CN111869648A - Continuous mouse trapping device - Google Patents

Abstract

The invention provides a continuous mouse trapping device, and belongs to the technical field of mouse trapping equipment. The water tank comprises a tank body, a bending channel, a tensioning mechanism, a closing mechanism and a water tank, wherein the bending channel comprises a first rectangular pipe and a second rectangular pipe, the first rectangular pipe and the second rectangular pipe are hinged to the upper side face of the tank body through hinge shafts, the upper edge of the left end opening of the first rectangular pipe is hinged to a cover plate, a bait hook is arranged at the opening of the right end of the second rectangular pipe, the tensioning mechanism can open the cover plate when the first rectangular pipe is in a horizontal state, the closing mechanism can enable the cover plate to close the left end opening of the first rectangular pipe when the second rectangular pipe rotates clockwise and downwards, the water tank is fixedly arranged on the right side wall of the tank body, water is filled in the water tank, and when the second rectangular pipe rotates clockwise to contact the upper edge of the right side wall of the tank body, the right end opening of the second rectangular pipe is positioned above the water tank. The invention can continuously trap mice and improve the mouse trapping efficiency.

Description

Continuous mouse trapping device

Technical Field

The invention belongs to the technical field of mouse trapping equipment, and relates to a continuous mouse trapping device.

Background

Mice, commonly known as "serebrio", are the fastest-breeding, very survivable animals of mammals and are distributed throughout the world, except Antarctica. The mouse is small in size, and the body color is mainly gray and brown. The upper and lower jaws each have a pair of incisors, mostly without teeth. The sexual maturity is early, and the propagation can be started after several months of birth. Can be bred for several times in one year, and about ten farrowing can be carried out each time. High adaptability, wide distribution and multiple types. Rats, known as the first four pests, have serious effects on human production and life. Mice like to walk around, their urine, and feces can contaminate our food; viruses carried by mice can seriously harm our bodies, including plague and epidemic hemorrhagic fever; the innate bruxism of mice can destroy our living goods; the mice can also steal crops to influence grain production and the like.

The human-mouse struggle has never been interrupted, from the most primitive cat raising, to the raticide, to the advent of the mousetrap, where humans really lay down their brains to kill mice, but many areas still suffer from serious rats. The existing mousetraps mainly comprise an electric mousetrap and a single-structure mousetrap, although the mousetraps can trap mice, the mousetrap is poor in mouse trapping effect, poor in continuous mouse trapping capability and poor in reaction capability, and the mice are easy to escape.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a continuous mouse trapping device which can trap mice continuously, and the trapped mice are not easy to escape and have high mouse trapping efficiency.

The purpose of the invention can be realized by the following technical scheme:

a continuous mouse trap comprises a box body;

the box body is characterized by comprising a bending channel, wherein the bending channel comprises a first rectangular pipe and a second rectangular pipe which are sequentially connected from left to right, when the first rectangular pipe is in a horizontal state, the second rectangular pipe is in an inclined state with a lower left side and a higher right side, the folding angle of the lower side surfaces of the first rectangular pipe and the second rectangular pipe is hinged to the upper side surface of the box body through a hinged shaft, the axial direction of the hinged shaft is perpendicular to the front side wall and the rear side wall of the box body, the upper edge of an opening at the left end of the first rectangular pipe is hinged with a cover plate, the right end of the second rectangular pipe extends out of the box body, and;

the tensioning mechanism is arranged on the box body, and when the first rectangular pipe is in a horizontal state, the tensioning mechanism can open the cover plate to enable the left end of the first rectangular pipe to be communicated with the outside;

the closing mechanism is arranged on the box body, and when the second rectangular pipe rotates clockwise and downwards, the closing mechanism can enable the cover plate to rotate anticlockwise so as to close the left end opening of the first rectangular pipe;

the water tank is fixedly arranged on the right side wall of the box body, water is filled in the water tank, and when the second rectangular pipe rotates clockwise to be in contact with the upper edge of the right side wall of the box body, the right end opening of the second rectangular pipe is located above the water tank.

In the above-described continuous mouse trapping device, the tightening mechanism includes:

the fixed rod is horizontally and fixedly arranged above the box body through two second supporting plates, and the length direction of the fixed rod is parallel to the axial direction of the hinge shaft;

the spiral spring, spiral spring's the inner links firmly on the dead lever, spiral spring's outer end is connected with the stay cord, the other end and the apron of stay cord link firmly, and when first rectangular pipe was in the horizontality, spiral spring rolling was taut with the stay cord, made the apron be in the open mode.

