CN105900968A - Intelligent deratting environment-friendly electric shock plate - Google Patents
Intelligent deratting environment-friendly electric shock plate Download PDFInfo
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- CN105900968A CN105900968A CN201610277390.6A CN201610277390A CN105900968A CN 105900968 A CN105900968 A CN 105900968A CN 201610277390 A CN201610277390 A CN 201610277390A CN 105900968 A CN105900968 A CN 105900968A
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01M—CATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
- A01M19/00—Apparatus for the destruction of noxious animals, other than insects, by hot water, steam, hot air, or electricity
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- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
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- Insects & Arthropods (AREA)
- Pest Control & Pesticides (AREA)
- Wood Science & Technology (AREA)
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Abstract
The invention discloses an intelligent deratting environment-friendly electric shock plate and belongs to the field of environment-friendly deratting. An annular conductive ring, an inner isolating ring and an outer isolating ring are installed in an annular groove in the upper face of an insulation padding plate, another annular conductive ring is installed in an annular groove between two annular conductive plates, another annular conductive plate is installed between the two annular conductive rings, and the annular conductive plates are isolated from the annular conductive rings through the inner isolating ring and the outer isolating ring. The annular conductive rings are connected through a left conductive piece, and the annular conductive plates are connected through a right conductive piece. The intelligent deratting environment-friendly electric shock plate is compact and reasonable in structure, convenient to manufacture and use, good in effect of electrically shocking rats and high in deratting rate, can not pollute the environment or release toxic substance in the deratting process and is an environment-friendly deratting device. When the intelligent deratting environment-friendly electric shock plate is not conductive due to the fact that no rat passes and a rat is electrically shocked, all circuits do not form a loop, no electric energy is consumed, and the deratting cost is reduced.
Description
Technical field
The present invention relates to eliminate a kind of intelligence deratization environmental protection electric-shocking plate 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, intelligence deratization environmental protection electric-shocking plate of the present invention mainly includes shock by electricity Mus plate part and high-voltage pulse part;Electric shock Mus plate part includes insulating pad, conducting loop-shaped plate, conducting loop-shaped circle, cannelure, interior isolation ring, outer isolation ring, left conducting strip, right conducting strip, left film trap, right film trap;High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply.
Conducting loop-shaped circle, interior isolation ring and outer isolation ring are installed in the cannelure of the above one side of described insulating pad, conducting loop-shaped circle is arranged between interior isolation ring and outer isolation ring, and the lateral loops limit of interior isolation ring is inwardly installed, the lateral loops limit of outer isolation ring is outwards installed;Being provided with conducting loop-shaped plate on insulating pad between the interior isolation ring and the outer isolation ring that are separately mounted in twice cannelure, in the interior isolation ring installed in the cannelure in the middle part of insulating pad, the conducting loop-shaped plate with the space above part installation at the middle part of insulating pad does not has interstitial hole;One conducting loop-shaped circle is installed in the cannelure between two conducting loop-shaped plates, in the cannelure between two conducting loop-shaped circles in twice cannelure, a conducting loop-shaped plate is installed, is insulated by interior isolation ring and outer isolation ring between conducting loop-shaped plate and conducting loop-shaped circle;It is arranged on the conducting loop-shaped plate above insulating pad concordant with the above one side of conducting loop-shaped circle, or, the above one side being arranged on the conducting loop-shaped circle above insulating pad exceeds the above one side of conducting loop-shaped plate;Connecting with left conducting strip between conducting loop-shaped circle, left conducting strip is arranged on the interior wire of left film trap and draws the outside of insulating pad;Connecting with right conducting strip between conducting loop-shaped plate, right conducting strip is arranged on the interior wire of right film trap and draws the outside of insulating pad.
