CN105850964A - Environment-friendly intelligent deratting device adopting electric shock - Google Patents

Abstract

The invention provides an environment-friendly intelligent deratting device adopting electric shock. Conductive bulges are mounted at the bottom inside an insulating casing, and the conductive bulges sleeved with insulating sleeves extend from extending holes in a conductive board; the conductive bulges are connected with conductive connecting sheets through convex flanges on the lower surfaces of the conductive bulges; an outgoing line I is fixed on the lower surface of the conductive board, and an outgoing line II is fixed in the position on the conductive connecting sheets or the convex flanges on the lower surfaces of corresponding conductive bulges. The intelligent deratting device adopting electric shock is compact and reasonable in structure and convenient to manufacture and use, has a good electric shock effect on rats and high deratting efficiency, cannot cause environment pollution or release toxic substances in a deratting process and is an environment-friendly deratting device; when no rats pass by or when the rats cannot conduct electricity after electric shock, all circuits do not constitute a loop, electric power is not consumed, and the deratting cost is reduced accordingly.

Description

Intelligent environment protection electric shock deratization device

Technical field

The present invention relates to eliminate a kind of intelligent environment protection electric shock deratization device in plague of rats field.

Background technology

It is several that the elimination method dead mouse of useful poison of drug of the plague of rats, mouse sticking plate seizure mouse and the mouse cage currently used catches mouse.Medication is poisoned mouse with poison and is poisoned mouse with poison, and the pollution to environment is the biggest.Catch mouse U.S. one mouse of seizure with mouse sticking plate and will waste a mouse sticking plate, cause the cost catching mouse the highest.Although the cost catching mouse with mouse cage is low, but mouse natural disposition is cunning, is not easily accessed very much in mouse cage, and the efficiency catching mouse is the lowest.

Summary of the invention

The purpose that the present invention relates to is to provide for a kind of devices and methods therefor using electric shock to catch mouse.

For achieving the above object, intelligent environment protection of the present invention electric shock deratization device mainly includes shock by electricity Mus plate part and high-voltage pulse part；Electric shock Mus plate part includes insulation shell, conductive plate, stretches out hole, conduction protrusion, insulation sleeve, conductive connecting piece, wire；High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply.

The described bottom in insulation shell is provided with conduction and protrudes, protrude the following outside protruding the cylinder above flange in conduction and be cased with insulation sleeve, the hole of stretching out protruded from conductive plate of conducting electricity being cased with insulation sleeve is stretched out, insulation sleeve is concordant with stretching out hole or less than one side above conductive plate, the upper end that conduction is protruded is slightly above the above one side of conductive plate in stretching out hole；Protrusion flange below protruding by conduction between conduction is protruded is connected with conductive connecting piece, and below conductive plate, one side is fixed with extraction wire and on conductive connecting piece or conduct electricity and be fixed with extraction wire at the following protrusion flange of protrusion.

The positive pole of described power supply is connected by the input of wire with the positive pole of electric shock controller, first outfan of the positive pole of electric shock controller is connected with conductive plate or conductive connecting piece by wire, two low-pressure connectors of pulse booster connect the second outfan and the negative pole of power supply of the positive pole of electric shock controller respectively with wire, two high-voltage output connector wires of pulse booster connect extraction wire and the extraction wire of conductive connecting piece of conductive plate respectively, two high-voltage output connectors at pulse booster are provided with unilateral diode in the connection line being connected conductive plate and conductive connecting piece；The negative pole of described power supply respectively with electric shock controller negative pole be connected and be connected with conductive connecting piece or conductive plate.When described conductive plate is connected by the first outfan of wire with the positive pole of electric shock controller, conductive connecting piece is connected with the negative pole of power supply by wire；When described conductive connecting piece is connected by the first outfan of wire with the positive pole of electric shock controller, conductive plate is connected with the negative pole of power supply by wire.

Described insulation shell includes square insulating shell, round insulation shell and oval insulation shell, and square insulating shell is the square shell or the square shell of fillet or the square shell of chamfering insulated, and round insulation shell is the toroidal shell of insulation, and oval insulation shell is the oblong shell of insulation；Described conductive plate includes conduction square plate, conducting circular plate and conduction ellipsoids shape plate, and conduction square plate is square board-like electric conductor, and conducting circular annular slab is circular board-like electric conductor, and conduction ellipsoids shape annular slab is oval board-like electric conductor.

Described insulation sleeve is the annular insulation circle body with outside flanging, and including round insulation set and oval insulation sleeve, round insulation set is the insulation circle body of annular, and oval insulation sleeve is the insulation circle body of oval ring；Described conduction is protruded and is included that conducting circular protrusion and conducting polygon protrude, and conducting circular protrudes the conducting post being lower end with the circle protruding flange, and it is that lower end is with the polygonal conducting post protruding flange that conducting polygon protrudes.

