CN109156468A - A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) and its arresting Myospalax fontanieri(Milne-Edwards) - Google Patents
A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) and its arresting Myospalax fontanieri(Milne-Edwards) Download PDFInfo
- Publication number
- CN109156468A CN109156468A CN201810685537.4A CN201810685537A CN109156468A CN 109156468 A CN109156468 A CN 109156468A CN 201810685537 A CN201810685537 A CN 201810685537A CN 109156468 A CN109156468 A CN 109156468A
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- CN
- China
- Prior art keywords
- milne
- edwards
- myospalax fontanieri
- infrasound
- fontanieri
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01M—CATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
- A01M29/00—Scaring or repelling devices, e.g. bird-scaring apparatus
- A01M29/16—Scaring or repelling devices, e.g. bird-scaring apparatus using sound waves
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01M—CATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
- A01M23/00—Traps for animals
Abstract
A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) and its arresting Myospalax fontanieri(Milne-Edwards), belong to rat destruction equipment and type mouse trapping method technical field, it solves the problems, such as Myospalax fontanieri(Milne-Edwards) expulsion and arrests, the present apparatus includes Subsonic wave generator and infrasound regulating device: Subsonic wave generator includes damping cabinet, resonant cavity, supporting frame, driving mechanism, eccentric wheel body, striking mechanism and force adjustment mechanism, the outside of damping cabinet is arranged in infrasound regulating device, the driving mechanism being arranged in infrasound regulating device and Subsonic wave generator is electrically connected, infrasound regulating device includes protective casing, display module, adjusting knob, power module, control module and frequency measurement module.The present invention adjusts the efficiency of infrasonic propagation distance and transmission in Subsonic wave generator by infrasound regulating device, improve the adaptability of banishing device, the Myospalax fontanieri(Milne-Edwards) for living in underground is expelled into ground end using banishing device of the invention, and mousing mechanism is placed on ground, facilitate Myospalax fontanieri(Milne-Edwards) to capture.
Description
Technical field
It is the invention belongs to rat destruction equipment and type mouse trapping method technical field, in particular to a kind of for expelling the dress of Myospalax fontanieri(Milne-Edwards)
The method for setting and its arresting Myospalax fontanieri(Milne-Edwards).
Background technique
Myospalax fontanieri(Milne-Edwards) is commonly called as blind mouse, they live in underground throughout the year, are the main bandicoots of agriculture, animal husbandry.Due to Chinese Fen
Mouse seldom arrives land operations, and traditional mouse trap is nearly unavailable to its, and the cavern of zokor and channel are one complicated
System, hand digging are also difficult to realize and efficiently capture.Since ultrasonic wave is decayed quickly in the soil, various ultrasounds used at present
Wave mice and insect pests expellant device can not also constitute large effect to the life of zokor.Decay in solids in view of infrasound it is relatively slow and
It can resonate with the internal organs of zokor, it is possible to Myospalax fontanieri(Milne-Edwards) be driven using the infrasound of proper strength and frequency
By.
Summary of the invention
In order to overcome the shortcomings of the prior art, solve the problems, such as that Myospalax fontanieri(Milne-Edwards) is expelled and arrested in the prior art, originally
A kind of method that invention provides the device for expelling Myospalax fontanieri(Milne-Edwards) and its arrests Myospalax fontanieri(Milne-Edwards).
The present invention is achieved by the following technical programs.
