.05 to 0.3 seconds, for example. This average length may be, for example, 0.05 to 0.2 seconds, or 0.1 to 0.3 seconds.

5 (a) to 5 (c) show examples of waveforms (frequency characteristics) of the syllable S. As in FIG. 3, these waveforms indicate time in the horizontal direction and frequency in the vertical direction. Indicates.
FIG. 5 (a) shows an example of a syllable S having a waveform whose frequency tends to decrease with time. There are four examples shown in this figure.
In the waveform shown in this figure, the slope of an approximate straight line (for example, a straight line derived by the least square method) indicating the change in frequency with time is negative.
FIG. 5B shows an example of a syllable S having a waveform whose frequency tends to increase with time. This example also shows four examples.
In the waveform shown in this figure, the slope of an approximate straight line (for example, a straight line derived by the method of least squares) indicating a change in frequency with time is positive.
FIG.5 (c) shows the example of the syllable S which has a waveform which tends to become low once a frequency becomes high with time passage. This example also shows four examples.
In the waveform shown in this figure, the slope of the approximate line (for example, a straight line derived by the least squares method) indicating the change with time in the first half is positive, and the slope of the approximate line indicating the change with time in the second half is negative. It becomes.
The syllable S may be a waveform having any tendency among those shown in FIGS. 5 (a) to 5 (c).

The average of the intervals (for example, t ₁ shown in FIG. 4) between adjacent syllables S and S in one unit U can be set to 0.05 to 0.2 seconds, for example. This average interval may be, for example, 0.05 to 0.15 seconds, or 0.1 to 0.2 seconds.
This average interval can be set to 25 to 300% with respect to the average length of the syllable S, for example. The ratio of the average interval to the average length of the syllable S may be 50 to 200%.

The number of syllables S in one unit U can be set to 2 to 20, for example.
The average length of the unit U can be set to 0.1 to 2.0 seconds, for example. This average length may be 0.1 to 1.5 seconds.
As shown in FIG. 3A, the average of the intervals between adjacent units U, U (for example, t ₂ shown in FIG. 3A) is the average interval between the adjacent syllables S, S (for example, shown in FIG. 4). t ₁ ) or more (for example, 3 times or more).

In one unit U, it is preferable that the average frequency of each syllable S tends to become lower as time passes (see FIG. 3A and FIG. 4).
That is, it is preferable that the slope of an approximate straight line (for example, a straight line derived by the method of least squares) indicating the change with time of the average frequency of each syllable S is negative.
In the example shown in FIG. 4 (the unit of time on the horizontal axis is seconds and the unit of frequency on the vertical axis is Hz), this inclination can be set to, for example, −1 to −7 (kHz / second).

The ultrasonic frequency is preferably in the range of 30 kHz to 47 kHz.
By making the frequency within this range, the incentive effect can be enhanced.
The ultrasonic wave having the frequency characteristics can be realized by recording and reproducing the sound of a mouse of a young age (for example, about 1 to 2 weeks after birth).

For comparison, FIG. 3 (b) shows an ultrasonic waveform that cannot be applied to the present invention, and FIG. 3 (a) shows a waveform obtained from the sound of a young mouse. On the other hand, FIG. 3 (b) shows a waveform obtained from a voice generated by an adult mouse.
In FIG. 3B, the “syllable” is not clear. Also, a “unit consisting of multiple syllables” cannot be specified.
In FIG. 3 (a), two ultrasonic waves with greatly different frequencies are rarely emitted at the same time, but in FIG. 3 (b), two ultrasonic waves with greatly different frequencies may be emitted simultaneously. Can be confirmed.

As shown in FIG. 6, the sensor unit 4 (sensor unit) detects the mouse 10 that has entered the predetermined detection range 14.
As shown in FIG. 7, the sensor unit 4 can be configured to include a sensor body 4a and a sensor control unit 4b.
As the sensor body 4a, an infrared sensor, a photoelectric sensor, or the like can be used. For example, a dual element type infrared sensor is suitable.
The control unit 12 of the mouse attraction apparatus 2 can be configured to include a control unit main body 16, a D / A conversion unit 17, and an amplification unit 18.
The amplification unit 18 can adjust the signal amplification factor based on the detection signal from the sensor unit 4.

Next, the usage method of the mouse | mouth capture | acquisition apparatus 1 is demonstrated.
Examples of the rat subject to the present invention include rattus norvegicus and rattus rattus.
As shown in FIG. 1, the mouse attracting device 2 is operated, and an ultrasonic wave having the frequency characteristic is generated from a speaker 13.
For example, as shown in FIG. 7, the control unit body 16 outputs a control signal based on a signal from the storage unit 11, and the control signal is sent to the amplification unit 18 through digital / analog conversion in the D / A conversion unit 17. In the amplifying unit 18, the control signal is appropriately amplified and sent to the speaker 13, and the speaker 13 emits an ultrasonic wave.
Ultrasonic waves are emitted from the one end opening 7 c to the outside through the inside of the cover portion 7.

As shown in FIG. 1, the mouse 10 attracted by the triggering effect of the ultrasonic waves reaches the top plate portion 6a of the trap body 6, enters the cover portion 7 through the one end opening 7c, and the lid of the top plate portion 6a. It reaches 6c.
Here, when the lid 6c is opened, the mouse 10 falls into the trap body 6 from the opening 6b. As a result, the mouse 10 is captured.
The mouse 10 may be subjected to appropriate processing within the trap body 6. For example, if the water in the water tank installed under the opening 6b in the trap main body 6 is energized, the mouse 10 falls into the water tank and is fainted and drowned due to an electric shock.