Described insulation shell is nonconducting, concave downward housing, and the ring surface of housing has wire fairlead and screw hole；Described wire fairlead is for allowing the wire drawn pass, and screw hole is for allowing the screw of fixing conductive plate pass；Described insulation shell uses the rubber that can insulate, plastics, nylon, polyurethane, timber, a kind of material in bamboo wood or different materials manufacture, uses the mode of mould injection molding to manufacture or the mode of mould extrusion molding manufactures.

Manufacturing to have on the plate face of described conductive plate and stretch out hole, the side of conductive plate manufactures to be had screw hole or not to manufacture screw hole；Described hole of stretching out is through hole, protrudes for installing insulation sleeve and conduction；Described screw hole is used for allowing screw screw in and conductive plate is fixed on insulation shell.The side of described conductive plate manufactures when having screw hole, is screwed between conductive plate and insulation shell；When the side of conductive plate does not manufacture screw hole, fix with viscose glue between conductive plate and insulation shell.

Described conduction protrudes the following weight protruding flange outwardly part lower end with carrying conductive plate for limiting interior insulation sleeve, and when shocking by electricity the reversing of Mus plate part, it is possible to make conduction protrude and do not spill from conductive plate.

Described conductive connecting piece is electric conductor, creates the connection sheet that can conduct electricity or conductive connecting piece creates porose plate, is used for connecting all of conduction and protrudes.

Described conductive connecting piece creates an assembly with conduction protrusion；When conductive connecting piece creates the common connection sheet that can conduct electricity, conductive connecting piece is welded on conduction and protrudes at following protrusion flange；Or, when conductive connecting piece is created porose plate, the flange that protrudes below conduction protrusion connects through the Kong Bingyu conductive connecting piece on conductive connecting piece, or, the columnar part of conduction protrusion connects through the Kong Bingyu conductive connecting piece on conductive connecting piece.

Below the flanging that described insulation sleeve is outside one side for be supported on conduction protrude the flange of lower end, flanging above one side for allowing one side below conductive plate push down, insulation sleeve is used for allowing conduction protrude isolates with conductive plate.

Described electric shock controller is that the circulation making pulse booster produce high voltage pulse is connected circuit and circulates the controller cutting off circuit.When described electric shock controller does not has electric conductor to connect between conductive plate and conduction protrude, electric shock controller is not received by the signal of the low pressure power circuit between conductive plate and conduction protrusion, the output circuit of the first outfan of electric shock controller would not be interrupted, then remain that the first outfan of the positive pole of electronic controller keeps unimpeded to the circuit that conductive plate or conduction protrude.When described electric shock controller has electric conductor to connect between conductive plate and conduction protrude, after electric shock controller receives the signal of the low pressure power circuit between conductive plate and conduction protrusion, it is immediately terminated the output circuit of the first outfan of the positive pole of electric shock controller, it is also turned on the output circuit of the second outfan of the positive pole of electric shock controller, the output circuit of the second outfan of the positive pole of electric shock controller keeps unimpeded in a time quantum, produces high-tension electricity after pulse booster energising；The output circuit of the second outfan of the positive pole of electric shock controller maintain in a time quantum unimpeded after, electric shock controller disconnects the output circuit of the second outfan of the positive pole of electric shock controller, and connects the output circuit of the first outfan of the positive pole of electric shock controller；So output circuit of the second outfan of the positive pole of the output circuit of the first outfan of the positive pole switching on and off electric shock controller of circulation and electric shock controller, makes the second outfan to the circuit of pulse booster of the positive pole of circuit that the first outfan of the positive pole of electric shock controller protrudes to conductive plate or conduction and electric shock controller produce circulative intermittently power-on and circulative interval power-off；When the down circuitry that the first outfan of the positive pole of the controller that shocks by electricity protrudes to conductive plate or conduction, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, when the power on circuitry that the first outfan of the positive pole of the controller that shocks by electricity protrudes to conductive plate or conduction, electric shock controller is disconnected second outfan power-on circuit to pulse booster of the positive pole of electric shock controller, so that pulse booster produces high voltage pulse electric shock mouse.

Described pulse booster is the booster transformer producing pulsed high-voltage.

Described unilateral diode is that the high-tension electricity that pulse booster can be allowed to export passes through, and the electric current of the negative pole that the electric current that the first outfan of electric shock controller can not be allowed to export flows to power supply by the connecting line of the high-voltage output connector of pulse booster is unidirectionally controlled device.

Bait is need not during passing through with wait mouse during killing mouse.

When shocking by electricity mouse, the fur of the body part avoiding mouse is not easy the position of conduction, and the metacarpus utilizing the extremity of mouse is that the optimum conductor of electricity is to the power-on circuit electric shock mouse connecting between conductive plate and conduction protrusion.

