CN115843767A - Electric shock mouse trapping device - Google Patents

Abstract

The application provides an electric shock mouse trapping device, and this device includes high-voltage electric shock module, insulating shield cover and portable power source. The high-voltage electric shock module is arranged on one surface, contacting the ground, of the electric shock mouse trapping device, and four sides of the high-voltage electric shock module are movably connected with the insulation shielding cover. The high-voltage electric shock module comprises a row of sheet electrodes, an insulating pad and a power line. The power cord with portable power source connects, insulating the pad sets up one side that high-voltage electric shock module is close to ground, arranges the piece electrode setting and is in insulating pad top, arrange the piece electrode with the edge of insulating pad supports to the lateral wall of insulating shield cover. This application still includes infrared device, and infrared device is used for detecting to have or not have the mouse on the high-voltage electric shock module, if have, then starts the power and shock by electricity. The application is still including setting up bait groove on the insulating pad is used for luring the mouse to climb up the high-voltage electric shock module. This application still includes the power off module that uncaps, when the top cap is opened, disconnection portable power source.

Description

Electric shock mouse trapping device

Technical Field

The application relates to the field of mousing, mainly relates to an electric shock mousing device.

Background

Protection computer lab often has the mouse invasion in the transformer substation, if exist the mouse for a long time and invade the computer lab, often can arouse the proruption trouble of equipment, cause equipment damage, personnel's safety risk when still increasing the operation.

Use mousetrap and glue mouse board in the transformer substation, the effect is not good and inefficiency, has increased the working strength that the staff moults.

In order to reduce the working strength that the staff moults, this application provides an electric shock mouse trapping device.

Disclosure of Invention

In order to solve the problem that staff mousing working strength is high in the transformer substation, the application provides an electric shock mousing device, including high-voltage electric shock module, insulating shielding cover and portable power source.

The electric shock mouse trapping device is of a cuboid structure, the high-voltage electric shock module is arranged on one surface, contacting the ground, of the electric shock mouse trapping device, and four sides of the high-voltage electric shock module are movably connected with the insulation shielding cover. The high-voltage electric shock module comprises a row of sheet electrodes, an insulating pad and a power line. The power cord with portable power source connects, insulating the setting of filling up is in one side that high-voltage electric shock module is close to ground, it sets up to arrange the piece electrode insulating the top of filling up, arrange the piece electrode with the edge of insulating the pad supports to the lateral wall of insulating shield cover.

When the motor mouse trapping device in this application was used, directly put on ground or counter isoplanar, consequently had the chance that many staff direct contact motor mouse trapping device, consequently, this application has set up insulating protection device, avoids the staff of transformer substation to take place danger because of touching the motor mouse trapping device by accident.

The insulation protection device in this application includes insulating pad and insulation shield cover. The insulating pad sets up one side that the high-voltage electric shock module is close to ground makes in the high-voltage electric shock module the high-voltage electricity on the row's piece electrode is unlikely to pass to the outside that the electric shock mousing device was caught mouse through the one side that is close to ground, and if the electric shock mousing device is close to ground one side electrified, can bring danger for the user.

The insulating shielding cover is a cuboid cover formed by surrounding five planes, and the edges of the row of sheet electrodes and the insulating pads are abutted to the side wall of the insulating shielding cover. The electric shock mouse trapping device is separated from air, and workers cannot directly touch the high-voltage electric shock module. The protection staff utilizes the electric shock mousing device to kill rats and can also ensure safety when reducing the working strength that kills rats.

The portable power source is connected to the power cord that sets up in the high-voltage electric shock module in this application, with portable power source and row's piece electrode intercommunication, row's piece electrode is electrified. When the mouse passes through the charged sheet discharging electrodes, the mouse can be directly killed by high-voltage electric shock, the mouse trapping workload of workers is reduced, and the working strength of the workers in the transformer substation is reduced.

Optionally, the high-voltage electric shock module further includes an infrared emitting device and an infrared receiving device, the infrared emitting device and the infrared receiving device are respectively disposed at the middle point of two opposite edges of the sheet arrangement electrode, and the infrared receiving device is provided with a power line.

