CN110574752A - Rat killing robot - Google Patents

Abstract

a mouse killing robot comprises a support bottom frame, an infrared probe, a controller, a storage battery, a turnover motor, an electromagnet, a mouse trapping box, a high-voltage generator, an electrode plate, an enclosing frame, a turnover plate and a mouse taking plate. The utility model discloses a mousetrap, including support underframe, upset motor, arc board, mouse catching case, baffle, infrared probe, controller, switch motor, the support underframe and turn over the board level and link to each other, the mouse catching case is fixed in support underframe side and can the vertical movement through enclosing the frame, the plate electrode sets up in the mouse catching case to go up high voltage electricity, the upset motor drives the spout arc board through the driving lever and makes the mouse catching case upwards lift, the upset motor drives down the arc board through the driving lever and makes the board upwards lift during reverse operation, the mouse catching case install infrared probe, listen the mouse that gets into this scope, trigger and start the signal that kills rats, the equal actuation of electro-magnet releases spout arc board and lower arc board, makes the mouse catching case cover downwards, turns over the board simultaneously and makes the board of getting to get mouse and insert the mouse catching case lower extreme, the controller be.

Description

rat killing robot

Technical Field

the invention relates to a deratization device, in particular to a deratization robot.

Background

Mice are listed by the country as one of four pests. It is also characterized by being sexually doubtful and alert and is most subtle among four pests. The method has the advantages that the method has great influence on common people, such as food stealing, propagation of skin insects and damage to furniture, and more seriously, the method has great potential safety hazard because the insulating layer of electrical equipment is damaged to cause electric leakage or short circuit of electric wires to cause fire and electric shock.

a plurality of mouse killing methods are utilized for a long time, and a chemical mouse killing method and a physical mouse killing method are commonly used. The chemical deratization method is to utilize drugs to poison rats, but the drugs are usually relatively strong in toxicity, and even cause the life danger of people when people eat food which is stained with the drugs carelessly; the physical deratization method usually utilizes a mouse cage or a mouse trap to capture the mouse, and when the mouse trap or the mouse cage captures the mouse, other peripheral mice can be visually observed what the fellows capture, and information odor is left on the mouse, so that the mouse is not easy to capture for the second time; the mouse sticking plate is used for only playing a limited role, is unsafe due to the adoption of an electric shock mode, and can remove dead mice when people wait; some of the existing mousetraps can not realize continuous mouse trapping and automatic mouse killing, only one mouse can be trapped once, then the next mouse can be trapped after the mouse is taken out by people, the trapped mouse needs to be killed and treated manually, and some mousetraps can continuously trap mice, but do not actively collect the mice, so that the mouse trapping effect is poor, and great inconvenience is caused to users.

Disclosure of Invention

aiming at the prior art, the invention provides a mouse killing robot which can realize automatic continuous mouse catching and killing and active mouse catching, and overcomes the defects of poor sensitivity, low mouse catching success rate and the like of the existing mouse catching mode.