During assembling, insulation sleeve is enclosed within each conduction and protrudes, then by after conductive plate upset, what the conduction being cased with insulation sleeve was protruded press-in conductive plate stretches out hole；Afterwards, again conductive connecting piece is welded on the protrusion flange that conduction is protruded, or, the borehole jack of porose conductive connecting piece is contained in conduction and protrudes on lower sections of protrusion flange, or, when installing insulation sleeve, porose conductive connecting piece is sleeved on the cylinder that conduction is protruded and insulation sleeve is being installed；Afterwards, conductive connecting piece is connected with wire and draws insulation shell from fairlead, again conductive plate is connected with wire and draw insulation shell from fairlead, and conductive plate is compressed downwards after putting into insulation shell after being overturn by conductive plate, make conduction protrude and implement in the bottom of insulation shell；Afterwards, with screw, conductive plate is fixed on insulation shell, or, when installing conductive plate the inner ring surface of insulation shell coated the side of viscose glue or conductive plate and coats viscose glue and be fixed.Afterwards, the extraction wire that the extraction wire and connection conduction that connect conductive plate protrude is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then the positive pole with the input of the positive pole of wire connection electric shock controller with power supply；Afterwards, connect a low-pressure connector of pulse booster and the second outfan of the positive pole of electric shock controller with wire, then connect another low-pressure connector of pulse booster and the negative pole of power supply with wire；Finally, the two of pulse booster high-voltage output connector wires are connected respectively conductive plate draw wire and conduction protrude extraction wire, and pulse booster two high-voltage output connectors with is connected conductive plate and conduct electricity protrusion connection wire in connection have unilateral diode.

During use, by be provided with conductive plate and conduction protrude insulation shell be positioned over mouse through place after switch on power.When having mouse through out-of-date, four feet of mouse are easy to step on respectively on conductive plate and on conduction protrusion, and when the foot of mouse is stepped on respectively and protruded at conductive plate and conduction, the health of mouse has connected the power circuit between conductive plate and conduction protrusion；When the health of mouse connects the power circuit between conductive plate and conduction protrusion, the signal of the power circuit of low-voltage circuit passes to the controller that shocks by electricity, electric shock controller cut off immediately the first outfan to the conductive plate or conduction of the positive pole of electric shock controller protrude between power-on circuit, and connected the second outfan of positive pole and the power-on circuit of pulse booster of electric shock controller and made pulse booster produce high-tension electricity to mouse of shocking by electricity；After the high-tension electricity produced when pulse booster completes the electric shock mouse of a time quantum, electric shock controller be disconnected the second outfan of the positive pole of electric shock controller to the first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller after the power-on circuit of pulse booster protrude between power-on circuit；Owing to the health of mouse has connected the power-on circuit between conductive plate and conduction protrusion, the signal of low pressure power circuit returns to the controller that shocks by electricity, after the output circuit of the first outfan that electric shock controller is again off the positive pole of electric shock controller, the power circuit of the second outfan of the positive pole of connection electric shock controller to pulse booster produces high-tension electricity electric shock mouse again；After the high-tension electricity produced when pulse booster completes the electric shock mouse of a time quantum again, electric shock controller be disconnected the second outfan of the positive pole of electric shock controller to the first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller after the circuit of pulse booster protrude between power-on circuit；nullSo power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation，During until the circuit between conductive plate and conduction protrusion can not be connected after being electrically shocked and drying out in the position that the health of mouse contacts with conductive plate and conduction protrusion，After the high-tension electricity that pulse booster produces completes the electric shock mouse of last time quantum，Electric shock controller be disconnected the second outfan of the positive pole of electric shock controller to the first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller after the power-on circuit of pulse booster protrude between power-on circuit，Now，Low-voltage circuit can not form loop，The signal just not having the power circuit of low-voltage circuit returns to the controller that shocks by electricity，Electric shock controller is maintained for the first outfan connecting the positive pole of electric shock controller to conductive plate or the unimpeded of the power-on circuit between protruding that conduct electricity，Meet the arrival of next mouse at any time.

Described intelligent environment protection electric shock deratization device is when shocking by electricity mouse, and it is mouse that the circuit passband of make pulse booster produces the first connecting valve of high-tension electricity.

Described intelligent environment protection electric shock deratization device is not when having mouse can not conduct electricity after being electrically shocked with mouse, and all of circuit does not the most constitute loop, do not consumes electric energy, reduces the cost of deratization.

The compact conformation of intelligent environment protection of the present invention electric shock deratization device rationally, manufacture and easy to use, shock by electricity the effective of mouse, it is not necessary to people guards, and the efficiency of deratization is high, during deratization, do not result in environmental pollution and noxious substance will not be discharged, being the mouse killer of environmental protection.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the sectional view of the primary structure of electric shock Mus plate part；

Fig. 2 to Fig. 7 is the structural representation of the top view of electric shock Mus plate part.

Shown in figure: conductive plate 1, conduction protrusion 2, insulation sleeve 3, conductive connecting piece 4, insulation shell 5, wire 6.

Detailed description of the invention

Intelligent environment protection of the present invention electric shock deratization device mainly includes shock by electricity Mus plate part and high-voltage pulse part；Electric shock Mus plate part includes insulation shell 5, conductive plate 1, stretches out hole, conduction protrusion 2, insulation sleeve 3, conductive connecting piece 4, wire 6；High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply.