Optionally, still include the bait groove, the bait groove sets up rectangle recess on the insulating pad, the one end contact of bait groove infrared emission device, the other end contact of bait groove infrared receiving device, the bait groove top arrange the piece electrode and be provided with the hole, the size of hole with the size of bait groove is the same.

Optionally, the infrared receiving device further comprises an aluminum tube electrode, one end of the aluminum tube electrode is connected to the infrared emitting device, the other end of the aluminum tube electrode is connected to the infrared receiving device, and the aluminum tube electrode is arranged above the sheet arranging electrode.

Optionally, the infrared transmitting device further comprises a power indicator and a power switch, wherein the power switch and the power indicator are arranged on the infrared transmitting device.

Optionally, through holes are arranged on the side wall of the insulation shielding case perpendicular to the high-voltage electric shock module, the number of the through holes is more than one, and the through holes are in contact with the high-voltage electric shock module.

Optionally, a top cover is arranged on one side of the insulation shielding case parallel to the high-voltage electric shock module, one side of the top cover parallel to the aluminum tube electrode is movably connected to the insulation shielding case, and the two top covers are symmetrically distributed above the insulation shielding case.

Optionally, the portable terminal further comprises a top cover handle and a shielding case handle, wherein the top cover handle is perpendicular to the top cover plane and is arranged on one edge of the top cover opposite to the edge of the insulating shielding case, and the shielding case handle is arranged between the top cover and two edges of the insulating shielding case.

Optionally, the insulating shield is transparent.

Optionally, a cover opening power-off module is arranged on the insulation shielding cover, and the cover opening power-off module is configured to:

when the opening of the top cover is detected, the power switch is controlled to disconnect the mobile power supply.

The application provides an electric shock mouse trapping device, and this device includes high-voltage electric shock module, insulating shield cover and portable power source. The high-voltage electric shock module is arranged on one surface, which is in contact with the ground, of the electric shock mouse trapping device, and four sides of the high-voltage electric shock module are movably connected with the insulation shielding case. The high-voltage electric shock module comprises a row of sheet electrodes, an insulating pad and a power line.

The power cord with portable power source connects, insulating the pad sets up one side that high-voltage electric shock module is close to ground, it sets up to arrange the piece electrode insulating the pad top, arrange the piece electrode with the edge of insulating the pad supports to the lateral wall of insulating shield cover. The insulation shielding cover and the insulation pad are insulation protection devices of the application, and workers are protected from being contacted with the high-voltage electric shock module carelessly to get an electric shock.

This application still includes infrared device, and infrared device is used for detecting to have or not have the mouse on the high-voltage electric shock module, if have, then starts the power and shock by electricity. The application is still including setting up bait groove on the insulating pad is used for luring the mouse to climb up the high-voltage electric shock module. This application has still set up the top cap of two symmetries in insulation shield cover's upper end, the top cap can be opened, opens the back when the top cap is opened, and the power switch disconnection will be controlled to the power off module that uncaps that sets up on insulation shield cover portable power source when reducing staff mousing working strength, protects the staff.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments are briefly described below, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is an overall schematic view of an electric shock mouse trapping device;

FIG. 2 is a schematic diagram of a high-voltage electric shock module of the electric shock mouse trapping device;

FIG. 3 is a schematic view of a power connection device of the electric shock mouse trapping device;

fig. 4 is a schematic view of an insulation shielding case of the electric shock mouse trapping device.

Illustration of the drawings:

100-high voltage shock module; 101-aluminum tube electrodes; 102-an infrared emitting device; 103-insulating pad; 104-row of sheet electrodes; 105-a bait trough; 106-infrared receiving means; 107-power indicator light; 108-a power switch; 109-power line; 200-an insulating shield; 201-a top cover; 202-uncovering power-off module; 203-a top cover handle; 204-shield handle; 300-Mobile Power supply.

Detailed Description

Reference will now be made in detail to embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following examples do not represent all embodiments consistent with the present application. But merely as exemplifications of systems and methods consistent with certain aspects of the application, as recited in the claims.