In foretell continuous mouse trapping device, be equipped with the box body on the dead lever, the spiral spring is located the box body, be equipped with the perforation on the box body, the stay cord that the spiral spring outer end is connected passes the perforation and links to each other with the apron.

In the above-mentioned continuous mouse trapping device, be equipped with controller and battery on the box, closing mechanism includes:

the stop lever is horizontally and fixedly arranged above the box body through two first supporting plates, the length direction of the stop lever is consistent with that of the fixing lever, when the first rectangular pipe is in a horizontal state, the stop lever is in contact with one side, far away from the first rectangular pipe, of the cover plate, and the connection position of the pull rope and the cover plate is positioned on the right side of the stop lever;

the electromagnet is fixedly arranged on the lower side edge of the left end opening of the first rectangular pipe, the electromagnet is electrically connected with the storage battery through the controller, and the cover plate is made of an iron material;

the triggering structure is arranged on the box body, and when the second rectangular pipe rotates downwards, the electromagnet can be started by the triggering structure.

In the above-described continuous mouse trapping device, the trigger structure includes:

the pressure sensor, pressure sensor sets firmly the right side border of side on the box, pressure sensor is located the second rectangular pipe under, when the second rectangular pipe downwardly rotating, has a position at least, the downside and the pressure sensor of second rectangular pipe contact, pressure sensor is connected with the controller electricity.

In foretell continuous mouse trapping device, the drum has set firmly through the mount on the right side wall of box, the axial of drum and the axial direction parallel of articulated shaft, be equipped with the cavity in the drum, be equipped with first through-hole on the first semi-wheel face of drum, when second rectangular pipe clockwise rotation to contact pressure sensor, right-hand member opening and the first through-hole of second rectangular pipe are just right from top to bottom, the bottom of the lower semi-wheel face of drum is equipped with the second through-hole, the second through-hole is located directly over the basin, first through-hole and second through-hole all are linked together with the cavity, be equipped with electricity generation mechanism in the cavity, after the mouse falls into the cavity from first through-hole, electricity generation mechanism can utilize running of mouse to generate electricity.

In the above-described continuous mouse trapping device, the power generation mechanism includes:

the rotating shaft is rotatably arranged in the cavity, and the length direction of the rotating shaft is parallel to the axial direction of the cylinder;

the rotating net barrel is coaxially and fixedly arranged on the rotating shaft, a wheel surface of the rotating net barrel is provided with a third through hole and a fourth through hole, and in an initial state, the third through hole is over against the first through hole, and the fourth through hole is over against the second through hole;

the counterweight structure is arranged on the rotating net drum and can enable the rotating net drum to return to an initial position, so that the third through hole is opposite to the first through hole;

the power generation structure is arranged on the inner side wall of the cylinder and can generate power by utilizing the rotation of the rotating shaft.

In the above-mentioned continuous mouse trapping device, the weight structure includes:

two balancing weights, two the balancing weight all sets firmly in the outside of rotating the net section of thick bamboo and is located the left and right sides of fourth through-hole respectively.

In the above continuous mouse trapping device, the power generation structure includes:

the generator is fixedly arranged on the inner side wall of the cylinder, a second gear is fixedly arranged on an output shaft of the generator, and the generator is electrically connected with the storage battery;

and the first gear is coaxially and fixedly arranged on the rotating shaft positioned on the outer side of the rotating net drum and is in meshed connection with the second gear.

In the continuous mouse trapping device, a plurality of horizontal rods are uniformly arranged on the inner side wall of the rotating net barrel along the circumferential direction, and the length direction of each horizontal rod is consistent with the length direction of the rotating shaft.