The described bottom in insulation shell 5 is provided with conduction protrusion 2, the outside protruding the cylinder above flange protruded below 2 in conduction is cased with insulation sleeve 3, conduction protrusion 2 holes of stretching out from conductive plate 1 being cased with insulation sleeve 3 are stretched out, insulation sleeve 3 is concordant with stretching out hole or less than one side above conductive plate 1 in stretching out hole, and conduction is protruded the upper end of 2 and is slightly above the above one side of conductive plate 1；Protruding, in conduction, the protrusion flange protruded below 2 between 2 by conduction to be connected with conductive connecting piece 4, below conductive plate 1, one side is fixed with and draws wire 6 and on conductive connecting piece 4 or conduction is protruded to be fixed with at the protrusion flange below 2 and drawn wire 6.

The positive pole of described power supply is connected by the input of wire with the positive pole of electric shock controller, first outfan of the positive pole of electric shock controller is connected with conductive plate 1 or conductive connecting piece 4 by wire 6, two low-pressure connectors of pulse booster connect the second outfan and the negative pole of power supply of the positive pole of electric shock controller respectively with wire, two high-voltage output connector wires of pulse booster connect extraction wire 6 and the extraction wire 6 of conductive connecting piece 4 of conductive plate 1 respectively, two high-voltage output connectors at pulse booster are provided with unilateral diode in the connection line being connected conductive plate 1 and conductive connecting piece 4；The negative pole of described power supply respectively with electric shock controller negative pole be connected and be connected with conductive connecting piece 4 or conductive plate.When described conductive plate 1 is connected by the first outfan of wire 6 with the positive pole of electric shock controller, conductive connecting piece 4 is connected with the negative pole of power supply by wire 6；When described conductive connecting piece 4 is connected by the first outfan of wire 6 with the positive pole of electric shock controller, conductive plate 1 is connected with the negative pole of power supply by wire 6.

Described insulation shell 5 includes square insulating shell 5, round insulation shell 5 and oval insulation shell 5, square insulating shell 5 is the square shell or the square shell of fillet or the square shell of chamfering insulated, round insulation shell 5 is the toroidal shell of insulation, and oval insulation shell 5 is the oblong shell of insulation；Described conductive plate 1 includes conduction square plate, conducting circular plate and conduction ellipsoids shape plate, and conduction square plate is square board-like electric conductor, and conducting circular annular slab is circular board-like electric conductor, and conduction ellipsoids shape annular slab is oval board-like electric conductor.

Described insulation sleeve 3 is the annular insulation circle body with outside flanging, and including round insulation set 3 and oval insulation sleeve 3, round insulation set 3 is the insulation circle body of annular, and oval insulation sleeve 3 is the insulation circle body of oval ring；Described conduction is protruded 2 and is included that conducting circular protrusion and conducting polygon protrude, and conducting circular protrudes the conducting post being lower end with the circle protruding flange, and it is that lower end is with the polygonal conducting post protruding flange that conducting polygon protrudes.

Described insulation shell 5 is nonconducting, concave downward housing, and the ring surface of housing has wire fairlead and screw hole；Described wire fairlead is for allowing the wire 6 drawn pass, and screw hole is for allowing the screw of fixing conductive plate 1 pass；Described insulation shell 5 uses the rubber that can insulate, plastics, nylon, polyurethane, timber, a kind of material in bamboo wood or different materials manufacture, uses the mode of mould injection molding to manufacture or the mode of mould extrusion molding manufactures.

Manufacturing to have on the plate face of described conductive plate 1 and stretch out hole, the side of conductive plate 1 manufactures to be had screw hole or not to manufacture screw hole；Described stretch out hole be through hole, for installing insulation sleeve 3 and conduction protrusion 2；Described screw hole is used for allowing screw screw in and conductive plate 1 is fixed on insulation shell 5.The side of described conductive plate 1 manufactures when having screw hole, is screwed between conductive plate 1 and insulation shell 5；When the side of conductive plate 1 does not manufacture screw hole, fix with viscose glue between conductive plate 1 and insulation shell 5.

Described conduction is protruded the 2 outwardly parts of flange of protruding below and is used for limiting lower end and the weight of carrying conductive plate 1 of interior insulation sleeve 3, and when shocking by electricity the reversing of Mus plate part, it is possible to make conduction protrusion 2 not spill from conductive plate 1.

Described conductive connecting piece 4 is electric conductor, creates the connection sheet that can conduct electricity or conductive connecting piece 4 is created porose plate, being used for connecting all of conduction protrusion 2.

Described conductive connecting piece 4 and conduction are protruded 2 and are created an assembly；When conductive connecting piece 4 creates the common connection sheet that can conduct electricity, conductive connecting piece 4 is welded on conduction and protrudes at 2 protrusion flanges below；Or, when conductive connecting piece 4 is created porose plate, the flange that protrudes that conduction is protruded below 2 connects through the Kong Bingyu conductive connecting piece 4 on conductive connecting piece 4, or, conduction is protruded the columnar part of 2 and is connected through the Kong Bingyu conductive connecting piece 4 on conductive connecting piece 4.