It is a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it includes Subsonic wave generator and infrasound regulating device, in which:
The Subsonic wave generator includes damping cabinet, resonant cavity, supporting frame, driving mechanism, eccentric wheel body, percussion machine
Structure and force adjustment mechanism are provided with through-hole on the bottom surface of the damping cabinet, and the resonant cavity is set to the bottom surface of damping cabinet
On, resonant cavity includes cylindric resonance cavity wall, and the internal diameter of resonance cavity wall and the diameter of through-hole are equal, the lateral wall of resonance cavity wall
Gap is provided between the inner sidewall of damping cabinet, the upper surface of resonance cavity wall is set as vibration end face, resonance cavity wall
Lower surface is set as lower vibration end face, and lower vibration end face is through the outside of through-hole protrusion damping cabinet;The installation of support frame as described above body
In the top on the inner wall of damping cabinet and positioned at resonant cavity, supporting frame includes two L-types about center symmetric setting
Connecting rod is provided with cuboid cavity between the opposite face of two L-type connecting rods, for tapping the striking mechanism setting of upper vibration end face
It is in cuboid cavity and hinged with the opposite face of two connecting rods respectively;The top of cuboid cavity is close to striking mechanism tail portion one
Side is provided with support plate across two connecting rods, and striking mechanism position corresponding position is provided with gap, the driving machine in support plate
Structure is installed in support plate, and the bias wheel body is set to the top of striking mechanism tail portion, and eccentric wheel body is installed on driving mechanism
Output shaft on, the length direction of the axis direction and cuboid cavity of output shaft is mutually perpendicular to;The force adjustment mechanism is installed on
On supporting frame and it is set to the top in the middle part of striking mechanism, force adjustment mechanism includes spring divider and force adjustment spring, spring divider
It is fixedly installed on supporting frame, the upper end of force adjustment spring is fixedly installed on spring divider, and the lower end of force adjustment spring is set to
On striking mechanism;
The infrasound regulating device is fixedly mounted on the top of surge tank body front surface, and infrasound regulating device and infrasound are sent out
The driving mechanism electrical connection being arranged in generating apparatus, the infrasound regulating device include protective casing, display module, adjust rotation
Button, power module, control module and frequency measurement module, display module and adjusting knob are arranged on protective casing, display module and
Adjusting knob is electrically connected with control module respectively;The inside of protective casing is arranged in power module, control module and frequency measurement module,
Power module and frequency measurement module are electrically connected with control module respectively, and power interface is provided on the outside of protective casing;Adjusting knob
The revolving speed of driving mechanism is adjusted by the output pulse frequency that control module adjusts driving mechanism, and then adjusts striking mechanism
Percussion frequency, frequency measurement module by control module acquire striking mechanism percussion frequency and shown by display module.
Further, the striking mechanism includes tapping bar and tapping hammer, taps hammer and is installed on the following table for tapping bar head end
On face, driving mechanism taps bar by the eccentric wheel body rotation drive of driving and rotates around hinged place, and percussion bar driving, which taps to hammer into shape, to be tapped
Upper vibration end face.
Further, it the eccentric wheel body and taps the contact surface of bar tail portion and is set as inclined-plane, and the inclined-plane inclines
The rotation direction of tilted direction and eccentric wheel body is tangent.
Further, the material of the upper vibration end face and lower vibration end face is vibrating membrane, upper vibration end face and lower vibration
The chord length in moved end face is not less than 1.7m, and the beating point of the striking mechanism is 85cm at a distance from the edge of resonant cavity.
Further, the force adjustment spring is in pre-compressed state, and the precompression by adjusting force adjustment spring, which is adjusted, to be tapped
The percussion dynamics of mechanism.
A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) to arrest Myospalax fontanieri(Milne-Edwards), comprising the following steps:
A, a device for placing expulsion Myospalax fontanieri(Milne-Edwards) is excavated at least one the Myospalax fontanieri(Milne-Edwards) hole for arresting region
Pit;
B, Subsonic wave generator is placed in the pit of step a excavation, is made in Subsonic wave generator under resonant cavity
Infrasound regulating device is exposed to the outside on ground by the hole of bottom side alignment Myospalax fontanieri(Milne-Edwards);
C, coupling layer is filled around the bottom of pit and damping cabinet, then will be located at the Subsonic wave generator in pit
It is embedded in pit and fills and leads up pit;
D, the ground for arresting region is provided with mousing mechanism, starts Subsonic wave generator, passes through infrasound regulating device tune
The frequency and intensity that knocking device taps resonant cavity are saved, Myospalax fontanieri(Milne-Edwards) is evicted out of into underground, is directly mended using mousing mechanism
Obtain Myospalax fontanieri(Milne-Edwards).