Next, the operation of the mouse capturing device 1 when using the sensor unit 4 will be described.
As shown in FIGS. 6 and 7, when the mouse 10 approaches the sensor unit 4 to a predetermined distance, the mouse 10 enters the detection range 14. As a result, a detection signal is generated from the sensor body 4a, and the sensor control unit 4b that receives the detection signal sends the detection signal to the amplification unit 18 of the control unit 12 of the mouse attraction apparatus 2.
In the amplification unit 18, the amplification factor of the signal sent from the D / A conversion unit 17 is adjusted, and the sound pressure of the ultrasonic wave emitted from the speaker 13 is lowered.
The reason for adjusting the sound pressure of ultrasonic waves is that, by initially increasing the sound pressure, a wide range of mice are attracted, and by reducing the sound pressure, the alertness of the approaching mice can be eliminated. It is. Thereby, the effect of attracting the mouse 10 can be enhanced.

  In the mouse attraction method, by using ultrasonic waves having frequency characteristics in which the unit U composed of a plurality of syllables S is repeated a plurality of times, an excellent incentive effect can be obtained and the mice can be efficiently captured.

In addition, in FIG. 1, although the trap 3 of the system which drops the mouse | mouth 10 in the trap body 6 from the opening part 6b was illustrated, the structure of a trap is not restricted to this, The system which captures a mouse | mouth with an adhesive material, Any method can be employed, such as a method in which a mouse is sandwiched and captured by a spring material. In addition, rodenticides, attractants, diets and the like can be used in combination.
The mouse attracting device 2 is not limited to the above configuration as long as it can generate ultrasonic waves having the frequency characteristics.
Moreover, although the said mouse | mouth capture | acquisition apparatus 1 is adjusting the sound pressure of an ultrasonic wave using the control part 12 and the sensor part 4 of the mouse attraction apparatus 2, the structure which is not provided with the sensor part 4 is also possible.

The following test was performed using the test apparatus shown in FIG.
In this test apparatus, a first passage 21 and a second passage 22 are formed at positions sufficiently separated from each other in the length direction of the gauge 20. Speakers 13 are respectively installed in the innermost portions of the first passage 21 and the second passage 22.
The first passage 21 and the second passage 22 are formed substantially perpendicular to the length direction of the gauge 20 and in directions opposite to each other.
The mice 10 used in the test were 10-year-old female adult rats, male female rats, and male adult rats.
One mouse 10 is placed in the gauge 20 and allowed to stand for 15 minutes to get used to the environment. Then, one of the first passage 21 and the second passage 22 generates ultrasonic waves by the speaker 13 and the other speaker 13 Was silent.
The ultrasonic waves are recorded and reproduced from the sound of a 1-week-old rat, and have the frequency characteristics (a unit composed of a plurality of syllables is repeated a plurality of times) (see FIG. 3 (a) and FIG. 4). ) (Average frequency about 40 kHz).

The following items were examined in the observation for 10 minutes after the start of the test.
(1) Time until mouse 10 first enters each passage (first entry time)
(2) Residence time of the mouse 10 in each passage (3) Number of times the mouse 10 entered the passage A mean value in each type of mouse 10 was calculated for each test result.
The results are shown in FIGS. In each figure, the path where the ultrasonic sound was reproduced was “reproduced”, and the path not reproduced was “silent”.

From FIG. 9, it can be seen that the mouse 10 has entered the passage where the ultrasonic waves have been regenerated in a short time.
From FIG. 10, it can be seen that the mouse 10 stays in the passage where the ultrasonic waves are regenerated.
From FIG. 11, it can be seen that the number of times the mouse 10 enters is large in the path where the ultrasonic waves are regenerated.

  From these results, it was confirmed that an excellent incentive effect can be obtained by using ultrasonic waves having the frequency characteristics.

DESCRIPTION OF SYMBOLS 1 ... Mouse capture device, 2 ... Mouse attracting device, 3 ... Trap, 4 ... Sensor part, 10 ... Mouse, 11 ... Memory | storage part, 12 ... Control part, 13 ... Speaker (ultrasonic wave generation means), 14 ... Detection range, U ... Unit, S ... Syllable.

Claims (8)

A method of attracting mice by ultrasound,
The method for attracting a mouse, wherein the ultrasonic wave has a frequency characteristic in which a unit composed of a plurality of syllables spaced from each other is repeated a plurality of times at intervals.   2. The mouse attraction method according to claim 1, wherein the average frequency of each syllable tends to decrease with time in one unit.   The mouse attraction method according to claim 1 or 2, wherein an average value of the number of syllables in one unit is 2 to 20.   4. The mouse attraction method according to claim 1, wherein an average interval between adjacent units is at least twice an average interval between adjacent syllables in one unit. 5. .   The mouse attraction method according to any one of claims 1 to 4, wherein a frequency of the ultrasonic wave is in a range of 30 kHz to 47 kHz. A device that attracts mice by ultrasound,
A mouse attracting apparatus, comprising: an ultrasonic wave generating means for generating an ultrasonic wave having a frequency characteristic that is repeated a plurality of times at intervals from each other, wherein a unit composed of a plurality of syllables spaced from each other. A device that attracts and captures mice by ultrasound,
A mouse attracting device that attracts mice and a trap that captures the attracted mice,
The mouse attracting apparatus includes an ultrasonic generator that generates an ultrasonic wave having a frequency characteristic in which a unit composed of a plurality of syllables spaced apart from each other is repeated a plurality of times at intervals from each other. Mouse capture device. A sensor unit for detecting a rat approaching a predetermined distance to the mouse attraction device;
The mouse capturing device according to claim 7, further comprising: a control unit that lowers a sound pressure of ultrasonic waves in the ultrasonic generator based on a detection signal from the sensor unit.