The invention is realized by the following technical scheme: a mouse killing robot comprises a support bottom frame, an infrared probe, a controller, a storage battery, a turnover motor, a first electromagnet, a second electromagnet, a mouse trapping box, a high-voltage generator, elastic hinges, an electrode plate, a high-voltage electrode, a driving rod, a surrounding frame, a turning plate, a mouse taking plate, a limiting stopper, a joint piece, a chute arc plate, a lower arc plate, a push-pull rod, a rotating rod, a barrier strip, a support and a support rod, wherein the side surface of the upper plane of the support bottom frame is horizontally connected with the turning plate through the elastic hinges, and the mouse trapping box is fixed on the side surface of the support bottom frame through the surrounding frame and can vertically move; the electrode plate is arranged in the mouse trapping box and is electrically connected with the high-voltage generator; when the overturning motor rotates forwards for 90 degrees, the poking rod drives the chute arc plate to lift the mouse trapping box upwards, and when the overturning motor rotates backwards for 90 degrees, the poking rod drives the lower arc plate to lift the overturning plate upwards; the mouse trapping box is provided with an infrared probe for detecting mice entering the range, the trigger controller starts a mouse trapping signal, the electromagnets are attracted, the chute arc plate and the lower arc plate are released, the mouse trapping box covers the mice downwards, and meanwhile, the turnover plate is turned downwards by 90 degrees to enable the mouse taking plate to be inserted into the lower end of the mouse trapping box; the upper surface of the bracket bottom frame is provided with a 90-degree overturning motor; one end of a deflector rod is fixed on the overturning motor; the other end of the deflector rod penetrates through a chute on the chute arc plate, and a lower arc plate is fixed in the middle of the deflector rod; the upper surface of the bracket bottom frame is provided with a controller; an infrared probe is arranged in the mouse trapping box; a push-pull rod and a rotating rod are fixed on the sliding chute arc plate, and a clamping hook is arranged at the other end of the sliding chute arc plate and can clamp a lock tongue of the electromagnet I; the other end of the push-pull rod is movably connected with the mouse trapping box; the other end of the rotating rod is movably connected with a shaft of the turnover motor and can rotate around the shaft of the turnover motor; one end of the lower arc plate is fixed in the middle of the deflector rod, and the other end of the lower arc plate is provided with a clamping hook which can buckle a lock tongue of the electromagnet II; the upper end of the turning plate is horizontally connected with the side surface of the upper plane of the bottom frame of the bracket through an elastic hinge, the lower end of the turning plate is horizontally connected with the mouse taking plate through an elastic hinge, and a 90-degree limiter is arranged at the connection position; the outer end of the mouse taking plate is provided with a barrier strip; a support and a support rod are arranged below the upper plane of the support bottom frame; the other end of the stay bar props against a stop strip at the outer end of the mouse taking plate, and when the turnover plate is turned upwards by 90 degrees, the stay bar slides out of the stop strip to enable the mouse taking plate to fall off and hang; the controller is responsible for processing signals detected by the infrared probe into a mouse trapping instruction and a mouse stopping instruction; a power switch and a storage battery are arranged in the controller; the infrared probe, the controller, the storage battery, the turnover motor, the electromagnet, the high-voltage generator, the electrode plate and the switch are respectively and linearly connected together; outer housings are arranged on the bottom frame of the bracket and the mouse trapping box; the controller, the turnover motor, the storage battery, the electromagnet, the high-voltage generator, the deflector rod, the chute arc plate and the lower arc plate are all arranged in the outer housing; the mouse trapping box and the upper surface of the support bottom frame are all provided with notches which avoid the movement of the chute arc plate, the lower arc plate, the push-pull rod and the rotating rod.

Compared with the prior art, the invention has the beneficial effects that: the operation is simple, the mouse can be caught without bait, and the continuous mousetrap can start catching the mouse only by placing the continuous mousetrap on a route which the mouse usually passes through and then pressing down a power switch key; an infrared probe is arranged in the mouse trapping box, when a mouse is caught, the electrode plate can be automatically dropped, the mouse can be killed by electric shock through high voltage, after the controller delays for several seconds, the overturning motor is instructed to rotate forwards by 90 degrees to lift the mouse trapping box, then the overturning motor is instructed to rotate backwards by 90 degrees to lift the turning plate and the mouse taking plate, when the turning plate is overturned to the top, the support rod slides out of the barrier strip to enable the mouse taking plate to drop and hang down, so that a dead mouse on the mouse taking plate drops to the ground outside the mouse trapping box, then the controller enters the next program to wait for catching the next mouse, and therefore the function of automatically and continuously trapping the mouse is achieved; the mouse trapping efficiency is high, no new additive is arranged below and on one side surface of the mouse trapping box, the mouse can move freely, and the alertness of the mouse is reduced; the mice are killed by electric shock for several seconds through high voltage electric shock, the remaining smell information is not available, the next mouse is caught, and the mouse catching efficiency is further improved; the mouse killer is convenient to clean, and can directly pick up and dispose the dead mice on the ground beside the intelligent mouse killer.