Further, the mousing mechanism is netted, and the ground Myospalax fontanieri(Milne-Edwards) hole for arresting region is arranged in mousing mechanism
Place.
Compared with prior art the invention has the benefit that
Provided by the present invention for expelling the device of Myospalax fontanieri(Milne-Edwards), resonant cavity is tapped using driving mechanism driving striking mechanism
Another vibration end face of one vibration end face, resonant cavity spreads out of infrasound, and resonant cavity has the function of reducing energy, lead to
Toning force mechanisms increase the percussion dynamics of striking mechanism, increase infrasonic propagation distance;Another vibration end of resonant cavity
Extend damping cabinet, improves the efficiency of infrasound transmission;The revolving speed of driving mechanism is adjusted using infrasound regulating device, in turn
The percussion frequency for adjusting striking mechanism, improves the adaptability of banishing device.
The present invention also propose it is a kind of arrest method for Myospalax fontanieri(Milne-Edwards), will live in ground using banishing device of the invention
Beneath Myospalax fontanieri(Milne-Edwards) expels ground end, and places mousing mechanism benefit on ground and obtain, and solves the problems, such as that Myospalax fontanieri(Milne-Edwards) defies capture.
Detailed description of the invention
Fig. 1 is the whole front view structure structural schematic diagram of the present invention.
Fig. 2 is Subsonic wave generator perspective structure schematic diagram in Fig. 1.
Fig. 3 is the face A-A schematic cross-sectional view in Fig. 1.
Fig. 4 is the face B-B schematic cross-sectional view in Fig. 3.
In figure, 1 is damping cabinet, and 2 be resonant cavity, and 21 be resonance cavity wall, and 22 be upper vibration end face, and 23 be lower vibration end
Face, 3 be supporting frame, and 31 be connecting rod, and 32 be support plate, and 33 be cuboid cavity, and 4 be driving mechanism, and 5 be eccentric wheel body, 6
For striking mechanism, 61 is tap bar, and 62 is tap hammer, and 7 be force adjustment mechanism, and 71 be spring divider, and 72 be force adjustment spring, and 8 be anti-
Protective case body, 9 be display module, and 10 be adjusting knob, and 11 be power module, and 12 be control module, and 13 be frequency measurement module.
Specific embodiment
The present invention is described in further detail with reference to the accompanying drawings and examples.
As shown in Figures 1 to 4 is a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it includes Subsonic wave generator and infrasonic sound
Wave regulating device, in which:
The Subsonic wave generator include damping cabinet 1, resonant cavity 2, supporting frame 3, driving mechanism 4, eccentric wheel body 5,
Striking mechanism 6 and force adjustment mechanism 7 are provided with through-hole on the bottom surface of the damping cabinet 1, and the resonant cavity 2 is set to damping
On the bottom surface of cabinet 1, resonant cavity 2 includes cylindric resonance cavity wall 21, and the internal diameter of resonance cavity wall 21 and the diameter of through-hole are equal,
Gap is provided between the lateral wall of resonance cavity wall 21 and the inner sidewall of damping cabinet 1, the upper surface of resonance cavity wall 21 is set as
Upper vibration end face 22, the lower surface of resonance cavity wall 21 are set as lower vibration end face 23, and lower vibration end face 23 subtracts through through-hole protrusion
Shake the outside of cabinet 1;Support frame as described above body 3 is installed on the top on the inner wall of damping cabinet 1 and being located at resonant cavity 2, support
Frame body 3 includes two L-type connecting rods 31 about center symmetric setting, is provided between the opposite face of two L-type connecting rods 31 rectangular
Body cavity 33, for tap it is upper vibration end face 22 striking mechanism 6 be set in cuboid cavity 33 and respectively with two connecting rods
31 opposite face is hinged;The top of cuboid cavity 33 is provided with branch across two connecting rods 31 close to 6 tail portion side of striking mechanism
Fagging 32 is provided with gap with 6 position corresponding position of striking mechanism in support plate 32, and the driving mechanism 4 is installed on support plate 32