Compared with the prior art, the invention has the following advantages:

1. in an initial state, the first rectangular pipe of the bending channel is in a horizontal state, the second rectangular pipe inclines upwards, the cover plate is in an open state under the action of the tensioning mechanism, at the moment, the first rectangular pipe and the second rectangular pipe are in a balanced state, the bait is fixed on the bait hook, water is added into the water tank, a mouse is waited to be hooked, when the mouse enters the first rectangular pipe, then when the bait runs into the second rectangular tube to eat, the weight of the second rectangular tube is increased, the original balance state is broken, the second rectangular tube rotates clockwise and downwards, the first rectangular tube rotates upwards, the closing mechanism rotates the cover plate anticlockwise, finally the opening at the left end of the first rectangular tube is closed, a mouse is frightened and can only run towards the outlet at the right end of the second rectangular tube, then the mice fall into the water tank, and the mice cannot escape due to the high height of the water tank, so that the mouse trapping efficiency is improved; when a mouse falls into the water tank, the second rectangular pipe and the first rectangular pipe return to the initial balance state, and the cover plate is opened through the tensioning mechanism, so that the left end of the first rectangular pipe is kept smooth, continuous mouse trapping is realized, and the operation is simple;

2. when the first rectangular pipe is in a horizontal state, the stay cord is tensioned due to the limited length of the stay cord, and the volute spring is stretched to the maximum simultaneously, so that the cover plate is in an open state;

3. when a mouse enters the second rectangular pipe, the weight in the second rectangular pipe is increased, the original balance state is broken, the first rectangular pipe rotates clockwise and upwards around the hinge shaft, the cover plate moves upwards, after the cover plate is blocked by the stop lever, the pulling force of the pull rope on the cover plate is gradually reduced, the cover plate rotates anticlockwise and downwards to contact the left end of the first rectangular pipe, the cover plate is in contact with the electromagnet, the triggering structure starts the electromagnet through the controller, the cover plate is sucked, and the mouse is prevented from escaping from the left end of the first rectangular pipe;

4. when a mouse enters the second rectangular tube to eat bait, the second rectangular tube rotates clockwise and downwards to contact the pressure sensor on the right side edge of the upper side face of the box body, the pressure sensor sends a signal to the controller, the controller starts the electromagnet, and the cover plate is sucked by the electromagnet;

5. when a mouse enters the second rectangular tube to eat bait, the second rectangular tube rotates clockwise and downwards to be in contact with the upper edge of the right side wall of the box body, the second rectangular tube is in an inclined state that the left part is higher and the right part is lower, the opening at the right end of the second rectangular tube is opposite to the first through hole up and down, so that the mouse in the second rectangular tube directly slides down into the cavity, and finally drops into the water tank from the second through hole of the cylinder, and the mouse is prevented from escaping in the dropping process; in addition, the mouse falls into the cavity and can continuously run around, so that the power generation mechanism generates power, and the energy-saving and environment-friendly effects are achieved;

6. in the initial state, under the action of the counterweight structure, the third through hole in the rotating net cylinder is opposite to the first through hole in the cylinder up and down, the mouse falls into the rotating net cylinder through the first through hole and the third through hole, part of the mouse directly falls into the water tank from the fourth through hole and the second through hole, part of the mouse does not directly fall, and the mouse can be pieced together to run in the rotating net cylinder to drive the rotating net cylinder and the rotating shaft to rotate, so that the power generation structure generates power, when the muscle and tendon of the mouse is exhausted, the rotating net cylinder does not rotate, the fourth through hole is opposite to the second through hole up and down, and finally the mouse is arranged into the water tank from the fourth through hole and the second through hole, so that the structure; in addition, the size of the third through hole is larger than that of the first through hole, so that a mouse can smoothly fall into the rotating cavity through the first through hole and the third through hole, and the size of the fourth through hole is smaller than that of the second through hole, so that the mouse can smoothly fall into the water tank through the fourth through hole and the second through hole;

7. when a mouse in the rotating net cylinder falls into the water tank, the rotating net cylinder loses the driving force of the mouse, the rotating net cylinder stops rotating finally, a fourth through hole in the rotating net cylinder is aligned to a second through hole in the cylinder up and down finally under the action of the gravity of the two balancing weights, and meanwhile, a first through hole in the cylinder is aligned to a third through hole in the rotating net cylinder up and down to wait for the next mouse, so that the trouble of manually aligning the first through hole and the third through hole is avoided, and time and labor are saved;

8. when a mouse runs in the rotating net barrel, the rotating net barrel and the rotating shaft are driven to rotate, the first gear on the rotating shaft drives the second gear to rotate, the generator generates electricity, the generated electric energy is converted into direct current through the rectifier and stored in the storage battery, the electric energy in the storage battery is converted into alternating current through the inverter and used for electrical equipment on the device, the mouse trapping device is not affected by power supply equipment, and the application range is wide.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 2;

FIG. 4 is a cross-sectional view taken at C-C of FIG. 3;

FIG. 5 is a schematic view of a mouse dropping from a second rectangular tube into a rotating mesh drum;

fig. 6 is a schematic view of a rat dropping from the rotating net drum to the water tank.