Protection computer lab in the transformer substation often has the mouse invasion, and traditional mode of driveing (mousetrap and glue mouse board) effect is not good, glues the mouse board and also can not kill the mouse effectively, if exist the mouse to the computer lab invasion for a long time to can not in time clear away, often can arouse the proruption trouble of equipment, cause equipment damage, personnel's safety risk when still increasing the operation. And use mousetrap and glue the mouse board in the transformer substation, the effect is not good and inefficiency, has increased the working strength that the staff moults.

In order to solve the problem that the work intensity of mousing of staff in the transformer substation is high, the application provides an electric shock mousing device, as shown in fig. 1-4, including high-voltage electric shock module 100, insulation shielding cover 200 and portable power source 300.

The electric shock mouse trapping device is of a cuboid structure, one surface, contacting the ground, of the electric shock mouse trapping device is provided with the high-voltage electric shock module 100, and four sides of the high-voltage electric shock module 100 are movably connected with the insulation shielding cover 200. The high voltage electric shock module 100 comprises a sheet arranging electrode 104, an insulating pad 103 and a power line 109. The power cord 109 with portable power source 300 is connected, insulating pad 103 sets up the one side that high-voltage electric shock module 100 is close to ground, arrange piece electrode 104 and set up insulating pad 103 top, arrange piece electrode 104 with the edge of insulating pad 103 supports to the lateral wall of insulating shield cover 200.

When the motor mouse trapping device in this application was used, directly put on ground or cabinet face isoplanar, consequently had the chance that many staff direct contact caught the motor mouse trapping device, consequently, this application has set up insulating protection device, avoided the staff of transformer substation because of touching the motor mouse trapping device by accident and take place danger.

The insulation protection device in the present application includes an insulation pad 103 and an insulation shield 200. The insulating pad 103 is arranged on one side of the high-voltage electric shock module 100 close to the ground, so that high voltage electricity on the sheet-arranging electrodes 104 in the high-voltage electric shock module 100 is not transmitted to the outside of the electric shock mouse trapping device through one side close to the ground, and if one side of the electric shock mouse trapping device close to the ground is electrified, danger can be brought to users.

The insulation shielding case 200 is a cuboid-shaped case surrounded by five planes, and the edges of the sheet-arranging electrodes 104 and the insulation pads 103 are abutted to the side wall of the insulation shielding case 200. The electric shock mouse trapping device is separated from the air, so that a worker cannot directly touch the high-voltage electric shock module 100. The protection staff utilizes the electric shock mousing device to kill rats and can also ensure safety when reducing the working strength who kills rats.

The power line 109 provided in the high-voltage electric shock module 100 in the present application is connected to the mobile power supply 300, and the mobile power supply 300 is communicated with the sheet discharge electrode 104, and the sheet discharge electrode 104 is charged. When the mouse passes through the charged sheet arranging electrodes 104, the mouse can be directly killed by high-voltage electric shock, the mouse trapping workload of workers is reduced, and the working strength of the workers in the transformer substation is reduced.

In some embodiments, the high voltage electric shock module 100 further includes an infrared emitting device 102 and an infrared receiving device 106, the infrared emitting device 102 and the infrared receiving device 106 are respectively disposed at the middle point of two opposite sides of the sheet arrangement electrode 104, and the infrared receiving device 106 is provided with a power line 109.

As shown in fig. 1 and fig. 2, the infrared emitting device 102 and the infrared receiving device 106 are connected to the mobile power supply 300 through a power line 109, and the mobile power supply 300 supplies power to the infrared emitting device 102 and the infrared receiving device 106.

The infrared emitting device 102 and the infrared receiving device 106 are respectively disposed at the middle point of two opposite sides of the sheet arrangement electrode 104, because there is no shielding between the infrared emitting device 102 and the infrared receiving device 106, the infrared signal emitted by the infrared emitting device 102 can be directly emitted into the infrared receiving device 106.