Drawings

FIG. 1 is a schematic structural diagram of a deratization robot according to the present invention;

FIG. 2 is a schematic diagram of a transmission structure of the deratization robot of the present invention;

FIG. 3 is a view showing a falling state of a mouse trapping box of the mouse killing robot according to the present invention;

FIG. 4 is a view showing a state that a mouse trapping box of the mouse killing robot is lifted;

FIG. 5 is an overall position diagram of a deratization robot according to the present invention;

FIG. 6 is a schematic view of the internal structure of a deratization robot according to the present invention;

FIG. 7 is a partially enlarged view of a stay of the deratization robot of the present invention;

FIG. 8 is a partially enlarged view of a turning plate of the deratization robot;

FIG. 9 is a partial enlarged view of a mouse-fetching plate of the mouse-killing robot according to the present invention;

In the figure, 1, a support bottom frame, 2, an infrared probe, 3, a controller, 4, a storage battery, 5, a turnover motor, 6, a first electromagnet, 7, a second electromagnet, 8, a mouse trapping box, 9, a high-voltage generator, 10, an elastic hinge, 11, an electrode plate, 12, a high-voltage electrode, 13, a driving lever, 14, a surrounding frame, 15, a turning plate, 16, a mouse taking plate, 17, a limiter, 18, a joint piece, 19, a chute arc plate, 20, a lower arc plate, 21, a push-pull rod, 22, a rotating rod, 23, a baffle strip, 24, a support and 25 are arranged.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-6, the mouse killing robot comprises a support bottom frame 1, an infrared probe 2, a controller 3, a storage battery 4, a turnover motor 5, a first electromagnet 6, a second electromagnet 7, a mouse trapping box 8, a high-voltage generator 9, an elastic hinge 10, an electrode plate 11, a high-voltage electrode 12, a deflector rod 13, a surrounding frame 14, a turning plate 15, a mouse taking plate 16, a limiter 17, a joint sheet 18, a chute arc plate 19, a lower arc plate 20, a push-pull rod 21, a rotating rod 22, a barrier strip 23, a support 24 and a stay rod 25, wherein the side face of the upper plane of the support bottom frame 1 is horizontally connected with the turning plate 15 through the elastic hinge 10; the mouse trapping box 8 is fixed on the side surface of the bottom frame 1 of the bracket through the enclosing frame 14 and can vertically move; the electrode plate 11 is made of insulating materials and arranged in the mouse trapping box 8, and the electrode plate 11 is provided with more than one high-voltage electrode 12 made of conductive materials and is electrically connected with the high-voltage generator 9; when the overturning motor 5 rotates forwards for 90 degrees, the poking rod 13 drives the chute arc plate 19 to enable the mouse trapping box 8 to be lifted upwards through the push-pull rod 21 and the connector piece 18, and when the overturning motor 5 rotates backwards for 90 degrees, the poking rod 13 drives the lower arc plate 19 to enable the overturning plate 15 to be lifted upwards; the mouse trapping box 8 is provided with an infrared probe 2 for detecting mice entering the range, the trigger controller 3 starts a mouse trapping signal, the electromagnet I6 and the electromagnet II 7 are attracted, the chute arc plate 19 and the lower arc plate 20 are released, the mouse trapping box 8 covers the mice downwards, and meanwhile, the turnover plate 15 is turned over downwards by 90 degrees to enable the mouse taking plate 16 to be inserted into the lower end of the mouse trapping box 8; the upper surface of the bracket bottom frame 1 is provided with a 90-degree overturning motor 5; one end of a deflector rod 13 is fixed on the overturning motor 5; the other end of the deflector rod 13 passes through a chute on the chute arc plate 19, and a lower arc plate 20 is fixed in the middle of the deflector rod 13; the upper surface of the bracket bottom frame 1 is provided with a controller 3; an infrared probe 2 is arranged in the mouse trapping box 8; a push-pull rod 21 and a rotating rod 22 are fixed on the sliding chute arc plate 19, and a clamping hook is arranged at the other end of the sliding chute arc plate 19 and can clamp a lock tongue of the electromagnet I6; the other end of the push-pull rod 21 is movably connected with the mouse trapping box 8; the other end of the rotating rod 22 is movably connected with a shaft of the turnover motor 5 and can rotate around the shaft of the turnover motor 5; one end of the lower arc plate 20 is fixed in the middle of the shift lever 13, and the other end of the lower arc plate is provided with a clamping hook which can clamp a bolt of the electromagnet II 7.