Below the flanging that described insulation sleeve 3 is outside one side for be supported on conduction protrude the flange of 2 lower ends, flanging above one side for allowing one side below conductive plate 1 push down, insulation sleeve 3 is used for allowing conduction protrude 2 isolates with conductive plate 1.

Described electric shock controller is that the circulation making pulse booster produce high voltage pulse is connected circuit and circulates the controller cutting off circuit.When described electric shock controller does not has electric conductor to connect between conductive plate 1 and conduction protrusion 2, electric shock controller is not received by the signal of the low pressure power circuit between conductive plate 1 and conduction protrusion 2, the output circuit of the first outfan of electric shock controller would not be interrupted, then remain that the first outfan of the positive pole of electronic controller is unimpeded to the circuit holding of conductive plate 1 or conduction protrusion 2.Described electric shock controller is when conductive plate 1 and conduction protrude and have electric conductor to connect between 2, after electric shock controller receives the signal of the low pressure power circuit between conductive plate 1 and conduction protrusion 2, it is immediately terminated the output circuit of the first outfan of the positive pole of electric shock controller, it is also turned on the output circuit of the second outfan of the positive pole of electric shock controller, the output circuit of the second outfan of the positive pole of electric shock controller keeps unimpeded in a time quantum, produces high-tension electricity after pulse booster energising；The output circuit of the second outfan of the positive pole of electric shock controller maintain in a time quantum unimpeded after, electric shock controller disconnects the output circuit of the second outfan of the positive pole of electric shock controller, and connects the output circuit of the first outfan of the positive pole of electric shock controller；The output circuit of the first outfan of the positive pole switching on and off the controller that shocks by electricity of such circulation and the output circuit of the second outfan of the positive pole of the controller that shocks by electricity, make the first outfan of the positive pole of electric shock controller to conductive plate 1 or conduct electricity the circuit protruding 2 and the circuit circulative intermittently power-on of generation of the second outfan of the positive pole of the controller that shocks by electricity to pulse booster and circulative interval power-off；When the first outfan to the conductive plate 1 or conduction of the positive pole of the controller that shocks by electricity protrudes the down circuitry of 2, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, when the first outfan to the conductive plate 1 or conduction of the positive pole of the controller that shocks by electricity protrudes the power on circuitry of 2, electric shock controller is disconnected second outfan power-on circuit to pulse booster of the positive pole of electric shock controller, so that pulse booster produces high voltage pulse electric shock mouse.

Described pulse booster is the booster transformer producing pulsed high-voltage.

Described unilateral diode is that the high-tension electricity that pulse booster can be allowed to export passes through, and the electric current of the negative pole that the electric current that the first outfan of electric shock controller can not be allowed to export flows to power supply by the connecting line of the high-voltage output connector of pulse booster is unidirectionally controlled device.

Bait is need not during passing through with wait mouse during killing mouse.

When shocking by electricity mouse, the fur of the body part avoiding mouse is not easy the position of conduction, and the metacarpus utilizing the extremity of mouse is that the optimum conductor of electricity is to the power-on circuit electric shock mouse connecting between conductive plate and conduction protrusion.

During assembling, insulation sleeve 3 is enclosed within each conduction and protrudes on 2, then after being overturn by conductive plate 1, what the conduction being cased with insulation sleeve 3 was protruded 2 press-in conductive plates 1 stretches out hole；Afterwards, again conductive connecting piece 4 is welded on the protrusion flange of conduction protrusion 2, or, the borehole jack of porose conductive connecting piece 4 is contained in conduction and protrudes on 2 lower sections of protrusion flanges, or, when installing insulation sleeve 3, porose conductive connecting piece 4 is sleeved on the cylinder of conduction protrusion 2 and insulation sleeve 3 is being installed；Afterwards, conductive connecting piece 4 is connected with wire 6 and draws insulation shell 5 from fairlead, again conductive plate 1 is connected with wire 6 and draw insulation shell 5 from fairlead, and conductive plate 1 is compressed downwards after putting into insulation shell 5 after being overturn by conductive plate 1, make conduction protrude 2 practicable in the bottom of insulation shell 5；Afterwards, with screw, conductive plate 1 is fixed on insulation shell 5, or, when installing conductive plate 1 inner ring surface of insulation shell 5 coated the side of viscose glue or conductive plate 1 and coats viscose glue and be fixed.Afterwards, the extraction wire 6 that the extraction wire 6 and connection conduction that connect conductive plate 1 protrude 2 is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then the positive pole with the input of the positive pole of wire connection electric shock controller with power supply；Afterwards, connect a low-pressure connector of pulse booster and the second outfan of the positive pole of electric shock controller with wire, then connect another low-pressure connector of pulse booster and the negative pole of power supply with wire；Finally, the two of pulse booster high-voltage output connector wires are connected respectively conductive plate 1 draw wire 6 and conduction protrude 2 extraction wire 6, and pulse booster two high-voltage output connectors with is connected conductive plate 1 and conduct electricity protrusion 2 connection wire in connection have unilateral diode.