If a mouse appears on the sheet-aligning electrode 104, the infrared signal emitted from the infrared emitting device 102 cannot be emitted into the infrared receiving device 106 disposed at the midpoint of the other side of the sheet-aligning electrode 104 due to the shielding of the mouse. When the infrared receiving device 106 does not receive the infrared signal, the mobile power source 300 is communicated with the sheet-arranging electrode 104, the sheet-arranging electrode 104 carries a high voltage, and the mouse on the sheet-arranging electrode 104 is electrically shocked.

When there is no mouse on the sheet-aligning electrode 104, the infrared signal from the infrared transmitter 102 can be directly transmitted to the infrared receiver 106 disposed at the other middle point of the sheet-aligning electrode 104. If the infrared receiving device 106 can receive the infrared signal, the sheet arranging electrode 104 is kept in the uncharged state.

In some embodiments, the device further comprises a bait groove 105, the bait groove 105 is a rectangular groove disposed on the insulating pad 103, one end of the bait groove 105 contacts the infrared emitting device 102, the other end of the bait groove 105 contacts the infrared receiving device 106, and the sheet discharging electrode 104 above the bait groove 105 is provided with a hole having the same size as the bait groove 105.

As shown in fig. 2, the bait channel 105 is a rectangular groove formed on the insulating pad 103, and the blade electrodes 104 above the bait channel 105 are provided with holes having the same size as the bait channel 105. Rats will approach the bait trough 105 by being attracted to the bait trough 105. The infrared emitting device 102 disposed at one end of the bait trap 105 emits an infrared signal which cannot be received by the infrared receiving device 106 disposed at the other end of the bait trap 105 due to the blocking of a mouse, the mobile power source 300 is connected to the sheet-arranging electrode 104, the sheet-arranging electrode 104 is charged with a high voltage, and the mouse on the sheet-arranging electrode 104 is electrically shocked.

A quantity of rodenticide may be disposed in the bait tank 105. In some embodiments, the mouse attractant may comprise ethylene-vinyl acetate copolymer resin, polybutylene and rosin, wherein the ethylene-vinyl acetate copolymer resin is 100-150 parts of polybutylene 40-100 parts, polyethylene wax 40-100 parts and rosin 40-80 parts.

In some embodiments, pheromones extracted from the feces, urine, and some glandular secretions of mice can be utilized as a rodenticide. For example, the reproductive organs of rats secrete a substance with a unique odor to attract male rats. We can catch a female mouse in heat, and then coat the secretion of the vaginal opening of the female mouse in the bait groove 105, and the male mouse smells the smell of the secretion and is attracted to the piece-discharging electrode 104.

In some embodiments, some rodenticide may also be made by self-making, for example, mixing vegetable oils, animal fats, sweeteners, flavoring agents, food seasonings, and the like.

In some embodiments, the infrared receiving device further comprises an aluminum tube electrode 101, one end of the aluminum tube electrode 101 is connected to the infrared emitting device 102, the other end of the aluminum tube electrode 101 is connected to the infrared receiving device 106, and the aluminum tube electrode 101 is arranged above the piece arranging electrode 104.

As shown in fig. 2, the aluminum tube electrode 101 is disposed above the tab electrode 104, and the tab electrode 104 and the aluminum tube electrode 101 are both connected to a mobile power source 300, so that when power is applied, a mouse can be shocked by high voltage. When the infrared emitting device 102 and the infrared receiving device 106 monitor that a mouse is on the sheet arranging electrode 104, the sheet arranging electrode 104 and the aluminum pipe electrode 101 are simultaneously electrified, so that the mouse can be electrically shocked from two horizontal heights, the mouse escaping probability is reduced, and the mouse trapping effect is optimized.

In some embodiments, a power indicator 107 and a power switch 108 are further included, and the power switch 108 and the power indicator 107 are disposed on the infrared emitting device 102.

The power switch 108 controls the connection and disconnection between the mobile power supply 300 and the device, and when the device is connected with the mobile power supply 300, the power indicator lamp 107 arranged on the infrared emitting device 102 is turned on to prompt the staff that the device is electrified. When the power switch 108 is turned off and the device is not powered, the power indicator 107 disposed on the infrared emitting device 102 is turned off.