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 left conducting strip or right conducting strip by wire, second outfan of positive pole of electric shock controller is connected by wire with a low-voltage line joint of pulse booster, and another low-voltage line joint of pulse booster is connected with the negative pole of power supply 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 right conducting strip of left conducting strip respectively, and two high-voltage output connectors at pulse booster are provided with unilateral diode in the connection line being connected left conducting strip and right conducting strip;The negative pole of described power supply respectively with electric shock controller negative pole be connected and be connected with right conducting strip or left conducting strip.When described left conducting strip is connected by the first outfan of wire with the positive pole of electric shock controller, right conducting strip is connected with the negative pole of power supply by wire;When described right conducting strip is connected by the first outfan of wire with the positive pole of electric shock controller, left conducting strip is connected with the negative pole of power supply by wire.
Described insulating pad includes square insulating backing plate, round insulation backing plate and oval insulating pad, square insulating backing plate is the square plate or the square plate of fillet or the square plate of chamfering insulated, round insulation backing plate is the circular slab of insulation, and oval insulating pad is the elliptical flat-plate of insulation;Described conducting loop-shaped plate includes conducting electricity square annular slab, conducting circular annular slab and conduction ellipsoids shape annular slab, conduct electricity the annular or square board-like electric conductor in the square annular slab side of being, conducting circular annular slab is the board-like electric conductor of annular or circle, and conduction ellipsoids shape annular slab is the board-like electric conductor of oval ring or ellipse;Described conducting loop-shaped circle includes conducting electricity square ring, conducting circular ring and conduction ellipsoids shape ring, conduct electricity the square ring side of being annular ring type conductive body, conducting circular ring is the ring type conductive body of annular, and conduction ellipsoids shape ring is oval ring type conductive body;Described cannelure be cross section be the annular groove of convex shape stood upside down, including square cannelure, circular ring-shaped groove and elliptical perimeter groove, square cannelure is square annular groove, and circular ring-shaped groove is circular annular groove, and elliptical perimeter groove is oval annular groove;Described interior isolation ring is the annular insulated ring with inside flanging, including square interior isolation ring, circular interior isolation ring, oval interior isolation ring, what the square interior isolation ring side of being was annular is dielectrically separated from circle, in circular, isolation ring is the circle that is dielectrically separated from of annular, oval in isolation ring be oval ring be dielectrically separated from circle;Described outer isolation ring is the annular insulated ring with outside flanging, ring is isolated outside ring, ellipse including square outer isolation ring, circular outer isolation, what the square outer isolation ring side of being was annular is dielectrically separated from circle, circular outer isolation ring is the circle that is dielectrically separated from of annular, oval outer isolation ring be oval ring be dielectrically separated from circle.
Described insulating pad is nonconducting plate, and the above one side manufacture of plate has cannelure, left film trap and right film trap;Manufacturing on insulating pad has multiple tracks cannelure, described cannelure to create the both sides step groove with rank of groove, and the rank of the step groove on cannelure both sides are respectively used to accommodate the inside flanging of interior isolation ring and the outside flanging of outer isolation ring;Described left film trap and right film trap create straight trough, manufacture the groove ridge wearing out between cannelure on the direction vertical at cannelure after be deep into below cannelure, the bottom land of right film trap is less than the bottom land of the bottom land of left film trap, and the bottom land of left film trap and the bottom land of right film trap are below the bottom land of cannelure;When left conducting strip is arranged in left film trap, left conducting strip does not contacts with the conducting loop-shaped plate being arranged on above insulating pad;When right conducting strip is arranged in right film trap, right conducting strip does not contacts with the conducting loop-shaped circle being arranged in cannelure.
Described insulating pad 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;When using timber and bamboo wood to manufacture, load in mould after timber or bamboo wood are pulverized and carry out extrusion molding;When using elastomeric material to manufacture, add hot-pressed with mould;When using plastic material to manufacture, shape with mold injection.
It is the T-shaped of handstand that described conducting loop-shaped circle creates cross section, is used for allowing interior isolation ring and outer isolation ring block towards both sides projection, then makes conducting loop-shaped circle be easy to be fixed on insulating pad under conducting loop-shaped circle.