In the figure, 1, a box body; 11. a controller; 12. a storage battery; 2. bending the channel; 21. a first rectangular tube; 22. a second rectangular tube; 221. a bait hook; 23. a cover plate; 24. an electromagnet; 25. hinging a shaft; 3. a stop lever; 31. a first support plate; 4. fixing the rod; 41. a second support plate; 42. a box body; 421. pulling a rope; 422. a volute spiral spring; 423. perforating; 5. a cylinder; 51. a fixed mount; 52. a cavity; 521. a first through hole; 522. a second through hole; 6. rotating the net drum; 61. a rotation chamber; 62. a third through hole; 63. a horizontal bar; 64. a balancing weight; 65. a rotating shaft; 651. a first gear; 66. a generator; 661. a second gear; 67. a fourth via hole; 7. a water tank.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 6, the continuous mouse trapping device comprises a box body 1, a bending channel 2, a tensioning mechanism, a closing mechanism and a water tank 7.

Bend passageway 2 includes first rectangular pipe 21 and second rectangular pipe 22 that from left to right connect gradually, when first rectangular pipe 21 is in the horizontality, second rectangular pipe 22 is the high tilt state in the low right side in a left side, the dog-ear department of first rectangular pipe 21 and second rectangular pipe 22 downside articulates on box 1's last side through articulated shaft 25, the axial of articulated shaft 25 and box 1's front and back lateral wall are mutually perpendicular, first rectangular pipe 21 left end open-ended higher authority edge articulates there is apron 23, second rectangular pipe 22's right-hand member extends to box 1 outer and opening part and is equipped with bait hook 221.

The tensioning mechanism is arranged on the box body 1, and when the first rectangular pipe 21 is in a horizontal state, the tensioning mechanism can open the cover plate 23, so that the left end of the first rectangular pipe 21 is communicated with the outside.

The closing mechanism is arranged on the box body 1, and when the second rectangular tube 22 rotates clockwise and downwards, the closing mechanism can enable the cover plate 23 to rotate anticlockwise so as to close the left end opening of the first rectangular tube 21.

The water tank 7 is fixedly arranged on the right side wall of the box body 1, water is filled in the water tank 7, and when the second rectangular pipe 22 rotates clockwise to contact the upper edge of the right side wall of the box body 1, the right end opening of the second rectangular pipe 22 is positioned above the water tank 7.

In an initial state, the first rectangular pipe 21 of the bent channel 2 is in a horizontal state, the second rectangular pipe 22 inclines upwards, the cover plate 23 is in an open state under the action of the tensioning mechanism, at the moment, the first rectangular pipe 21 and the second rectangular pipe 22 are in a balanced state, bait is fixed on the bait hook 221, water is added into the water tank 7 to wait for the mouse to hook, when the mouse enters the first rectangular pipe 21 and then runs into the second rectangular pipe 22 to eat the bait, the weight of the second rectangular pipe 22 is increased, the original balanced state is broken, the second rectangular pipe 22 rotates clockwise and downwards, the first rectangular pipe 21 rotates upwards, the closing mechanism enables the cover plate 23 to rotate anticlockwise, finally, the opening at the left end of the first rectangular pipe 21 is closed, the mouse is frightened, the mouse can only run towards the outlet at the right end of the second rectangular pipe 22 and then falls into the water tank 7, and the height of the water tank 7 is higher, the mouse can not escape, and the mouse trapping efficiency is improved; when a mouse falls into the water tank 7, the second rectangular pipe 22 and the first rectangular pipe 21 return to the initial balance state, the cover plate 23 is opened through the tensioning mechanism, the left end of the first rectangular pipe 21 is kept smooth, continuous mouse trapping is achieved, and the operation is simple.

Specifically, the tightening mechanism includes a fixing rod 4 and a spiral spring 422.

Two second supporting plates 41 are fixedly arranged on the upper side face of the box body 1 in parallel, the fixing rod 4 is horizontally and fixedly arranged above the box body 1 through the two second supporting plates 41, and the length direction of the fixing rod 4 is parallel to the axial direction of the hinge shaft 25.