In some embodiments, through holes are formed in the side wall of the insulation shield 200 perpendicular to the high voltage striking module 100, the number of the through holes is more than one, and the through holes are in contact with the high voltage striking module 100.

The through holes are provided on the sidewall of the insulation shield 200, and the through holes are in contact with the high voltage stun module 5 100. When a mouse enters the motor mouse trapping device through the through hole, the mouse can directly step on the sheet arranging electrodes 104,

once the presence of a mouse is detected by the ir transmitting device 102 and the ir receiving device 106, a shock is immediately initiated.

In some embodiments, the dielectric shield 200 is disposed parallel to the high voltage stun module 100 on a side thereof

The aluminum tube electrode is provided with a top cover 201, one side of the top cover 201 parallel to the aluminum tube electrode 101 is movably connected to the insulation shielding cover 0 200, and the two top covers 201 are symmetrically distributed above the insulation shielding cover 200.

The top cover 201 is arranged above the insulation shielding cover 200, and after the top cover 201 is opened, workers in a transformer substation can take away dead mice left on the sheet discharge electrode 104 after the dead mice are killed by electric shock, so that the normal use of the electric shock mouse trapping device is ensured.

In some embodiments, the insulation shield cover further comprises a top cover handle 203 and a shield cover handle 204, wherein the top cover handle 203 is arranged on one side of the top cover 201 opposite to the side where the top cover 201 is movably connected with the insulation shield cover 200 and perpendicular to 5 planes of the top cover 201

The shield handle 204 is disposed between two edges of the top cover 201 connected to the insulation shield 200.

The top cover handles 203 are arranged on each top cover 201, so that workers can open the top covers 201 conveniently. The insulating shield is also provided with the shield cover handle 204, so that workers can conveniently and directly take up the insulating shield cover 200.

0 in some embodiments, the dielectric shield 200 is transparent. The transparent insulation shield 200 facilitates work

The condition inside the electric shock mouse trapping device is seen among the personnel, and when a dead mouse exists in the electric shock mouse trapping device, the worker can take out the electric shock mouse trapping device in time.

In some embodiments, the insulation shield 200 is provided with a cover opening power-off module 202, and the cover opening power-off module

The module 202 is configured to:

5 when the opening of the top cover 201 is detected, controlling the power switch 108 to disconnect the mobile power supply 300.

The cover opening power-off module 202 can protect workers from electric shock caused by mistaken touch of the high-voltage electric shock module 100 after the top cover 201 is opened.

The cover opening power-off module 202 can be two modules respectively arranged on the top cover 201 and the insulation shielding case 200

And two electrodes, which are energized only when the lid 201 is closed. When the top cover 2010 is opened, the two electrodes are disconnected, and the mobile power supply 300 is disconnected.

The uncovering power-off module 202 may also be a gravity sensor disposed at a contact portion between the insulation shield 200 and the top cover 201, and when the top cover 201 is opened, the weight of the gravity sensor is reduced, and the power switch 108 is controlled to turn off the mobile power supply 300.

The application provides an electric shock mouse trapping device, and the device comprises a high-voltage electric shock module 100, an insulation shielding case 200 and a mobile power supply 300. The high-voltage electric shock module 100 is arranged on one surface, contacting the ground, of the electric shock mouse trapping device, and four sides of the high-voltage electric shock module 100 are movably connected with the insulation shielding cover 200.

The high voltage electric shock module 100 comprises a sheet arranging electrode 104, an insulating pad 103 and a power line 109. The power cord 109 with portable power source 300 is connected, insulating pad 103 sets up the one side that high-voltage electric shock module 100 is close to ground, arrange piece electrode 104 and set up insulating pad 103 top, arrange piece electrode 104 with the edge of insulating pad 103 supports to the lateral wall of insulating shield cover 200.

The insulating shield 200 and the insulating pad 103 are insulating protection devices of the present application to protect a worker from being inadvertently exposed to the high voltage shock module 100. The application also includes an infrared device for detecting the presence of a mouse on the high voltage shock module 100, and if so, the power supply is started to shock.

