CN114514917A - A device that kills rats flows for meadow - Google Patents

Abstract

The invention relates to a flowing mouse trapping device for a grassland, which belongs to the technical field of ecological protection and comprises a tubular container, a camouflage mousehole component, a walking wheel component and an end cover component, wherein the tubular container is arranged on the outer side of the tubular container; the tubular container is a device for containing the yellow rat, the disguised rat hole component and the walking wheel component are connected through a rat hole interface on the tubular container, and the end cover components are connected at two ends of the tubular container through threads. The disguised mousehole assembly consists of a disguised mousehole and a one-way cover plate assembly. The walking wheel assembly mainly comprises a walking wheel shell, a walking wheel interface, an arc plate structure and the like. The end cover assembly comprises an end cover, anti-skid protrusions are arranged on the outer edge of the end cover, and a rechargeable GPS module is arranged in the end cover. The mouse trapping device can roll in a grassland by means of wind power, reports the position to the central control system in real time by the aid of the GPS module, traps mice by the aid of mouse baits and can trap mice in a large scale.

Description

A device that kills rats flows for meadow

Technical Field

The invention belongs to the technical field of ecological protection, relates to a mouse trapping device, and particularly relates to a flowing mouse trapping device for a grassland.

Background

China is a country with serious grassland degeneration and desertification. The grassland desertification is caused by many aspects, wherein rat damage is an important aspect, such as Himalaya woodchuck which damages grassland in Qinghai is very rampant, Jilin and inner Mongolia grassland rat damage generally refers to Daroughy mouse, also known as Mongolian yellow mouse, grassland yellow mouse, big-eye cuttle and the like. The Dahurian yellowrat drills holes in the grassland underground, damages grass roots, and soil piles dug by digging the holes press green grass at the hole openings, so that the self reproduction is fast, and the number of natural enemies of the Dahurian yellowrat is small. Because of wide living area and high mobility, no specific method for treating the grassland mouse injury exists so far.

Disclosure of Invention

In order to solve the defects in the prior art, the invention aims to provide a mobile mouse trapping device for grasslands, which can roll in the grasslands by means of wind power, report the position to a central control system in real time by a GPS module, trap mouse by a mouse bait and trap mice in large batches.

The invention adopts the following specific scheme:

a flow mouse trap for grasslands comprises a tubular container, a camouflaged mousehole assembly, a walking wheel assembly and an end cover assembly;

the tubular container comprises a pipe body, wherein an interface I for connecting the camouflage rat hole assembly and an interface II for connecting the walking wheel assembly are arranged on the pipe body; end threads are arranged at two ends of the pipe body, and the end cover assembly is connected with the tubular container through the end threads;

the disguised rat hole component comprises a disguised rat hole and a one-way cover plate component; the disguised rat hole is a straight pipe with an elbow at one end, a groove matched with the interface I is arranged in the elbow, the disguised rat hole is connected with the tubular container through the groove and the interface I, and the extending direction of the straight pipe of the disguised rat hole is parallel to the axial direction of the tubular container body after the straight pipe is connected; a one-way cover plate component which only opens and closes towards the inner side of the pipe body is arranged in the elbow;

The two groups of walking wheel assemblies are respectively connected and rolled on the tube body of the tubular container; the walking wheel assembly comprises two walking wheel shells which are oppositely arranged, the walking wheel shells are hollow, the outer side surfaces of the walking wheel shells are arc-shaped, walking wheel interfaces matched with the interface II are arranged on the inner side surfaces of the walking wheel shells, and the walking wheel shells are connected to the tube body of the tubular container through the interface II and the walking wheel interfaces;

the two groups of end cover assemblies are respectively covered at two ends of the tubular container tube body; the end cover assembly comprises an end cover, anti-skid protrusions are arranged on the outer edge of the end cover, internal threads matched with end threads on the tubular container are arranged inside the end cover, and a rechargeable GPS module is arranged inside the end cover.

As a further optimization of the mouse trapping device, the pipe body is respectively provided with interface pieces near the left end and the right end, and each interface piece comprises four pairs of interfaces I and two pairs of interfaces II along the circumferential direction of the pipe body; the four pairs of interfaces I are arranged between the two pairs of interfaces II in pairs; the camouflage rat hole is connected with the tubular container through a connector I, and the walking wheel shell is connected with the tubular container through a connector II; arc plate structures are arranged on the inner sides of the upper end and the lower end of the walking wheel shell, and the arc plate structures are attached to the camouflage rat hole.