The inner end of the spiral spring 422 is fixedly connected to the fixing rod 4, the outer end of the spiral spring 422 is connected with a pull rope 421, the other end of the pull rope 421 is fixedly connected with the cover plate 23, and when the first rectangular pipe 21 is in a horizontal state, the spiral spring 422 is wound to pull the pull rope 421, so that the cover plate 23 is in an open state.

When the first rectangular pipe 21 is in the horizontal state, because the length of the pulling rope 421 is limited, the pulling rope 421 is tensioned, and the scroll spring 422 is stretched to the maximum, so that the cover plate 23 is in the open state, when the first rectangular pipe 21 rotates clockwise and upwards around the hinge shaft 25, the distance between the cover plate 23 and the scroll spring 422 is reduced, the pulling force of the pulling rope 421 on the cover plate 23 is reduced, so that the cover plate 23 rotates anticlockwise and downwards, the left end opening of the first rectangular pipe 21 is closed, and the structure is simple.

Specifically, a box body 42 is arranged on the fixing rod 4, the scroll spring 422 is positioned in the box body 42, a through hole 423 is arranged on the box body 42, and a pull rope 421 connected with the outer end of the scroll spring 422 passes through the through hole 423 to be connected with the cover plate 23.

The box 42 protects the spiral spring 422, and prevents a mouse from damaging the spiral spring 422, so that the cover plate 23 cannot be opened, and the mouse is prevented from entering the first rectangular tube 21.

Specifically, the box body 1 is provided with a controller 11 and a storage battery 12, and the closing mechanism comprises a stop lever 3, an electromagnet 24 and a triggering structure.

The last side of box 1 is gone up the flat two first backup pads 31 that are provided with, pin 3 sets firmly the top at box 1 through two first backup pads 31 levels, the length direction of pin 3 and the length direction of dead lever 41 are unanimous, and when first rectangular pipe 21 was in the horizontality, one side that first rectangular pipe 21 was kept away from to pin 3 and apron 23 contacted, the junction of stay cord 421 and apron 23 was located the right side of pin 3.

The electromagnet 24 is fixedly arranged on the lower side edge of the left end opening of the first rectangular pipe 21, the electromagnet 24 is electrically connected with the storage battery 12 through the controller 11, and the cover plate 23 is made of an iron material.

The trigger structure is provided on the case 1, and when the second rectangular tube 22 is rotated downward, the trigger structure can activate the electromagnet 24 through the controller 11.

When the mouse enters into the second rectangular pipe 22, make the weight increase in the second rectangular pipe 22, break original equilibrium state, first rectangular pipe 21 rotates clockwise upwards around articulated shaft 25, apron 23 is along with upward movement, after apron 23 receives blockking of pin 3, in addition the pulling force of stay cord 421 to apron 23 reduces gradually, apron 23 anticlockwise rotates downwards to the left end that contacts first rectangular pipe 21, make apron 23 and electro-magnet 24 contact, trigger structure passes through controller 11 and starts electro-magnet 24, catch apron 23, avoid the mouse to escape from the left end of first rectangular pipe 21.

Specifically, the triggering structure includes a pressure sensor 222, the pressure sensor 222 is fixedly arranged on the right side edge of the upper side surface of the box body 1, the pressure sensor 222 is positioned right below the second rectangular pipe 22, when the second rectangular pipe 22 rotates downwards, at least one position is formed, the lower side surface of the second rectangular pipe 22 is in contact with the pressure sensor 222, and the pressure sensor 222 is electrically connected with the controller 11.

When a mouse enters the second rectangular tube 22 to eat bait, the second rectangular tube 22 rotates clockwise and downwards to contact the pressure sensor 222 on the right side edge of the upper side face of the box body 1, the pressure sensor 222 sends a signal to the controller 11, the controller 11 starts the electromagnet 24, the cover plate 23 is sucked by the electromagnet 24, the operation is simple, the reaction speed is high, and the mouse cannot escape.