The present application further comprises a bait channel 105 provided on the insulating mat 103 for inducing a mouse to climb up the high voltage stun module 100. This application has still set up the top cap 201 of two symmetries in insulation shield cover 200's upper end, top cap 201 can be opened, opens the back when top cap 201 opens, and the power switch 108 disconnection will be controlled to the power off module 202 that uncaps that sets up on insulation shield cover 200 portable power source 300 when reducing staff mousing working strength, protects the staff.

The detailed description provided above is only a few examples under the general concept of the present application, and does not constitute a limitation to the scope of the present application. Any other embodiments extended according to the scheme of the present application without inventive efforts will be within the scope of protection of the present application for a person skilled in the art.

Claims (10)

1. The utility model provides an electric shock mouse trapping device, its characterized in that, includes high-voltage shock module (100), insulating shield cover (200) and portable power source (300), electric shock mouse trapping device is the cuboid structure, the one side that electric shock mouse trapping device contacted ground is equipped with high-voltage shock module (100), the four sides of high-voltage shock module (100) with insulating shield cover (200) swing joint, high-voltage shock module (100) are including arranging piece electrode (104), insulating pad (103) and power cord (109), power cord (109) with portable power source (300) are connected, insulating pad (103) set up one side that high-voltage shock module (100) are close to ground, it sets up to arrange piece electrode (104) insulating pad (103) top, arrange piece electrode (104) with the edge of insulating pad (103) supports to the lateral wall of insulating shield cover (200).

2. The electric shock mouse trapping device according to claim 1, wherein the high voltage shock module (100) further comprises an infrared emitting device (102) and an infrared receiving device (106), the infrared emitting device (102) and the infrared receiving device (106) are respectively arranged at the middle points of two opposite sides of the sheet arranging electrode (104), and a power line (109) is arranged on the infrared receiving device (106).

3. The electrically shocked mouse trap according to claim 2 further comprising a bait trough (105), wherein said bait trough (105) is a rectangular groove disposed on said insulating mat (103), one end of said bait trough (105) contacts said infrared emitting device (102), the other end of said bait trough (105) contacts said infrared receiving device (106), said flipper electrode (104) above said bait trough (105) is provided with a hole, the size of said hole is the same as the size of said bait trough (105).

4. An electrically shockable mouse trap according to claim 3 further comprising aluminum tube electrodes (101), wherein said aluminum tube electrodes (101) are connected to said infrared emitting means (102) at one end and to said infrared receiving means (106) at the other end, and said aluminum tube electrodes (101) are disposed above said sheet-arranging electrodes (104).

5. A shockable mouse trap according to claim 4 further comprising a power indicator (107) and a power switch (108), said power switch (108) and said power indicator (107) being disposed on said infrared emitting device (102).

6. The electrically shocked mouse trapping device according to claim 5, wherein the side wall of the insulated shielding case (200) perpendicular to the high voltage shocking module (100) is provided with through holes, the number of the through holes is more than one, and the through holes are in contact with the high voltage shocking module (100).

7. The electric shock mouse trapping device according to claim 6, wherein a top cover (201) is arranged on one surface of the insulation shielding case (200) parallel to the high-voltage electric shock module (100), one side of the top cover (201) parallel to the aluminum tube electrode (101) is movably connected to the insulation shielding case (200), and two top covers (201) are arranged and symmetrically distributed above the insulation shielding case (200).

8. An electrically shocked mouse trapping device according to claim 7, further comprising a top cover handle (203) and a shield cover handle (204), wherein said top cover handle (203) is arranged on an edge of said top cover (201) opposite to an edge of said top cover (201) where said top cover (201) is movably connected to said insulating shield cover (200), and said shield cover handle (204) is arranged between two edges of said top cover (201) where said insulating shield cover (200) is connected.

9. The electrically shockable mouse trapping device according to claim 8, wherein the insulated shield (200) is transparent.

10. The electrically shocked mouse trapping device according to claim 7, wherein the insulated shielding cage (200) is provided with an open cover power-off module (202), the open cover power-off module (202) being configured to:

when the opening of the top cover (201) is detected, the power switch (108) is controlled to disconnect the mobile power supply (300).

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