On, the bias wheel body 5 is set to the top of 6 tail portion of striking mechanism, and eccentric wheel body 5 is installed on the output shaft of driving mechanism 4,
The axis direction of output shaft and the length direction of cuboid cavity 33 are mutually perpendicular to;The force adjustment mechanism 7 is installed on supporting frame 3
The top at 6 middle part of striking mechanism is gone up and is set to, force adjustment mechanism 7 includes spring divider 71 and force adjustment spring 72, spring divider 71
It is fixedly installed on supporting frame 3, the upper end of force adjustment spring 72 is fixedly installed on spring divider 71, the lower end of force adjustment spring 72
It is set on striking mechanism 6;
The infrasound regulating device is fixedly mounted on the top of 1 front surface of damping cabinet, infrasound regulating device and infrasound
The driving mechanism 4 being arranged in generating device is electrically connected, and the infrasound regulating device includes protective casing 8, display module 9, adjusts
Knob 10, power module 11, control module 12 and frequency measurement module 13 are saved, display module 9 and adjusting knob 10 are arranged in protecting crust
On body 8, display module 9 and adjusting knob 10 are electrically connected with control module 12 respectively;Power module 11, control module 12 and frequency measurement
The inside of protective casing 8 is arranged in module 13, and power module 11 and frequency measurement module 13 are electrically connected with control module 12 respectively, protection
The outside of shell 8 is provided with power interface;Adjusting knob 10 adjusts the output pulse frequency of driving mechanism 4 by control module 12
And then the revolving speed of driving mechanism 4 being adjusted, and then adjust the percussion frequency of striking mechanism 4, frequency measurement module 13 passes through control module 12
It acquires the percussion frequency of striking mechanism 6 and is shown by display module 9.
Further, the striking mechanism 6 includes tapping bar 61 and percussion hammer 62, taps hammer 62 and is installed on 61 head of percussion bar
On the lower surface at end, driving mechanism 4 is rotated by driving the eccentric rotation of wheel body 5 drive to tap bar 61 around hinged place, taps bar 61
Driving, which taps hammer 62 and taps, vibrates end face 22.
Further, the eccentric wheel body 5 is set as inclined-plane with the contact surface for tapping 61 tail portion of bar, and the inclined-plane
The rotation direction of inclined direction and eccentric wheel body 5 is tangent.
Further, the material of the upper vibration end face 22 and lower vibration end face 23 is vibrating membrane, upper vibration end face 22
It is not less than 1.7m with the chord length of lower vibration end face 23, the beating point of the striking mechanism 6 is at a distance from the edge of resonant cavity 2
For 85cm.
Further, the force adjustment spring 72 is in pre-compressed state, and the precompression by adjusting force adjustment spring 72 is adjusted
The percussion dynamics of striking mechanism 6.
A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) to arrest Myospalax fontanieri(Milne-Edwards), comprising the following steps:
A, a device for placing expulsion Myospalax fontanieri(Milne-Edwards) is excavated at least one the Myospalax fontanieri(Milne-Edwards) hole for arresting region
Pit;
B, Subsonic wave generator is placed in the pit of step a excavation, is made in Subsonic wave generator under resonant cavity 2
Infrasound regulating device is exposed to the outside on ground by the hole of bottom side alignment Myospalax fontanieri(Milne-Edwards);
C, coupling layer is filled around the bottom of pit and damping cabinet, then will be located at the Subsonic wave generator in pit
It is embedded in pit and fills and leads up pit;
D, the ground for arresting region is provided with mousing mechanism, starts Subsonic wave generator, passes through infrasound regulating device tune
The frequency and intensity that knocking device 6 taps resonant cavity 2 are saved, Myospalax fontanieri(Milne-Edwards) are evicted out of into underground, mechanism is direct using mousing
Benefit obtains Myospalax fontanieri(Milne-Edwards).