Manufacture on described conducting loop-shaped plate and have screw hole or do not manufacture screw hole;When on conducting loop-shaped plate, manufacture has screw hole, it is screwed between conducting loop-shaped plate and insulating pad;When not manufacturing screw hole on conducting loop-shaped plate, fix with viscose glue between conducting loop-shaped plate and insulating pad.
Below the outside flanging of described outer isolation ring, below the inside flanging of one side and interior isolation ring, one side is for fixing the part protruded under conducting loop-shaped circle towards both sides, and the above one side of the above one side of the outside flanging of outer isolation ring and the inside flanging of interior isolation ring is pushed down for allowing one side below conducting loop-shaped plate.
Described left conducting strip and right conducting strip are electric conductors;When described left conducting strip is arranged in left film trap, left conducting strip contacts with one side below conducting loop-shaped circle;When described right conducting strip is arranged in right film trap, the position that right conducting strip contacts with conducting loop-shaped plate is protruding upward, and right conducting strip is at conducting loop-shaped circle below portion concave downward.
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 conducting loop-shaped plate and conducting loop-shaped circle, the signal of the low pressure power circuit that electric shock controller is not received by between conducting loop-shaped plate and conducting loop-shaped circle, 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 conducting loop-shaped plate or conducting loop-shaped circle.When described electric shock controller has electric conductor to connect between conducting loop-shaped plate and conducting loop-shaped circle, after electric shock controller receives the signal of the low pressure power circuit between conducting loop-shaped plate and conducting loop-shaped circle, 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 first outfan of the positive pole of electric shock controller produce circulative intermittently power-on and circulative interval power-off to the second outfan of the circuit of conducting loop-shaped plate or conducting loop-shaped circle and the positive pole of electric shock controller to the circuit of pulse booster;When first outfan of positive pole of the controller that shocks by electricity is to the down circuitry of conducting loop-shaped plate or conducting loop-shaped circle, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, when first outfan of positive pole of the controller that shocks by electricity is to the power on circuitry of conducting loop-shaped plate or conducting loop-shaped circle, 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 circuit electric shock mouse connecting between conducting loop-shaped plate and conducting loop-shaped plate circle.
During assembling, first left conducting strip and right conducting strip are connected with wire respectively and draw outside insulating pad, then in left conducting strip and right conducting strip are separately mounted to left film trap and in right film trap;Afterwards, conducting loop-shaped circle is arranged in cannelure, is allowed to contact with the left conducting strip in left film trap, outer isolation ring and interior isolation ring are set in the inside and outside two sides of conducting loop-shaped circle;Afterwards, conducting loop-shaped plate is pressed on interior isolation ring and outer isolation ring, the conducting loop-shaped plate at the edge being pressed in close insulating pad is isolated on ring outside being only pressed in one, it is pressed in the conducting loop-shaped plate in the middle part of insulating pad is only pressed in one on isolation ring, and makes location contacts protruding upward on conducting loop-shaped plate and right conducting strip;Afterwards, with screw, conducting loop-shaped plate is fixed on insulating pad, or, when installing conducting loop-shaped plate by insulating pad above one side coat one side below viscose glue or conducting loop-shaped plate and coat viscose glue and be fixed.Afterwards, the wire of drawing drawing wire and the right conducting strip of connection connecting left conducting strip is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then connects input and the positive pole of power supply of the positive pole of electric shock controller with wire;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, what the two of pulse booster high-voltage output connector wires connected left conducting strip respectively draws wire and the extraction wire of right conducting strip, and has unilateral diode at two high-voltage output connectors of pulse booster with connection in the connection wire being connected left conducting strip and right conducting strip.