Another scheme of interface setting is as follows: the pipe body is provided with a left end and a right end, the left end and the right end are respectively provided with an interface piece, each interface piece comprises two pairs of interfaces I and two pairs of interfaces II, and the interfaces I and the interfaces II are uniformly arranged along the circumferential direction of the pipe body at intervals; the camouflage rat hole is connected with the tubular container through a connector I, and the walking wheel shell is connected with the tubular container through a connector II; arc plate structures are arranged on the inner sides of the upper end and the lower end of the walking wheel shell, and the arc plate structures are attached to the camouflage rat hole.

Further, the two interface pieces at the left end and the right end of the pipe body are symmetrically arranged on the pipe body; every to interface I comprises two interfaces I along body axial setting, and every to interface II comprises two interfaces II along body axial setting. More preferably, the interface I and the interface II are the same and are collectively called as a rat hole interface; the rat hole interface is a trapezoidal buckle.

As a further optimization of the mouse trapping device, the one-way cover plate component consists of a cover plate shell, a cover plate, a pin and a torsion spring; the cover plate shell is provided with an inward step for blocking the cover plate from moving towards the outer side of the pipe body; the cover plate is fixed with the cover plate shell through pins, and torsional springs enabling the cover plate to be attached to the inwards-recessed steps are arranged on the pins.

As a further optimization of the mouse trapping device, a wire netting is arranged at the joint of the walking wheel.

As a further optimization of the mouse trapping device, the main body of the mouse trapping device is made of plastic materials.

As a further optimization of the mouse trapping device, an external camouflage is arranged on the periphery of the mouse trapping device.

Has the beneficial effects that: the invention provides a device and a method for trapping mice by flowing, which are suitable for working on grasslands. The device reuse, no injury basically to the yellow mouse of grabbing, conveniently do next processing, self has positioning system, makes things convenient for the staff to look for, and specific effect is as follows:

firstly, the device is cylindrical, so that the device can roll on the grassland conveniently, the two ends of the device are grounded, and the middle of the device is suspended, so that the direction of the device can be changed conveniently;

secondly, the device is provided with a bait for the yellow rat, the bait is hidden in the walking wheel and is not easy to lose, and the fragrance is emitted into the tubular container through the interface of the walking wheel and then is transmitted to each disguised rat hole through the tubular container, so that the device has great allure to the yellow rat;

thirdly, compared with the mouse trap, the caught yellow mouse is not damaged. Compared with the mouse trapping medicine, the bait does not hurt the predators of the mice, and is more ecological and environment-friendly;

Fourthly, the mouse trap can trap large amount of mice. Normal mouse trapping tools, such as a trap, a trap cage, a kitten, etc., generally cause injury to mice. This injury can cause the yellow rat to emit an odor or sound signal with dangerous implications, rendering other yellow rats dare away from approach. The mouse trapping device can not make the yellow rat generate fear;

fifthly, the position and the electric quantity of the user can be reported in real time, and the user can conveniently perform next treatment;

sixthly, the device is easily blocked by soil piles beside the rat hole in rolling, and is just favorable for catching the yellow rat.

Drawings

FIG. 1 is a schematic structural diagram of the flow mouse trap of the present invention;

FIG. 2 is a schematic view of a tubular container structure;

FIG. 3 is a schematic structural diagram of a camouflaged mousehole assembly;

FIG. 4 is a schematic view of a one-way cover plate assembly;

FIG. 5 is a schematic structural view of a walking wheel assembly;

FIG. 6 is a schematic structural view of an end cap assembly;

FIG. 7 is a schematic view of a cover plate housing construction;

FIG. 8 is a schematic view of a cover plate configuration;

FIG. 9 is a schematic view of a snap feature;

in the figure: 1. a tubular container; 11. a pipe body; 12. a rat hole interface; 13. end threads; 2. disguising the mousehole assembly; 21. disguising a rat hole; 22. a one-way cover plate assembly; 221. a cover plate housing; 222. a cover plate; 223. a pin; 224. a torsion spring; 3. a walking wheel assembly; 31. a walking wheel housing; 32. a walking wheel interface; 33. an arc plate structure; 4. an end cap assembly; 41. anti-skid projections; 42. an internal thread; 43. and a GPS module.

Detailed Description

In the description of the present invention, it should be understood that the terms "axial," "upper," "lower," "left," "right," "horizontal," "inner," "outer," etc. indicate orientations or positional relationships based on those illustrated in the drawings, merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, as well as a particular orientation, construction and operation, and thus, are not to be considered as limiting the present invention.