Further, the mousing mechanism is netted, and the ground Myospalax fontanieri(Milne-Edwards) hole for arresting region is arranged in mousing mechanism
Place.
The course of work of the invention is as follows: the power module 11 of starting infrasound regulating device, correspondingly infrasound occurs
Device starts, and driving mechanism 4 drives eccentric wheel body 5 to rotate, and eccentric wheel body 5 rotates when pile warp taps the struck side of bar 61 to percussion
61 1 active forces of bar are so that the percussion hammer 62 for tapping 61 end of bar leaves the upper vibration end face 22 of resonant cavity 2, percussion bar 61
The force adjustment spring 72 of force adjustment mechanism 7 is compressed, after eccentric wheel body 5 leaves percussion bar 61, taps bar 61 in the force adjustment bullet of force adjustment mechanism 7
Accelerate to tap towards the upper vibration end face 22 of resonant cavity 2 under the action of the compressing force of spring 72, increases the percussion power for tapping hammer 62
Degree;It taps repeatedly, the lower vibration end face 23 of resonant cavity 2 spreads out of infrasound.The lower vibration end face 23 of resonant cavity 2 extends
The outside of damping cabinet 1 out, so that Subsonic wave generator is in ground end in use, improving the efficiency that infrasound is propagated.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
It is familiar with those skilled in the art in the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of, should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (7)
1. a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it includes Subsonic wave generator and infrasound regulating device, feature
It is:
The Subsonic wave generator include damping cabinet (1), resonant cavity (2), supporting frame (3), driving mechanism (4), partially
Heart wheel body (5), striking mechanism (6) and force adjustment mechanism (7) are provided with through-hole, the resonance on the bottom surface of the damping cabinet (1)
Cavity (2) is set on the bottom surface of damping cabinet (1), and resonant cavity (2) includes cylindric resonance cavity wall (21), resonance cavity wall
(21) internal diameter is equal with the diameter of through-hole, is arranged between the lateral wall of resonance cavity wall (21) and the inner sidewall of damping cabinet (1)
There is gap, the upper surface of resonance cavity wall (21) is set as vibration end face (22), and the lower surface of resonance cavity wall (21) is set as down
It vibrates end face (23), lower vibration end face (23) is through the outside of through-hole protrusion damping cabinet (1);Support frame as described above body (3) installation
In the top on the inner wall of damping cabinet (1) and positioned at resonant cavity (2), supporting frame (3) includes two about central symmetry
The L-type connecting rod (31) of setting is provided with cuboid cavity (33) between the opposite face of two L-type connecting rods (31), for tapping
The striking mechanism (6) of vibration end face (22) is set in cuboid cavity (33) and respectively with the opposite face of two connecting rods (31) and cuts with scissors
It connects;The top of cuboid cavity (33) is provided with support plate across two connecting rods (31) close to striking mechanism (6) tail portion side
(32), gap is provided in support plate (32) with striking mechanism (6) position corresponding position, the driving mechanism (4) is installed on support
On plate (32), the bias wheel body (5) is set to the top of striking mechanism (6) tail portion, and eccentric wheel body (5) is installed on driving mechanism
(4) on output shaft, the length direction of the axis direction and cuboid cavity (33) of output shaft is mutually perpendicular to;The force adjustment mechanism
(7) top for being installed on supporting frame (3) and being set in the middle part of striking mechanism (6), force adjustment mechanism (7) include spring divider
(71) it is fixedly installed on supporting frame (3) with force adjustment spring (72), spring divider (71), the upper end of force adjustment spring (72) is fixed
It is installed on spring divider (71), the lower end of force adjustment spring (72) is set on striking mechanism (6);