During use, the insulating pad being provided with conducting loop-shaped plate, conducting loop-shaped circle, left conducting strip and right conducting strip is 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 conducting loop-shaped plate and on conducting loop-shaped circle, when the foot of mouse is stepped on respectively on conducting loop-shaped plate and conducting loop-shaped circle, the health of mouse has connected the power circuit between conducting loop-shaped plate and conducting loop-shaped circle;When the health of mouse connects the power circuit between conducting loop-shaped plate and conducting loop-shaped circle, 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 of the positive pole of electric shock controller immediately to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle, 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 having connected first outfan of positive pole of electric shock controller after the power-on circuit of pulse booster to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle;Owing to the health of mouse has connected the power-on circuit between conducting loop-shaped plate and conducting loop-shaped circle, 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 having connected first outfan of positive pole of electric shock controller after the circuit of pulse booster to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle;nullSo power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation,During until the circuit between conducting loop-shaped plate and conducting loop-shaped circle can not be connected after being electrically shocked and drying out in the position that the health of mouse contacts with conducting loop-shaped plate and conducting loop-shaped circle,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 having connected first outfan of positive pole of electric shock controller after the power-on circuit of pulse booster to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle,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 unimpeded to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle of the first outfan connecting the positive pole of electric shock controller,Meet the arrival of next mouse at any time.
Described intelligent deratization environmental protection electric-shocking plate 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 deratization environmental protection electric-shocking plate 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 described cannelure on insulating pad, the cannelure of outer ring is bigger than the annular size of the cannelure of inner ring.
Conducting loop-shaped plate differs with the annular size of conducting loop-shaped circle, and the annular size of each the conducting loop-shaped plate on same insulating pad is different from, and the annular size of each the conducting loop-shaped circle on same insulating pad is different from.
The conducting loop-shaped plate being arranged on insulating pad, the conducting loop-shaped plate of outer ring is bigger than the annular size of the conducting loop-shaped plate of inner ring;The conducting loop-shaped circle being arranged on insulating pad, the conducting loop-shaped circle of outer ring is bigger than the annular size of the conducting loop-shaped circle of inner ring.
The compact conformation of intelligence deratization environmental protection electric-shocking plate of the present invention 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 and Fig. 2 is the schematic diagram of the sectional view of the primary structure of electric shock Mus plate part;
Fig. 3 to Fig. 5 is the structural representation of the top view of electric shock Mus plate part.
Shown in figure: conducting loop-shaped plate 1, conducting loop-shaped circle 2, outer isolation ring 3, interior isolation ring 4, right conducting strip 5, left conducting strip 6, right film trap 7, left film trap 8, insulating pad 9.
Detailed description of the invention
Intelligence deratization environmental protection electric-shocking plate of the present invention mainly includes shock by electricity Mus plate part and high-voltage pulse part;Electric shock Mus plate part includes insulating pad 9, conducting loop-shaped plate 1, conducting loop-shaped circle 2, cannelure, interior isolation ring 4, outer isolation ring 3, left conducting strip 6, right conducting strip 5, left film trap 8, right film trap 7;High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply.
Conducting loop-shaped circle 2, interior isolation ring 4 and outer isolation ring 3 are installed in the cannelure of the above one side of described insulating pad 9, conducting loop-shaped circle 2 is arranged between interior isolation ring 4 and outer isolation ring 3, and the lateral loops limit of interior isolation ring 4 is inwardly installed, the lateral loops limit of outer isolation ring 3 is outwards installed;Being provided with conducting loop-shaped plate 1 on insulating pad 9 between the interior isolation ring 4 and the outer isolation ring 3 that are separately mounted in twice cannelure, in the interior isolation ring 4 installed in the cannelure in the middle part of insulating pad 9, the conducting loop-shaped plate 1 with the space above part installation at the middle part of insulating pad 9 does not has interstitial hole;One conducting loop-shaped circle 2 is installed in the cannelure between two conducting loop-shaped plates 1, in the cannelure between two conducting loop-shaped circles 2 in twice cannelure, a conducting loop-shaped plate 1 is installed, is insulated by interior isolation ring 4 and outer isolation ring 3 between conducting loop-shaped plate 1 and conducting loop-shaped circle 2;It is arranged on insulating pad 9 conducting loop-shaped plate 1 above concordant with the above one side of conducting loop-shaped circle 2, or, the above one side being arranged on insulating pad 9 conducting loop-shaped circle 2 above exceeds the above one side of conducting loop-shaped plate 1;Connecting with left conducting strip 6 between conducting loop-shaped circle 2, left conducting strip 6 is arranged on the left interior wire of film trap 8 and draws the outside of insulating pad 9;Connecting with right conducting strip 5 between conducting loop-shaped plate 1, right conducting strip 5 is arranged on the right interior wire of film trap 7 and draws the outside of insulating pad 9.