During use, by conductive plate 1 is installed and conduction protrude the insulation shell 5 of 2 be positioned over mouse through place after switch on power.When having mouse through out-of-date, four feet of mouse are easy to step on respectively on conductive plate 1 and conduction is protruded on 2, and when the foot of mouse is stepped on respectively and protruded on 2 at conductive plate 1 and conduction, the health of mouse has connected conductive plate 1 and conduction protrudes the power circuit between 2；When the health of mouse connects the power circuit between conductive plate 1 and conduction protrusion 2, the signal of the power circuit of low-voltage circuit passes to the controller that shocks by electricity, electric shock controller has cut off the first outfan to the conductive plate 1 or conduction of the positive pole of electric shock controller immediately and has protruded the power-on circuit between 2, and has connected second outfan of positive pole of electric shock controller and the power-on circuit of pulse booster and made pulse booster produce high-tension electricity to mouse of shocking by electricity；After the high-tension electricity produced when pulse booster completes the electric shock mouse of a time quantum, electric shock controller is disconnected the second outfan of the positive pole of electric shock controller to the first outfan of the positive pole having connected electric shock controller after the power-on circuit of pulse booster and protrudes the power-on circuit between 2 to conductive plate 1 or conduction；Connect conductive plate 1 due to the health of mouse and conduction has protruded the power-on circuit between 2, the signal of low pressure power circuit returns to the controller that shocks by electricity, after the output circuit of the first outfan that electric shock controller is again off the positive pole of electric shock controller, the power circuit of the second outfan of the positive pole of connection electric shock controller to pulse booster produces high-tension electricity electric shock mouse again；After the high-tension electricity produced when pulse booster completes the electric shock mouse of a time quantum again, electric shock controller is disconnected the second outfan of the positive pole of electric shock controller to the first outfan of the positive pole having connected electric shock controller after the circuit of pulse booster and protrudes the power-on circuit between 2 to conductive plate 1 or conduction.

nullSo power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation，During until the circuit between conductive plate 1 and conduction protrusion 2 can not be connected after being electrically shocked and drying out in the positions that the health of mouse contacts with conductive plate 1 and conduction protrusion 2，After the high-tension electricity that pulse booster produces completes the electric shock mouse of last time quantum，Electric shock controller is disconnected the second outfan of the positive pole of electric shock controller to the first outfan of the positive pole having connected electric shock controller after the power-on circuit of pulse booster and protrudes the power-on circuit between 2 to conductive plate 1 or conduction，Now，Low-voltage circuit can not form loop，The signal just not having the power circuit of low-voltage circuit returns to the controller that shocks by electricity，Electric shock controller is maintained for the first outfan connecting the positive pole of electric shock controller to conductive plate 1 or conduction and protrudes the unimpeded of power-on circuit between 2，Meet the arrival of next mouse at any time.

When shocking by electricity mouse, it is mouse that the circuit passband of make pulse booster produces the first connecting valve of high-tension electricity.When not having mouse can not conduct electricity after being electrically shocked with mouse, all of circuit does not the most constitute loop, does not consume electric energy, reduces the cost of deratization.

Claims (4)

1. an intelligent environment protection electric shock deratization device, it is characterised in that: described intelligent environment protection electric shock deratization device includes shock by electricity Mus plate and high-voltage pulse part；Electric shock Mus plate part includes insulation shell, conductive plate, stretches out hole, conduction protrusion, insulation sleeve, conductive connecting piece, wire；High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply；

The described bottom in insulation shell is provided with conduction and protrudes, protrude the following outside protruding the cylinder above flange in conduction and be cased with insulation sleeve, the hole of stretching out protruded from conductive plate of conducting electricity being cased with insulation sleeve is stretched out, insulation sleeve is concordant with stretching out hole or less than one side above conductive plate, the upper end that conduction is protruded is slightly above the above one side of conductive plate in stretching out hole；Protrusion flange below protruding by conduction between conduction is protruded is connected with conductive connecting piece, and below conductive plate, one side is fixed with extraction wire and on conductive connecting piece or conduct electricity and be fixed with extraction wire at the following protrusion flange of protrusion；

The positive pole of described power supply is connected by the input of wire with the positive pole of electric shock controller, first outfan of the positive pole of electric shock controller is connected with conductive plate or conductive connecting piece by wire, two low-pressure connectors of pulse booster connect the second outfan and the negative pole of power supply of the positive pole of electric shock controller respectively with wire, two high-voltage output connector wires of pulse booster connect extraction wire and the extraction wire of conductive connecting piece of conductive plate respectively, two high-voltage output connectors at pulse booster are provided with unilateral diode in the connection line being connected conductive plate and conductive connecting piece；The negative pole of described power supply respectively with electric shock controller negative pole be connected and be connected with conductive connecting piece or conductive plate；When described conductive plate is connected by the first outfan of wire with the positive pole of electric shock controller, conductive connecting piece is connected with the negative pole of power supply by wire；When described conductive connecting piece is connected by the first outfan of wire with the positive pole of electric shock controller, conductive plate is connected with the negative pole of power supply by wire；