A flow mouse trap for grassland, which is shown in figure 1. The device can freely roll on the grassland and is a mobile mouse trap. The mouse trapping device mainly comprises a tubular container 1, a camouflage mousehole component 2, a walking wheel component 3, an end cover component 4 and external camouflage. The main body of the device is made of hard plastics.

As shown in fig. 2, the tubular container 1 is a device for containing a yellow rat, the camouflage rat hole component 2 is connected through the rat hole interface 12, the walking wheel component 3 is connected through the rat hole interface 12, and the two ends of the tubular container 1 are connected with the end cover components 4 through threads.

As shown in fig. 3, the camouflaged mousehole assembly 2 is composed of a camouflaged mousehole 21 and a one-way lid assembly 22.

The disguised rat hole 21 is a straight pipe with an elbow at one end, and a groove matched with the rat hole interface 12 of the tubular container 1 is arranged in the elbow. The elbow is stepped to accommodate a one-way cover assembly 22.

As shown in fig. 4, 7 and 8, the one-way cover plate assembly 22 is composed of a cover plate case 221, a cover plate 222, a pin 223 and a torsion spring 224. The cover plate shell 221 is provided with an inward step for blocking the cover plate 222 from moving to one side, the cover plate 222 is fixed with the cover plate shell 221 through a pin 223, and the pin 223 is provided with a torsion spring 224 to enable the cover plate 222 to be attached to the inward step.

As shown in fig. 5, the walking wheel assembly 3 is mainly composed of a walking wheel housing 31, a walking wheel interface 32, an arc plate structure 33, and the like. The housing 31 is hollow and is used to hold a quantity of bait, such as nuts, which are cooked. The arc plate structure 33 is just attached to the camouflage mousehole 12, and therefore mutual positioning is achieved. The walking wheel interface 32 is also matched with the rat hole interface 12 on the tubular container 1. The interface is a trapezoidal snap fastener used in common plastics, as shown in fig. 9.

As shown in fig. 6, the end cap assembly 4 includes an end cap, the outer edge of the end cap is provided with a skidproof protrusion 41 for easy installation and disassembly, the inner part of the end cap is provided with an internal thread 42 matched with the end of the tubular container 1, and the inner part of the end cap is provided with a rechargeable GPS module 43. The GPS module 43 may transmit the location information and the power amount information to the central control terminal.

The technical solution of the present invention will be clearly and completely described below with reference to the embodiments of the present invention.

Example 1

A mobile mousetrap for grass comprises a tubular container 1, a camouflage mousehole assembly 2, a walking wheel assembly 3 and an end cap assembly 4.

As shown in fig. 2, the tubular container 1 includes a cylindrical tube 11 with a hollow interior, two connectors are respectively disposed at the positions close to the left and right ends of the tube 11, each connector includes 12 rat hole connectors 12, and the camouflage rat hole assembly 2 and the walking wheel assembly 3 are connected through the rat hole connectors 12; end threads 13 are arranged at both ends of the pipe body 11, and the end cover assembly 4 is connected with the tubular container 1 through the end threads 13.

As shown in fig. 3, the camouflaged mousehole assembly 2 comprises a camouflaged mousehole 21 and a one-way cover plate assembly 22; the disguised rat hole 21 is a straight pipe with an elbow at one end, a groove matched with the rat hole interface 12 is arranged in the elbow, the disguised rat hole 21 is connected to the tubular container 1 through the mutual matching of the groove and the rat hole interface 12, and the extending direction of the straight pipe of the disguised rat hole 21 is parallel to the axial direction of the tubular container pipe body 11 after the connection; a one-way cover plate component 22 which is opened and closed only to one side is arranged in the elbow, so that the yellow rat can not climb out after entering the tubular container 1 along the camouflage rat hole 21. As shown in fig. 4, the one-way cover plate assembly 22 is composed of a cover plate housing 221, a cover plate 222, a pin 223 and a torsion spring 224; the cover shell 221 is provided with an inward-recessed step for blocking the cover 222 from moving to one side; the cover plate 222 is fixed to the cover plate housing 221 by a pin 223, and a torsion spring 224 for making the cover plate 222 closely contact the recessed step is disposed on the pin 223.

The two groups of walking wheel assemblies 3 are respectively connected and rolled on the pipe body 11 of the tubular container 1 and are used for driving the whole mouse trapping device to move under the action of wind power; the walking wheel assembly 3 comprises two walking wheel shells 31 which are oppositely arranged, as shown in fig. 5, the walking wheel shells 31 are hollow and used for containing bait for trapping mice, the outer side surfaces of the walking wheel shells 31 are arc-shaped, walking wheel connectors 32 matched with the rat hole connectors 12 are arranged on the inner side surfaces of the walking wheel shells 31, and the walking wheel shells 31 are connected to the tube bodies 11 of the tubular containers 1 through the rat hole connectors 12 and the walking wheel connectors 32; after the two walking wheel shells 31 are connected with the tube body 11 of the tubular container 1, the two arc-shaped outer side surfaces are mutually matched to form an easy-rolling similar-circular structure, so that free rolling under the action of wind force is realized.