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 left conducting strip 6 or right conducting strip 5 by wire, second outfan of positive pole of electric shock controller is connected by wire with a low-voltage line joint of pulse booster, and another low-voltage line joint of pulse booster is connected with the negative pole of power supply 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 right conducting strip 5 of left conducting strip 6 respectively, and two high-voltage output connectors at pulse booster are provided with unilateral diode in the connection line being connected left conducting strip 6 and right conducting strip 5;The negative pole of described power supply respectively with electric shock controller negative pole be connected and be connected with right conducting strip 5 or left conducting strip 6.When described left conducting strip 6 is connected by the first outfan of wire with the positive pole of electric shock controller, right conducting strip 5 is connected with the negative pole of power supply by wire;When described right conducting strip 5 is connected by the first outfan of wire with the positive pole of electric shock controller, left conducting strip 6 is connected with the negative pole of power supply by wire.
Described insulating pad 9 includes square insulating backing plate 9, round insulation backing plate 9 and oval insulating pad 9, square insulating backing plate 9 is the square plate or the square plate of fillet or the square plate of chamfering insulated, round insulation backing plate 9 is the circular slab of insulation, and oval insulating pad 9 is the elliptical flat-plate of insulation;Described conducting loop-shaped plate 1 includes conducting electricity square annular slab, conducting circular annular slab and conduction ellipsoids shape annular slab, conduct electricity the annular or square board-like electric conductor in the square annular slab side of being, conducting circular annular slab is the board-like electric conductor of annular or circle, and conduction ellipsoids shape annular slab is the board-like electric conductor of oval ring or ellipse;Described conducting loop-shaped circle 2 includes conducting electricity square ring, conducting circular ring and conduction ellipsoids shape ring, conduct electricity the square ring side of being annular ring type conductive body, conducting circular ring is the ring type conductive body of annular, and conduction ellipsoids shape ring is oval ring type conductive body;Described cannelure be cross section be the annular groove of convex shape stood upside down, including square cannelure, circular ring-shaped groove and elliptical perimeter groove, square cannelure is square annular groove, and circular ring-shaped groove is circular annular groove, and elliptical perimeter groove is oval annular groove;Described interior isolation ring 4 is the annular insulated ring with inside flanging, including square interior isolation ring 4, circular interior isolation ring 4, oval interior isolation ring 4, what square interior isolation ring 4 side of being was annular is dielectrically separated from circle, in circular, isolation ring 4 is the circle that is dielectrically separated from of annular, oval in isolation ring 4 be oval ring be dielectrically separated from circle;Described outer isolation ring 3 is the annular insulated ring with outside flanging, including square outer isolation ring 3, circular outer isolation ring 3, oval outer isolation ring 3, what square outer isolation ring 3 side of being was annular is dielectrically separated from circle, circular outer isolation ring 3 is the circle that is dielectrically separated from of annular, oval outer isolation ring 3 be oval ring be dielectrically separated from circle.