Specifically, a cylinder 5 is fixedly arranged on the right side wall of the box body 1 through a fixing frame 51, the axial direction of the cylinder 5 is parallel to the axial direction of the hinge shaft 25, a cavity 52 is arranged in the cylinder 5, a first through hole 521 is arranged on the upper half wheel surface of the cylinder 5, when the second rectangular pipe 22 rotates clockwise to contact the right side edge of the box body 1, the right end opening of the second rectangular pipe 22 is opposite to the first through hole 521 in the vertical direction, a second through hole 522 is arranged at the bottom of the lower half wheel surface of the cylinder 5, the second through hole 522 is positioned right above the water tank 7, the first through hole 521 and the second through hole 522 are both communicated with the cavity 52, a power generation mechanism is arranged in the cavity 52, and when a mouse falls into the cavity 52 from the first through hole 521, the power generation mechanism can generate power by using the running of the mouse.

When a mouse enters the second rectangular tube 22 to eat bait, the second rectangular tube 22 rotates clockwise and downwards to be in contact with the upper edge of the right side wall of the box body 1, the second rectangular tube 22 is in an inclined state that the left part is higher and the right part is lower, the right end opening of the second rectangular tube 22 is opposite to the first through hole 521 up and down, so that the mouse in the second rectangular tube 22 directly slides down into the cavity 52, and finally drops into the water tank 7 from the second through hole 522 of the cylinder 5, and the mouse is prevented from escaping in the falling process; in addition, the mouse falls into the cavity 52 and runs out of order, so that the power generation mechanism generates power, and the energy-saving and environment-friendly effects are achieved.

Specifically, the power generation mechanism comprises a rotating shaft 65, a rotating net drum 6, a counterweight structure and a power generation structure.

The rotating shaft 65 is coaxially and rotatably arranged in the cavity 52, and the length direction of the rotating shaft 65 is parallel to the axial direction of the cylinder 5.

The rotating net barrel 6 is coaxially and fixedly arranged on the rotating shaft 65, a rotating cavity 61 is arranged in the rotating net barrel 6, a third through hole 62 and a fourth through hole 67 are formed in the wheel surface of the rotating net barrel 6, the third through hole 62 is communicated with the rotating cavity 61, in an initial state, the third through hole 62 is over against the first through hole 521, the fourth through hole 67 is over against the second through hole 522, preferably, the size of the third through hole 62 is smaller than that of the first through hole 521, and the size of the fourth through hole 67 is smaller than that of the second through hole 522.

The counterweight structure is arranged on the rotary net drum 6, and the counterweight structure can enable the rotary net drum 6 to return to the initial position, so that the third through hole 62 is opposite to the first through hole 521.

The power generation structure is provided on the inner side wall of the cylinder 5, and the power generation structure can generate power by using the rotation of the rotating shaft 65.

In an initial state, under the action of a counterweight structure, the third through hole 62 on the rotary net cylinder 6 is vertically opposite to the first through hole 521 on the cylinder 5, a mouse falls into the rotary net cylinder 6 through the first through hole 521 and the third through hole 62, part of the mouse directly falls into the water tank 7 from the fourth through hole 67 and the second through hole 522, part of the mouse does not directly fall, and the mouse can be pieced together and run in the rotary net cylinder 6 to drive the rotary net cylinder 6 and the rotating shaft 65 to rotate, so that the power generation structure generates power, when the muscle fatigue of the mouse is exhausted, the rotary net cylinder 6 does not rotate, the fourth through hole 67 and the second through hole 522 are vertically opposite, and finally the mouse is arranged into the water tank 7 from the fourth through hole 67 and the second through hole 522, so that the structure is simple; in addition, the size of the third through hole 62 is larger than that of the first through hole 521, so that a mouse can smoothly fall into the rotating chamber 61 through the first through hole 521 and the third through hole 62, and the size of the fourth through hole 67 is smaller than that of the second through hole 522, so that a mouse can smoothly fall into the water tub 7 through the fourth through hole 67 and the second through hole 522.

Specifically, the counterweight structure includes two weights 64.

The two balancing weights 64 are fixedly arranged on the outer side of the rotary net cylinder 6 and are respectively positioned on the left side and the right side of the fourth through hole 67.

After the mouse in the net section of thick bamboo 6 that rotates drops to in the basin 7, rotate the driving force that net section of thick bamboo 6 lost the mouse, it can the stall to rotate net section of thick bamboo 6 finally, under the action of gravity of two balancing weights 64, finally make the fourth through-hole 67 on the net section of thick bamboo 6 of rotating and the second through-hole 522 of drum 5 just right from top to bottom, first through-hole 521 on the drum 5 simultaneously is also just right from top to bottom with the third through-hole 62 on the net section of thick bamboo 6 of rotating, wait for next mouse, remove the trouble of artifical alignment first through-hole 521 and third through-hole 62 from, time saving and labor saving.