As shown in fig. 7-9, the upper end of the turning plate 15 is horizontally connected with the side surface of the upper plane of the support bottom frame 1 through an elastic hinge 10, the lower end of the turning plate 15 is horizontally connected with a mouse taking plate 16 through an elastic hinge 10, and a 90-degree stopper 17 is arranged at the connection position; the outer end of the mouse taking plate 16 is provided with a barrier strip 23; a support 24 and a support rod 25 are arranged below the upper plane of the support bottom frame 1; the other end of the stay bar 25 props against a barrier strip 23 at the outer end of the mouse taking plate 16, and when the turning plate 15 is turned upwards by 90 degrees, the stay bar 25 slides out of the barrier strip 23, so that the mouse taking plate 16 falls down and hangs.

As shown in fig. 1-9, the controller 3 is responsible for processing the signal detected by the infrared probe 2 into a mouse trapping instruction and a mouse stopping instruction; a power switch and a storage battery 4 are arranged in the controller 3; the infrared probe 2, the controller 3, the storage battery 4, the turnover motor 5, the electromagnet I6, the electromagnet II 7, the high-voltage generator 9 and the electrode plate 11 are linearly connected with the switch respectively; outer housings (not shown in the figure) are arranged on the bracket bottom frame 1 and the mouse trapping box 8; the controller 3, the turnover motor 5, the storage battery 4, the first electromagnet 6, the second electromagnet 7, the high-voltage generator 9, the deflector rod 13, the chute arc plate 19 and the lower arc plate 20 are all arranged in the outer housing; gaps for avoiding the movement of the chute arc plate 19, the lower arc plate 20, the push-pull rod 21 and the rotating rod 22 are formed in the upper surfaces of the mouse trapping box 8 and the support bottom frame 1.

The embodiment is characterized in that when a mouse passes through the sensing area of the infrared probe 2 in the channel below the mouse trapping box 8, the infrared probe 2 outputs a signal to the controller 3 after receiving the signal, the controller 3 outputs a positive voltage to the electromagnet I6 and the electromagnet II 7 to attract the electromagnets, the clamping hooks of the chute arc plate 19 and the lower arc plate 20 are released, the mouse trapping box 8 covers the mouse downwards, and meanwhile, the turning plate 15 is turned downwards by 90 degrees to enable the mouse taking plate 16 to be inserted into the lower end of the mouse trapping box 8; the plate electrode 11 in the mouse catching box 8 falls down, the high-voltage electrode 12 is pressed on the mouse, the controller 3 is connected with the high-voltage generator 9 for tens of seconds and is disconnected, the high-voltage electricity kills the mouse by electric shock, the controller delays for several minutes, the overturning motor 5 is instructed to rotate forward by 90 degrees to lift the mouse catching box 8, the electromagnet I6 locks the clamping hook of the sliding groove arc plate 19, the overturning motor is instructed to rotate backward by 90 degrees after delaying for several seconds to horizontally lift the overturning plate 15 and the mouse taking plate 16, when the overturning plate 15 overturns to the top, the support rod 25 is changed from a vertical state to a horizontal state, the lower end of the support rod 25 slides out of the barrier strip 23, the mouse taking plate 16 falls down and is hung, the dead mouse on the mouse taking plate 16 falls to the ground outside the mouse catching box 8, then the controller enters a next program to wait for catching the next mouse, and the function of automatic continuous.

the technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (4)

1. A mouse killing robot comprises a support bottom frame, an infrared probe, a controller, a storage battery, a turnover motor, a first electromagnet, a second electromagnet, a mouse trapping box, a high-voltage generator, elastic hinges, an electrode plate, a high-voltage electrode, a driving rod, a surrounding frame, a turning plate, a mouse taking plate, a joint piece, a limiting device, a sliding groove arc plate, a lower arc plate, a push-pull rod, a rotating rod, a barrier strip, a support and a support rod, and is characterized in that the side surface of the upper plane of the support bottom frame is horizontally connected with the turning plate through the elastic hinges, and the mouse trapping box is fixed on the side surface of the support bottom frame through the surrounding frame and can vertically move; the electrode plate is arranged in the mouse trapping box and is electrically connected with the high-voltage generator; when the overturning motor rotates forwards for 90 degrees, the poking rod drives the chute arc plate to lift the mouse trapping box upwards, and when the overturning motor rotates backwards for 90 degrees, the poking rod drives the lower arc plate to lift the overturning plate upwards; the mouse trapping box is provided with an infrared probe for detecting mice entering the range, the trigger controller starts a mouse trapping signal, the electromagnets are attracted, the chute arc plate and the lower arc plate are released, the mouse trapping box covers the mice downwards, and meanwhile, the turnover plate is turned downwards by 90 degrees to enable the mouse taking plate to be inserted into the lower end of the mouse trapping box; a 90-degree turning motor is arranged on the upper surface of the support bottom frame, one end of a shifting rod is fixed on the turning motor, the other end of the shifting rod penetrates through a sliding groove in a sliding groove arc plate, and a lower arc plate is fixed in the middle of the shifting rod; the upper surface of the bottom frame of the bracket is provided with a controller, and an infrared probe is arranged in the mouse trapping box; a push-pull rod and a rotating rod are fixed on the sliding chute arc plate, and a clamping hook is arranged at the other end of the sliding chute arc plate and can clamp a lock tongue of the electromagnet I; the other end of the push-pull rod is movably connected with the mouse trapping box through a joint sheet; the other end of the rotating rod is movably connected with a shaft of the turnover motor and can rotate around the shaft of the turnover motor; one end of the lower arc plate is fixed in the middle of the deflector rod, and the other end of the lower arc plate is provided with a clamping hook which can buckle a lock tongue of the electromagnet II; the upper end of the turning plate is horizontally connected with the side surface of the upper plane of the bottom frame of the bracket through an elastic hinge, the lower end of the turning plate is horizontally connected with the mouse taking plate through an elastic hinge, and a 90-degree limiter is arranged at the connection position; the outer end of the mouse taking plate is provided with a barrier strip; a support and a support rod are arranged below the upper plane of the support bottom frame; the other end of the stay bar props against a stop strip at the outer end of the mouse taking plate, and when the turnover plate is turned upwards by 90 degrees, the stay bar slides out of the stop strip to enable the mouse taking plate to fall off and hang; the controller is responsible for processing the signal that infrared probe detected into mousing instruction and the instruction of stopping mousing.

2. A deratization robot as claimed in claim 1, wherein the controller is provided with a power switch and a storage battery, and the infrared probe, the controller, the storage battery, the turnover motor, the electromagnet, the high voltage generator, the electrode plate and the switch are linearly connected together.

3. The robot of claim 1, wherein the housing is provided with a bottom frame and a mouse trapping box, and the controller, the flipping motor, the battery, the electromagnet, the high voltage generator, the deflector rod, the chute arc plate and the lower arc plate are all disposed in the housing.

4. the mouse killing robot of claim 1, wherein the upper surfaces of the mouse trapping box and the bottom frame of the bracket are respectively provided with a notch for avoiding the movement of the chute arc plate, the lower arc plate, the push-pull rod and the rotating rod.