The infrasound regulating device is fixedly mounted on the top of damping cabinet (1) front surface, infrasound regulating device and infrasonic sound
Driving mechanism (4) electrical connection being arranged in wave generating device, the infrasound regulating device include protective casing (8), display mould
Block (9), adjusting knob (10), power module (11), control module (12) and frequency measurement module (13), display module (9) and adjusting
Knob (10) is arranged on protective casing (8), and display module (9) and adjusting knob (10) are electrically connected with control module (12) respectively
It connects;Power module (11), control module (12) and frequency measurement module (13) are arranged in the inside of protective casing (8), power module
(11) it is electrically connected respectively with control module (12) with frequency measurement module (13), protective casing is provided with power interface on the outside of (8);It adjusts
Section knob (10) adjusts driving mechanism (4) by the output pulse frequency that control module (12) adjust driving mechanism (4)
Revolving speed, and then the percussion frequency of striking mechanism (4) is adjusted, frequency measurement module (13) acquires striking mechanism by control module (12)
(6) percussion frequency is simultaneously shown by display module (9).
2. according to claim 1 a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it is characterised in that: the striking mechanism
(6) include tapping bar (61) and tapping hammer (62), tap hammer (62) and be installed on the lower surface for tapping bar (61) head end, driving machine
Structure (4) is rotated by driving eccentric wheel body (5) rotation drive to tap bar (61) around hinged place, is tapped bar (61) driving percussion and is hammered into shape
(62) end face (22) are vibrated in percussion.
3. according to claim 2 a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it is characterised in that: the bias wheel body
(5) inclined-plane, and turn of the inclined direction on the inclined-plane and eccentric wheel body (5) are set as with the contact surface for tapping bar (61) tail portion
Dynamic direction is tangent.
4. according to claim 1 a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it is characterised in that: the upper vibration end face
(22) and the material of lower vibration end face (23) is vibrating membrane, and the chord length of upper vibration end face (22) and lower vibration end face (23) is not small
In 1.7m, the beating point of the striking mechanism (6) is 85cm at a distance from the edge of resonant cavity (2).
5. according to claim 1 a kind of for expelling the device of Myospalax fontanieri(Milne-Edwards), it is characterised in that: the force adjustment spring
(72) it is in pre-compressed state, the precompression by adjusting force adjustment spring (72) adjusts the percussion dynamics of striking mechanism (6).
6. a kind of method for expelling the device of Myospalax fontanieri(Milne-Edwards) to arrest Myospalax fontanieri(Milne-Edwards), feature as described in claim 1 exist
In the following steps are included:
A, a device for placing expulsion Myospalax fontanieri(Milne-Edwards) is excavated at least one the Myospalax fontanieri(Milne-Edwards) hole for arresting region
Pit;
B, Subsonic wave generator is placed in the pit of step a excavation, makes resonant cavity in Subsonic wave generator (2)
Bottom surface is directed at the hole of Myospalax fontanieri(Milne-Edwards), and infrasound regulating device is exposed to the outside on ground;
C, coupling layer is filled around the bottom of pit and damping cabinet, then will be located at the Subsonic wave generator in pit
It is embedded in pit and fills and leads up pit;
D, the ground for arresting region is provided with mousing mechanism, starts Subsonic wave generator, passes through infrasound regulating device tune
The frequency and intensity that knocking device (6) tap resonant cavity (2) are saved, Myospalax fontanieri(Milne-Edwards) is evicted out of into underground, utilizes mousing mechanism
It directly mends and obtains Myospalax fontanieri(Milne-Edwards).