Described insulation shell is the square shell or the square shell of fillet or the square shell of chamfering insulated, and described conductive plate is square board-like electric conductor；

Described insulation sleeve be annular, with outside flanging annular insulation circle body；It is that lower end is with the circular conducting post protruding flange that described conduction is protruded；

Described insulation shell is nonconducting, concave downward housing, and the ring surface of housing has wire fairlead and screw hole；Described wire fairlead is for allowing the wire drawn pass, and screw hole is for allowing the screw of fixing conductive plate pass；Described insulation shell uses the rubber that can insulate, plastics, nylon, polyurethane, timber, a kind of material in bamboo wood or different materials manufacture, uses the mode of mould injection molding to manufacture or the mode of mould extrusion molding manufactures；

Manufacturing to have on the plate face of described conductive plate and stretch out hole, the side of conductive plate manufactures to be had screw hole or not to manufacture screw hole；Described hole of stretching out is through hole, protrudes for installing insulation sleeve and conduction；Described screw hole is used for allowing screw screw in and conductive plate is fixed on insulation shell；The side of described conductive plate manufactures when having screw hole, is screwed between conductive plate and insulation shell；When the side of conductive plate does not manufacture screw hole, fix with viscose glue between conductive plate and insulation shell；

Described conduction protrudes the following weight protruding flange outwardly part lower end with carrying conductive plate for limiting interior insulation sleeve, and when shocking by electricity the reversing of Mus plate part, it is possible to make conduction protrude and do not spill from conductive plate；

Described conductive connecting piece is electric conductor, creates the connection sheet that can conduct electricity or conductive connecting piece creates porose plate, is used for connecting all of conduction and protrudes；

Described conductive connecting piece creates an assembly with conduction protrusion；When conductive connecting piece creates the common connection sheet that can conduct electricity, conductive connecting piece is welded on conduction and protrudes at following protrusion flange；Or, when conductive connecting piece is created porose plate, the flange that protrudes below conduction protrusion connects through the Kong Bingyu conductive connecting piece on conductive connecting piece, or, the columnar part of conduction protrusion connects through the Kong Bingyu conductive connecting piece on conductive connecting piece；

Below the flanging that described insulation sleeve is outside one side for be supported on conduction protrude the flange of lower end, flanging above one side for allowing one side below conductive plate push down, insulation sleeve is used for allowing conduction protrude isolates with conductive plate；

Described electric shock controller is that the circulation making pulse booster produce high voltage pulse is connected circuit and circulates the controller cutting off circuit；When described electric shock controller does not has electric conductor to connect between conductive plate and conduction protrude, electric shock controller is not received by the signal of the low pressure power circuit between conductive plate and conduction protrusion, the output circuit of the first outfan of electric shock controller would not be interrupted, then remain that the first outfan of the positive pole of electronic controller keeps unimpeded to the circuit that conductive plate or conduction protrude；When described electric shock controller has electric conductor to connect between conductive plate and conduction protrude, after electric shock controller receives the signal of the low pressure power circuit between conductive plate and conduction protrusion, it is immediately terminated the output circuit of the first outfan of the positive pole of electric shock controller, it is also turned on the output circuit of the second outfan of the positive pole of electric shock controller, the output circuit of the second outfan of the positive pole of electric shock controller keeps unimpeded in a time quantum, produces high-tension electricity after pulse booster energising；The output circuit of the second outfan of the positive pole of electric shock controller maintain in a time quantum unimpeded after, electric shock controller disconnects the output circuit of the second outfan of the positive pole of electric shock controller, and connects the output circuit of the first outfan of the positive pole of electric shock controller；So output circuit of the second outfan of the positive pole of the output circuit of the first outfan of the positive pole switching on and off electric shock controller of circulation and electric shock controller, makes the second outfan to the circuit of pulse booster of the positive pole of circuit that the first outfan of the positive pole of electric shock controller protrudes to conductive plate or conduction and electric shock controller produce circulative intermittently power-on and circulative interval power-off；When the down circuitry that the first outfan of the positive pole of the controller that shocks by electricity protrudes to conductive plate or conduction, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, when the power on circuitry that the first outfan of the positive pole of the controller that shocks by electricity protrudes to conductive plate or conduction, electric shock controller is disconnected second outfan power-on circuit to pulse booster of the positive pole of electric shock controller, so that pulse booster produces high voltage pulse electric shock mouse；

Described pulse booster is the booster transformer producing pulsed high-voltage；

Described unilateral diode is that the high-tension electricity that pulse booster can be allowed to export passes through, and the electric current of the negative pole that the electric current that the first outfan of electric shock controller can not be allowed to export flows to power supply by the connecting line of the high-voltage output connector of pulse booster is unidirectionally controlled device；

When shocking by electricity mouse, the fur of the body part avoiding mouse is not easy the position of conduction, and the metacarpus utilizing the extremity of mouse is that the optimum conductor of electricity is to the power-on circuit electric shock mouse connecting between conductive plate and conduction protrusion；

