CN209824980U - Continuous electric shock mouse killer - Google Patents

Abstract

The utility model provides a continuous electric shock mouse killer, which belongs to the technical field of indoor mouse killing. It has solved technical problem such as current mousetrap can not kill rats in succession. The continuous electric shock mouse killer is characterized by comprising a base plate, two bow branch pieces, a high-voltage spray pipe and a high-voltage electric shock device, wherein fixing holes are formed in two sides of one end of the base plate, the other end of the base plate is connected with the two bow branch pieces in a Y shape, the high-voltage electric shock device is transversely arranged between the two bow branch pieces, the high-voltage spray pipe is fixed on the base plate, a nozzle is opposite to the high-voltage electric shock device, a plurality of induction agent containing cavities are formed in the bow branch pieces, the high-voltage spray pipe is connected with a high-voltage air pump, and the high-voltage electric shock device is connected with a high-voltage power supply. The utility model has the advantage of continuous mouse trapping.

Description

Continuous electric shock mouse killer

Technical Field

The utility model belongs to the technical field of indoor deratization, a continuous electric shock deratization ware is related to.

Background

In medical experiment teaching or scientific research of colleges and universities, big and small mice are common experimental animals. Mice often escape from the squirrel cage due to inattention of student staff. Laboratory mice or outdoor rats entering public places have good adaptability, strong reproductive capacity, large survival probability and rapid growth in quantity. The mouse incisors grow very fast and it has been reported that incisors grow 13 cm in 1 year. In order to grind teeth, mice often gnaw office supplies such as laboratory tables and chairs, doors and windows, paper, computer wires and the like, and often affect the daily work and study of teachers and students. Rats often appear in sewers, toilets, garbage dumps and the like in laboratories, move back and forth between bacteria-bearing places and clean places, and transmit pathogenic bacteria through rat feet, hairs and stomach contents. Statistically, as many as 50 kinds of diseases are transmitted by rats, such as plague, epidemic hemorrhagic fever, typhus, etc., which have strong infectivity and seriously harm human health. In the prior art, the mousetraps are quite various in types, include a mousetrap, a mousetrap cage, a box-type mousetrap, a photoelectric mousetrap, a mouse sticking glue and the like, but most of the mousetraps cannot realize continuous mouse catching, or under the condition of realizing continuous mouse catching, the mousetrap has the disadvantages of high energy consumption, high mouse catching cost and inconvenience for popularization. Therefore, the research aims to design a high-efficiency electric shock mouse killer capable of continuously trapping mice.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problems existing in the prior art and provides an electric shock mouse killer capable of continuously killing mice.

The purpose of the utility model can be realized by the following technical proposal: the continuous electric shock mouse killer is characterized by comprising a base plate, two bow branch pieces, a high-voltage spray pipe and a high-voltage electric shock device, wherein fixing holes are formed in two sides of one end of the base plate, the other end of the base plate is connected with the two bow branch pieces in a Y shape, the high-voltage electric shock device is transversely arranged between the two bow branch pieces, the high-voltage spray pipe is fixed on the base plate, a nozzle is opposite to the high-voltage electric shock device, a plurality of induction agent containing cavities are formed in the bow branch pieces, the high-voltage spray pipe is connected with a high-voltage air pump, and the high-voltage electric shock device is connected with a high-voltage power supply.

The mouse killer is fixed at a needed position through a fixing hole, a corresponding inductive agent is placed in an inductive agent containing cavity to induce a mouse to climb to a high-voltage electric shock device, the high-voltage electric shock device discharges to kill the mouse, an electric control linkage mechanism is further arranged outside the substrate, the electric control linkage mechanism drives a high-pressure air pump to deliver air after receiving a signal that the potential difference of the high-voltage electric shock device changes, high-pressure air blows a mouse corpse away from the high-voltage electric shock device through a high-pressure spray pipe to enable the high-voltage electric shock device to recover the original potential difference, and the electric control linkage mechanism drives the high-pressure air pump to stop delivering air after receiving the signal that the potential difference of the high-voltage electric shock device recovers, so that the mouse killer is recovered to the.

The base plate is provided with a spray pipe perforation channel, and one end of the base plate, which is connected with the bow branch piece, is provided with an elastic tiger's mouth clamp.

The high-pressure spray pipe is fixed in the spray pipe perforation channel, and the nozzle of the high-pressure spray pipe is fixed by the elastic tiger's mouth clamp, so that the nozzle is over against the high-pressure electric shock device, and the rat corpse can be blown away from the high-pressure electric shock device during air injection.

The high-voltage electric shock device comprises a plurality of metal mesh strips and a lead body, wherein the far ends of the bow branch strips and the base plate are provided with hole grooves, the hole grooves are respectively connected with the two ends of the metal mesh strips, the metal mesh strips are connected with the positive electrode of the high-voltage power supply, the lead body is an arc-shaped lead, the two ends of the lead body are respectively connected with the far ends of the bow branch strips and the base plate, and the lead body is connected with the negative electrode of the high-voltage power supply.

The potential difference between the metal net strips and the lead body forms a strong electrostatic field after being electrified, and when a mouse enters the electrostatic field, short-circuit current is generated to kill the mouse.

The inducer holding cavity is connected with the metal net strip through a plastic climbing wire.

Different inducers are placed in the inducer containing cavity to induce the mice to climb to the metal net strips through the climbing wires, so that the killing rate is improved.

Compared with the prior art, the utility model has the advantages of it is following:

after killing the mouse under high pressure, the high-pressure gas can blow the dead mouse away from the metal net strips, so that the mouse killing device recovers the initial state and realizes continuous mouse killing.