Specifically, the power generation structure includes a generator 66 and a first gear 651.

The generator 66 is fixedly arranged on the inner side wall of the cylinder 5, a second gear 661 is fixedly arranged on an output shaft of the generator 66, and the generator 66 is electrically connected with the storage battery 12.

A first gear 651 is coaxially and fixedly arranged on the rotating shaft 65 positioned on the outer side of the rotary screen cylinder 6, and the first gear 651 is meshed with a second gear 661.

When a mouse runs in the rotating net drum 6, the rotating net drum 6 and the rotating shaft 65 are driven to rotate, the first gear 651 on the rotating shaft 65 drives the second gear 661 to rotate, the generator 66 is enabled to generate electricity, the generated electric energy is converted into direct current through the rectifier and stored in the storage battery 12, the electric energy in the storage battery 12 is converted into alternating current through the inverter and used for electrical equipment on the device, the mouse trapping device is enabled not to be influenced by power supply equipment, and the application range is wide.

Specifically, a plurality of horizontal rods 63 are uniformly arranged on the inner side wall of the rotary screen drum 6 along the circumferential direction, and the length direction of the horizontal rods 63 is consistent with the length direction of the rotating shaft 65.

When the mouse runs in the rotating net drum 6, the arrangement of the horizontal rod 63 can improve the thrust of the mouse to the rotating net drum 6, increase the rotating time of the rotating net drum 6 and the rotating shaft 65 and improve the power generation efficiency.

In the description of this patent, it is to be understood that the terms "upper", "lower", "inner", "outer", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the patent and to simplify the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered limiting of the patent.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. A continuous mouse trap is characterized by comprising a box body (1);

the bending channel (2), the bending channel (2) comprises a first rectangular pipe (21) and a second rectangular pipe (22) which are sequentially connected from left to right, when the first rectangular pipe (21) is in a horizontal state, the second rectangular pipe (22) is in an inclined state with a lower left side and a higher right side, the folding angle of the lower side surfaces of the first rectangular pipe (21) and the second rectangular pipe (22) is hinged to the upper side surface of the box body (1) through a hinged shaft (25), the axial direction of the hinged shaft (25) is vertical to the front side wall and the rear side wall of the box body (1), the upper edge of the left end opening of the first rectangular pipe (21) is hinged to a cover plate (23), the right end of the second rectangular pipe (22) extends out of the box body (1), and a bait hook (221) is arranged at the opening;

the tensioning mechanism is arranged on the box body (1), and when the first rectangular pipe (21) is in a horizontal state, the tensioning mechanism can open the cover plate (23) to enable the left end of the first rectangular pipe (21) to be communicated with the outside;

the closing mechanism is arranged on the box body (1), and when the second rectangular pipe (22) rotates clockwise and downwards, the closing mechanism can enable the cover plate (23) to rotate anticlockwise so as to close the left end opening of the first rectangular pipe (21);

the water tank (7), the water tank (7) is fixedly arranged on the right side wall of the box body (1), water is filled in the water tank (7), and when the second rectangular pipe (22) rotates clockwise to contact the upper edge of the right side wall of the box body (1), the right end opening of the second rectangular pipe (22) is positioned above the water tank (7).

2. A continuous mouse trapping device according to claim 1, wherein said tensioning mechanism comprises:

the fixing rod (4) is horizontally and fixedly arranged above the box body (1) through two second supporting plates (41), and the length direction of the fixing rod (4) is parallel to the axial direction of the hinge shaft (25);

volute spiral spring (422), volute spiral spring (422) the inner links firmly on dead lever (4), volute spiral spring (422)'s outer end is connected with stay cord (421), the other end and apron (23) of stay cord (421) link firmly, and when first rectangular pipe (21) were in the horizontality, volute spiral spring (422) rolling was taut with stay cord (421), made apron (23) be in the open mode.

3. A continuous mouse trapping device according to claim 2, wherein a box body (42) is provided on the fixing rod (4), the spiral spring (422) is located in the box body (42), a through hole (423) is provided on the box body (42), and a pulling rope (421) connected to the outer end of the spiral spring (422) passes through the through hole (423) to be connected to the cover plate (23).