7. a kind of method for expelling the device of Myospalax fontanieri(Milne-Edwards) to arrest Myospalax fontanieri(Milne-Edwards) according to claim 6, feature
Be: the mousing mechanism be it is netted, mousing mechanism is arranged at the ground Myospalax fontanieri(Milne-Edwards) hole for arresting region.
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CN201810685537.4A CN109156468A (en) | 2018-06-28 | 2018-06-28 | A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) and its arresting Myospalax fontanieri(Milne-Edwards) |
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CN201810685537.4A CN109156468A (en) | 2018-06-28 | 2018-06-28 | A method of for expelling the device of Myospalax fontanieri(Milne-Edwards) and its arresting Myospalax fontanieri(Milne-Edwards) |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113057158A (en) * | 2021-04-21 | 2021-07-02 | 成都大学 | Hedgehog digging-through preventing structure for bottom of enclosing wall |
CN113809656A (en) * | 2021-10-15 | 2021-12-17 | 隋大明 | Power distribution cabinet |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2055066U (en) * | 1989-01-18 | 1990-03-28 | 郑平 | Infrasonic and low-frequency sonic generator |
CN2170160Y (en) * | 1993-11-01 | 1994-06-29 | 韩铁 | Sound wave generator |
JP2007253139A (en) * | 2006-03-27 | 2007-10-04 | Alps Electric Co Ltd | Vibration generator |
CN101120872A (en) * | 2007-09-13 | 2008-02-13 | 山西大学 | Rat sports ability detecting method and system |
CN201032806Y (en) * | 2007-09-28 | 2008-03-12 | 深圳市威猫无敌科技有限公司 | Digital type self-timing frequency conversion electric mouse driving device |
CN101259466A (en) * | 2008-03-24 | 2008-09-10 | 中南大学 | High-power infrasonic wave generating device |
CN102197660A (en) * | 2008-11-04 | 2011-09-21 | 奥林巴斯医疗株式会社 | Acoustic oscillator and image generation device |
CN202603476U (en) * | 2012-05-25 | 2012-12-19 | 易百达电子(深圳)有限公司 | Small cave animal expelling device |
CN203724440U (en) * | 2014-03-17 | 2014-07-23 | 闫红卫 | Knocking rehabilitation device for traditional Chinese medicine nursing |
-
2018
- 2018-06-28 CN CN201810685537.4A patent/CN109156468A/en active Pending
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2055066U (en) * | 1989-01-18 | 1990-03-28 | 郑平 | Infrasonic and low-frequency sonic generator |
CN2170160Y (en) * | 1993-11-01 | 1994-06-29 | 韩铁 | Sound wave generator |
JP2007253139A (en) * | 2006-03-27 | 2007-10-04 | Alps Electric Co Ltd | Vibration generator |
CN101120872A (en) * | 2007-09-13 | 2008-02-13 | 山西大学 | Rat sports ability detecting method and system |
CN201032806Y (en) * | 2007-09-28 | 2008-03-12 | 深圳市威猫无敌科技有限公司 | Digital type self-timing frequency conversion electric mouse driving device |
CN101259466A (en) * | 2008-03-24 | 2008-09-10 | 中南大学 | High-power infrasonic wave generating device |
CN102197660A (en) * | 2008-11-04 | 2011-09-21 | 奥林巴斯医疗株式会社 | Acoustic oscillator and image generation device |
CN202603476U (en) * | 2012-05-25 | 2012-12-19 | 易百达电子(深圳)有限公司 | Small cave animal expelling device |
CN203724440U (en) * | 2014-03-17 | 2014-07-23 | 闫红卫 | Knocking rehabilitation device for traditional Chinese medicine nursing |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113057158A (en) * | 2021-04-21 | 2021-07-02 | 成都大学 | Hedgehog digging-through preventing structure for bottom of enclosing wall |
CN113809656A (en) * | 2021-10-15 | 2021-12-17 | 隋大明 | Power distribution cabinet |
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Application publication date: 20190108 |