On the body 11 of tubular container 1, every interface contains 12 trapezoidal buckle structure's rat hole interface 12, as fig. 2, regard 6 rat hole interfaces 12 as a connecting element, two connecting element set up relatively and close as far as possible along body 11 circumference, and every connecting element contains 3 pairs of rat hole interfaces 12 for connect a walking wheel casing 31 and four camouflage rat holes 21. Arc plate structures 33 are arranged on the inner sides of the upper end and the lower end of the walking wheel shell 31, and the arc plate structures 33 are attached to the camouflage rat hole 21. Because the arc plate structure 33 is just attached to the camouflage mouse hole 21, the arc plate structure can be positioned relative to the camouflage mouse hole.

The two groups of end cover components 4 are respectively covered at two ends of the tubular container tube body 11; the end cap assembly 4 comprises an end cap, the outer edge of the end cap is provided with a non-slip protrusion 41, the inner part of the end cap is provided with an internal thread 42 matched with the end thread on the tubular container, and the inner part of the end cap is provided with a rechargeable GPS module 43.

The main body of the mouse trapping device is made of plastic materials, is relatively light and convenient, and can increase the fluidity of the mouse trapping device.

When in use, the one-way cover plate component 22 is arranged in the camouflage mousehole 21 and then is arranged on the pipe body 11 of the tubular container 1 through the mousehole interface 12. The dummy rat hole 21 is rotated to a direction parallel to the axis of the tubular container 1. A small amount of bait such as fried nuts is filled in the walking wheel shell 31, and optionally a thin wire mesh is covered on the walking wheel interface 32 and then is installed on the tubular container 1. Therefore, the yellow rat can not easily eat the bait, can think to eat the bait all the time, and can not feel fear to release danger signals to the same type. The endcap assembly 4 with the GPS module 43 is installed. The vehicle is used to carry it to the upwind head on the grass for the last few days for planned release. The device is checked once every one or two days. Collecting the yellow rats or replacing the rechargeable battery. In order to improve the efficiency, the periphery of the whole device can be decorated with decorating materials such as dried bark and the like.

Example 2

The structure of the present embodiment is basically the same as that of the present embodiment, but the difference lies in that the arrangement of the rat hole interface 12 on the tube body 11 of the tubular container 1 is different, which is specifically represented as follows: on a pipe body 11 of the tubular container 1, each interface piece comprises 8 rat hole interfaces 12 of a trapezoidal buckle structure, after installation, as shown in fig. 1, the 8 rat hole interfaces 12 comprise four pairs of rat hole interfaces 12, the four pairs of rat hole interfaces 12 are uniformly arranged along the circumferential direction of the pipe body 11, walking wheel shells 31 are connected on the two opposite pairs of rat hole interfaces 12, and the walking wheel shells and the rat hole interfaces 12 are connected with camouflage rat holes 21. Similarly, the inner sides of the upper end and the lower end of the walking wheel shell 31 are respectively provided with an arc plate structure 33, and after the walking wheel shell is installed, the arc plate structures 33 are attached to the camouflage mousehole 21, so that the mutual positioning can be realized.

As shown in embodiment 1 or embodiment 2, the number or arrangement of the rat hole ports 12 can be adjusted as appropriate. But is best seen in example 2.

In the structural arrangement of the invention, the interface I is used for connecting the camouflage rat hole 21, the interface II is used for connecting the walking wheel shell 31, and the two interfaces can be both designed into trapezoidal buckles and can also be in other forms, such as thread structures and the like. For example, in the embodiment of the invention, the two interfaces have the same structure and are collectively called as a mousehole interface, and on the pipe body of the tubular container, the walking wheel shell and the disguised mousehole can also be arranged in a staggered mode, so long as the rolling function of the walking wheel shell and the function of disguising the mousehole are ensured to be realized.