4. A continuous mouse trapping device according to claim 3, characterized in that the box (1) is provided with a controller (11) and an accumulator (12), and the closing means comprises:

the stop lever (3) is horizontally and fixedly arranged above the box body (1) through two first supporting plates (31), the length direction of the stop lever (3) is consistent with that of the fixing rod (41), when the first rectangular pipe (21) is in a horizontal state, one side, far away from the first rectangular pipe (21), of the stop lever (3) is in contact with one side, far away from the first rectangular pipe (21), of the cover plate (23), and the connection part of the pull rope (421) and the cover plate (23) is located on the right side of the stop lever (3);

the electromagnet (24) is fixedly arranged on the lower side edge of the left end opening of the first rectangular tube (21), the electromagnet (24) is electrically connected with the storage battery (12) through the controller (11), and the cover plate (23) is made of an iron material;

the trigger structure is arranged on the box body (1), and when the second rectangular pipe (22) rotates downwards, the trigger structure can start the electromagnet (24) through the controller (11).

5. A continuous mouse trapping device according to claim 4, wherein the trigger structure comprises:

the pressure sensor (222), the pressure sensor (222) sets firmly in the right side edge of box (1) upper side, pressure sensor (222) is located second rectangular pipe (22) under, when second rectangular pipe (22) down rotates, has at least one position, the downside of second rectangular pipe (22) contacts with pressure sensor (222), pressure sensor (222) and controller (11) electricity are connected.

6. A continuous mouse trapping device according to claim 5, characterized in that a cylinder (5) is fixedly arranged on the right side wall of the box body (1) through a fixing frame (51), the axial direction of the cylinder (5) is parallel to the axial direction of the hinge shaft (25), a cavity (52) is arranged in the cylinder (5), a first through hole (521) is arranged on the upper half wheel surface of the cylinder (5), when the second rectangular pipe (22) rotates clockwise to contact the pressure sensor (222), the right end opening of the second rectangular pipe (22) is opposite to the first through hole (521) up and down, a second through hole (522) is arranged at the bottom of the lower half wheel surface of the cylinder (5), the second through hole (522) is positioned right above the water tank (7), the first through hole (521) and the second through hole (522) are both communicated with the cavity (52), and a power generation mechanism is arranged in the cavity (52), when a mouse falls into the cavity (52) from the first through hole (521), the power generation mechanism can generate power by utilizing the running of the mouse.

7. A continuous mouse trapping device according to claim 6, wherein the power generating mechanism comprises:

the rotating shaft (65), the rotating shaft (65) is rotatably arranged in the cavity (52), and the length direction of the rotating shaft (65) is parallel to the axial direction of the cylinder (5);

the rotating net barrel (6), the rotating net barrel (6) is coaxially and fixedly arranged on the rotating shaft (65), a wheel surface of the rotating net barrel (6) is provided with a third through hole (62) and a fourth through hole (67), in an initial state, the third through hole (62) is over against the first through hole (521), and the fourth through hole (67) is over against the second through hole (522);

the counterweight structure is arranged on the rotary net drum (6), and can enable the rotary net drum (6) to return to an initial position, so that the third through hole (62) is opposite to the first through hole (521);

and a power generation structure provided on the inner side wall of the cylinder (5), the power generation structure being capable of generating power by rotation of the rotating shaft (65).

8. A continuous rat trapping device according to claim 7, wherein the weight structure comprises:

two balancing weights (64), two balancing weights (64) all set firmly in the outside of rotating net section of thick bamboo (6) and are located the left and right sides of fourth through-hole (67) respectively.

9. A continuous mouse trapping device according to claim 8, wherein the power generating structure comprises:

the generator (66), the said generator (66) is fixed on the inside wall of the cylinder (5), the output shaft of the said generator (66) is fixed with the second gear (661), the said generator (66) is connected with the accumulator (12) electrically;

the first gear (651) is coaxially and fixedly arranged on the rotating shaft (65) positioned on the outer side of the rotary screen cylinder (6), and the first gear (651) is meshed and connected with the second gear (661).

10. A continuous mouse trapping device according to claim 9, characterized in that a plurality of horizontal rods (63) are uniformly arranged on the inner side wall of the rotating net drum (6) along the circumferential direction, and the length direction of the horizontal rods (63) is consistent with the length direction of the rotating shaft (65).

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