Drawings

Fig. 1 is a structural view of the whole back of the continuous electric shock mouse killer.

Fig. 2 is an overall structure diagram of the continuous electric shock mouse killer.

In the figure, 1-substrate, 2-bowbranch piece, 3-inducer holding cavity, 4-high pressure spray pipe, 5-wire body, 6-metal net piece strip, 7-plastic climbing wire, 8-elastic tiger's mouth clamp, 9-hole groove, 10-spray pipe perforation channel and 11-fixing hole.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example (b):

as shown in fig. 1 and 2, the mouse killer comprises a base plate 1, two bow branch pieces 2, a high-pressure spray pipe 4 and a high-pressure electric shock device, wherein fixing holes 11 are formed in two sides of one end of the base plate 1, the other end of the base plate is connected with the two bow branch pieces 2 in a Y shape, the high-pressure electric shock device is transversely arranged between the two bow branch pieces 2, the high-pressure spray pipe 4 is fixed on the base plate 1, a nozzle is opposite to the high-pressure electric shock device, a plurality of inducer containing cavities are formed in the bow branch pieces 2, the high-pressure spray pipe 4 is connected with a high-pressure air pump, and the high.

The mouse killer is fixed at a needed position through a fixing hole, a corresponding inductive agent is placed in an inductive agent containing cavity to induce a mouse to climb to a high-voltage electric shock device, the high-voltage electric shock device discharges to kill the mouse, an electric control linkage mechanism is further arranged outside the substrate, the electric control linkage mechanism drives a high-pressure air pump to deliver air after receiving a signal that the potential difference of the high-voltage electric shock device changes, high-pressure air blows a mouse corpse away from the high-voltage electric shock device through a high-pressure spray pipe to enable the high-voltage electric shock device to recover the original potential difference, and the electric control linkage mechanism drives the high-pressure air pump to stop delivering air after receiving the signal that the potential difference of the high-voltage electric shock device recovers, so that the mouse killer is recovered to the.

The base plate 1 is provided with a spray pipe perforation channel 10, and one end of the base plate 1 connected with the bow branch piece 2 is provided with an elastic tiger's mouth clamp 8.

The high-pressure spray pipe is fixed in the spray pipe perforation channel, and the nozzle of the high-pressure spray pipe is fixed by the elastic tiger's mouth clamp, so that the nozzle is over against the high-pressure electric shock device, and the rat corpse can be blown away from the high-pressure electric shock device during air injection.

The high-voltage electric shock device comprises a plurality of metal mesh strips 6 and a lead body 5, wherein the far ends of the bow branch strips 2 and the base plate 1 are provided with hole grooves 9, the hole grooves 9 are respectively connected with the two ends of the metal mesh strips 6, the metal mesh strips 6 are connected with the positive pole of a high-voltage power supply, the lead body 5 is an arc-shaped lead, the two ends of the lead body are respectively connected with the far ends of the bow branch strips 2 and the base plate 1, and the lead body 5 is connected with the negative pole of the high-voltage power supply.

The potential difference between the metal net strips and the lead body forms a strong electrostatic field after being electrified, and when a mouse enters the electrostatic field, short-circuit current is generated to kill the mouse.

The preferred wire body 5 is a copper wire with a diameter of 0.09-0.5 mm;

the inducer holding cavity is connected with the metal net strip 6 through a plastic climbing wire 7.

Different inducers are placed in the inducer containing cavity to induce the mice to climb to the metal net strips through the climbing wires, so that the killing rate is improved.

Preferably, each bow branch is provided with two inducer holding cavities;

preferably, the powdered murine inducer is inserted into the inducer holding chamber of one of the arcuate blades, and the jelly murine inducer is inserted into the inducer holding chamber of the other arcuate blade.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (4)

1. The continuous electric shock mouse killer is characterized by comprising a substrate (1), two bow branch pieces (2), a high-pressure spray pipe (4) and a high-pressure electric shock device, wherein fixing holes (11) are formed in two sides of one end of the substrate (1), the other end of the substrate is connected with the two bow branch pieces (2) in a Y shape, the high-pressure electric shock device is transversely arranged between the two bow branch pieces (2), the high-pressure spray pipe (4) is fixed on the substrate (1), the nozzle of the high-pressure spray pipe is opposite to the high-pressure electric shock device, a plurality of inducer containing cavities are formed in the bow branch pieces (2), the high-pressure spray pipe (4) is connected with a high-pressure air pump, and the high-pressure electric shock device is connected with a high-pressure power supply.

2. The continuous electric shock mouse killer according to claim 1, characterized in that the base plate (1) is provided with a nozzle perforation channel (10), and one end of the base plate (1) connected with the bow-branch piece (2) is provided with an elastic tiger's mouth clamp (8).

3. The continuous electric shock mouse killer according to claim 2, characterized in that the high voltage shock device comprises a plurality of metal mesh strips (6) and a conductor (5), the ends of the bow branch pieces (2) far away from the base plate (1) are both provided with a hole slot (9), the hole slots (9) are respectively connected with two ends of the metal mesh strips (6), the metal mesh strips (6) are connected with the positive pole of the high voltage power supply, the conductor (5) is an arc-shaped conductor, two ends of the conductor are respectively connected with the ends of the bow branch pieces (2) far away from the base plate (1), and the conductor (5) is connected with the negative pole of the high voltage power supply.

4. The continuous electric shock mouse killer according to claim 3, wherein the inducer holding cavity is connected with the metal mesh strip (6) through a plastic climbing wire (7).