It should be noted that the above-mentioned embodiments illustrate rather than limit the scope of the invention, which is defined by the appended claims. It will be apparent to those skilled in the art that certain insubstantial modifications and adaptations of the present invention can be made without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a flow mouse trapping device for meadow which characterized in that: comprises a tubular container (1), a camouflage mousehole component (2), a walking wheel component (3) and an end cover component (4);

the tubular container (1) comprises a tube body (11), and an interface I connected with the camouflage rat hole component (2) and an interface II connected with the walking wheel component (3) are arranged on the tube body (11); both ends of the pipe body (11) are provided with end threads (13), and the end cover assembly (4) is connected with the tubular container (1) through the end threads (13);

the camouflage mousehole assembly (2) comprises a camouflage mousehole (21) and a one-way cover plate assembly (22); the disguised rat hole (21) is a straight pipe with an elbow at one end, a groove matched with the interface I is arranged in the elbow, the disguised rat hole (21) is connected with the tubular container (1) through the groove and the interface I, and the extending direction of the straight pipe of the disguised rat hole (21) is parallel to the axial direction of the pipe body of the tubular container (1) after connection; a one-way cover plate component (22) which only opens and closes towards the inner side of the pipe body (11) is arranged in the elbow;

The two groups of walking wheel assemblies (3) are respectively connected and rolled on the pipe body (11) of the tubular container (1); the walking wheel assembly (3) comprises two walking wheel shells (31) which are oppositely arranged, the walking wheel shells (31) are hollow, the outer side surfaces of the walking wheel shells (31) are arc-shaped, walking wheel interfaces (32) matched with the interfaces II are arranged on the inner side surfaces of the walking wheel shells (31), and the walking wheel shells (31) are connected to the tube body (11) of the tubular container (1) through the interfaces II and the walking wheel interfaces (32);

the two groups of end cover assemblies (4) are respectively covered at two ends of the tubular container pipe body (11); the end cover assembly (4) comprises an end cover, anti-skid protrusions (41) are arranged on the outer edge of the end cover, internal threads (42) matched with end threads (13) on the tubular container (1) are arranged inside the end cover, and a rechargeable GPS module (43) is arranged inside the end cover.

2. A mouse trapping device according to claim 1, further comprising: the pipe body (11) is respectively provided with interface pieces near the left end and the right end, and each interface piece comprises four pairs of interfaces I and two pairs of interfaces II along the circumferential direction of the pipe body (11); the two pairs of interfaces II are symmetrically arranged along the circumferential direction of the pipe body (11), and every two of the four pairs of interfaces I are arranged between the two pairs of interfaces II; the camouflage mousehole (21) is connected with the tubular container (1) through a connector I, and the walking wheel shell (31) is connected with the tubular container (1) through a connector II; arc plate structures (33) are arranged on the inner sides of the upper end and the lower end of the walking wheel shell (31), and the arc plate structures (33) are attached to the camouflage rat hole (21).

3. A mouse trapping device according to claim 1, further comprising: the pipe body (11) is respectively provided with interface pieces near the left end and the right end, each interface piece comprises two pairs of interfaces I and two pairs of interfaces II, and the interfaces I and the interfaces II are uniformly arranged along the circumferential direction of the pipe body (11) at intervals; the camouflage rat hole (21) is connected with the tubular container (1) through a connector I, and the walking wheel shell (31) is connected with the tubular container (1) through a connector II; arc plate structures (33) are arranged on the inner sides of the upper end and the lower end of the walking wheel shell (31), and the arc plate structures (33) are attached to the camouflage rat hole (21).

4. A mouse trapping device according to claim 2 or 3, characterized in that: the two interface pieces at the left end and the right end of the pipe body (11) are symmetrically arranged on the pipe body; each pair of interfaces I consists of two interfaces I arranged along the axial direction of the pipe body (11), and each pair of interfaces II consists of two interfaces II arranged along the axial direction of the pipe body (11).

5. A mouse trapping device according to claim 4, characterized in that: the interface I and the interface II are the same and are collectively called as a rat hole interface (12); the rat hole interface (12) is a trapezoidal buckle.

6. A mouse trapping device according to claim 1, further comprising: the one-way cover plate component (22) consists of a cover plate shell (221), a cover plate (222), a pin (223) and a torsion spring (224); the cover plate shell (221) is provided with an inward-recessed step for blocking the cover plate (222) from moving towards the outer side of the pipe body (11); the cover plate (222) is fixed with the cover plate shell (221) through a pin (223), and a torsion spring (224) enabling the cover plate (222) to be attached to the inward sunken step is arranged on the pin (223).

7. A mouse trapping device according to claim 1, further comprising: and a wire mesh is arranged at the walking wheel interface (42).

8. A mouse trapping device according to claim 1, further comprising: the main body of the mouse trapping device is made of plastic materials.

9. A mouse trapping device according to claim 1, further comprising: and an external camouflage is arranged on the periphery of the mouse trapping device.

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