During assembling, insulation sleeve is enclosed within each conduction and protrudes, then by after conductive plate upset, what the conduction being cased with insulation sleeve was protruded press-in conductive plate stretches out hole；Afterwards, again conductive connecting piece is welded on the protrusion flange that conduction is protruded, or, the borehole jack of porose conductive connecting piece is contained in conduction and protrudes on lower sections of protrusion flange, or, when installing insulation sleeve, porose conductive connecting piece is sleeved on the cylinder that conduction is protruded and insulation sleeve is being installed；Afterwards, conductive connecting piece is connected with wire and draws insulation shell from fairlead, again conductive plate is connected with wire and draw insulation shell from fairlead, and conductive plate is compressed downwards after putting into insulation shell after being overturn by conductive plate, make conduction protrude and implement in the bottom of insulation shell；Afterwards, with screw, conductive plate is fixed on insulation shell, or, when installing conductive plate the inner ring surface of insulation shell coated the side of viscose glue or conductive plate and coats viscose glue and be fixed；Afterwards, the extraction wire that the extraction wire and connection conduction that connect conductive plate protrude is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then the positive pole with the input of the positive pole of wire connection electric shock controller with power supply；Afterwards, connect a low-pressure connector of pulse booster and the second outfan of the positive pole of electric shock controller with wire, then connect another low-pressure connector of pulse booster and the negative pole of power supply with wire；Finally, the two of pulse booster high-voltage output connector wires are connected respectively conductive plate draw wire and conduction protrude extraction wire, and pulse booster two high-voltage output connectors with is connected conductive plate and conduct electricity protrusion connection wire in connection have unilateral diode；

During use, by be provided with conductive plate and conduction protrude insulation shell be positioned over mouse through place after switch on power；When having mouse through out-of-date, four feet of mouse are easy to step on respectively on conductive plate and on conduction protrusion, and when the foot of mouse is stepped on respectively and protruded at conductive plate and conduction, the health of mouse has connected the power circuit between conductive plate and conduction protrusion；When the health of mouse connects the power circuit between conductive plate and conduction protrusion, the signal of the power circuit of low-voltage circuit passes to the controller that shocks by electricity, electric shock controller cut off immediately the first outfan to the conductive plate or conduction of the positive pole of electric shock controller protrude between power-on circuit, and connected the second outfan of positive pole and the power-on circuit of pulse booster of electric shock controller and made pulse booster produce high-tension electricity to mouse of shocking by electricity；After the high-tension electricity produced when pulse booster completes the electric shock mouse of a time quantum, electric shock controller be disconnected the second outfan of the positive pole of electric shock controller to the first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller after the power-on circuit of pulse booster protrude between power-on circuit；Owing to the health of mouse has connected the power-on circuit between conductive plate and conduction protrusion, the signal of low pressure power circuit returns to the controller that shocks by electricity, after the output circuit of the first outfan that electric shock controller is again off the positive pole of electric shock controller, the power circuit of the second outfan of the positive pole of connection electric shock controller to pulse booster produces high-tension electricity electric shock mouse again；After the high-tension electricity produced when pulse booster completes the electric shock mouse of a time quantum again, electric shock controller be disconnected the second outfan of the positive pole of electric shock controller to the first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller after the circuit of pulse booster protrude between power-on circuit；nullSo power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation，During until the circuit between conductive plate and conduction protrusion can not be connected after being electrically shocked and drying out in the position that the health of mouse contacts with conductive plate and conduction protrusion，After the high-tension electricity that pulse booster produces completes the electric shock mouse of last time quantum，Electric shock controller be disconnected the second outfan of the positive pole of electric shock controller to the first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller after the power-on circuit of pulse booster protrude between power-on circuit，Now，Low-voltage circuit can not form loop，The signal just not having the power circuit of low-voltage circuit returns to the controller that shocks by electricity，Electric shock controller is maintained for the first outfan connecting the positive pole of electric shock controller to conductive plate or the unimpeded of the power-on circuit between protruding that conduct electricity，Meet the arrival of next mouse at any time.

Intelligent environment protection the most according to claim 1 electric shock deratization device, it is characterised in that: described intelligent environment protection electric shock deratization device is when shocking by electricity mouse, and it is mouse that the circuit passband of make pulse booster produces the first connecting valve of high-tension electricity.

Intelligent environment protection the most according to claim 1 electric shock deratization device, it is characterized in that: described intelligent environment protection electric shock deratization device is not when having mouse can not conduct electricity after being electrically shocked with mouse, all of circuit does not the most constitute loop, does not consume electric energy, reduces the cost of deratization.

Intelligent environment protection the most according to claim 1 electric shock deratization device, it is characterized in that: the compact conformation of described intelligent environment protection electric shock deratization device rationally, manufacture and easy to use, shock by electricity the effective of mouse, it is not required to very important person guard, the efficiency of deratization is high, during deratization, do not result in environmental pollution and noxious substance will not be discharged, being the mouse killer of environmental protection.