Described insulating pad 9 is nonconducting plate, and the above one side manufacture of plate has cannelure, left film trap 8 and right film trap 7;Manufacturing on insulating pad 9 has multiple tracks cannelure, described cannelure to create the both sides step groove with rank of groove, and the rank of the step groove on cannelure both sides are respectively used to accommodate the inside flanging of interior isolation ring 4 and the outside flanging of outer isolation ring 3;Described left film trap 8 and right film trap 7 create straight trough, manufacture the groove ridge wearing out between cannelure on the direction vertical at cannelure after be deep into below cannelure, the bottom land of right film trap 7 is less than the bottom land of the bottom land of left film trap 8, and the bottom land of left film trap 8 and the bottom land of right film trap 7 are below the bottom land of cannelure;When left conducting strip 6 is arranged in left film trap 8, left conducting strip 6 not be arranged on insulating pad 9 conducting loop-shaped plate 1 above and contact;When right conducting strip 5 is arranged in right film trap 7, right conducting strip 5 does not contacts with the conducting loop-shaped circle 2 being arranged in cannelure.
Described insulating pad 9 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;When using timber and bamboo wood to manufacture, load in mould after timber or bamboo wood are pulverized and carry out extrusion molding;When using elastomeric material to manufacture, add hot-pressed with mould;When using plastic material to manufacture, shape with mold injection.
It is the T-shaped of handstand that described conducting loop-shaped circle 2 creates cross section, and conducting loop-shaped circle is used for allowing interior isolation ring 4 and outer isolation ring 3 block towards both sides projection for 2 times, then makes conducting loop-shaped circle 2 be easy to be fixed on insulating pad 9.
Manufacture on described conducting loop-shaped plate 1 and have screw hole or do not manufacture screw hole;When on conducting loop-shaped plate 1, manufacture has screw hole, it is screwed between conducting loop-shaped plate 1 and insulating pad 9;When not manufacturing screw hole on conducting loop-shaped plate 1, fix with viscose glue between conducting loop-shaped plate 1 and insulating pad 9.
Below the outside flanging of described outer isolation ring 3, below the inside flanging of one side and interior isolation ring 4, one side is for fixing the parts that conducting loop-shaped circle 2 times protrudes towards both sides, and the above one side of the above one side of the outside flanging of outer isolation ring 3 and the inside flanging of interior isolation ring 4 is pushed down for allowing one side below conducting loop-shaped plate 1.
Described left conducting strip 6 and right conducting strip 5 are electric conductors;When described left conducting strip 6 is arranged in left film trap 8, left conducting strip 6 contacts with one side below conducting loop-shaped circle 2;When described right conducting strip 5 is arranged in right film trap 7, right conducting strip 5 is protruding upward with the position that conducting loop-shaped plate 1 contacts, and right conducting strip 5 is at conducting loop-shaped circle 2 below portion concave downward.
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 conducting loop-shaped plate 1 and conducting loop-shaped circle 2, the signal of the low pressure power circuit that electric shock controller is not received by between conducting loop-shaped plate 1 and conducting loop-shaped circle 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 conducting loop-shaped plate 1 or conducting loop-shaped circle 2.When described electric shock controller has electric conductor to connect between conducting loop-shaped plate 1 and conducting loop-shaped circle 2, after electric shock controller receives the signal of the low pressure power circuit between conducting loop-shaped plate 1 and conducting loop-shaped circle 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;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 first outfan of the positive pole of electric shock controller produce circulative intermittently power-on and circulative interval power-off to the second outfan of the circuit of conducting loop-shaped plate 1 or conducting loop-shaped circle 2 and the positive pole of electric shock controller to the circuit of pulse booster;When first outfan of positive pole of the controller that shocks by electricity is to the down circuitry of conducting loop-shaped plate 1 or conducting loop-shaped circle 2, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, when first outfan of positive pole of the controller that shocks by electricity is to the power on circuitry of conducting loop-shaped plate 1 or conducting loop-shaped circle 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 circuit electric shock mouse connecting between conducting loop-shaped plate and conducting loop-shaped plate circle.
During assembling, first left conducting strip 6 and right conducting strip 5 are connected with wire respectively and draw outside insulating pad 9, then in left conducting strip 6 and right conducting strip 5 are separately mounted to left film trap 8 and in right film trap 7;Afterwards, conducting loop-shaped circle 2 is arranged in cannelure, is allowed to contact with the left conducting strip 6 in left film trap 8, outer isolation ring 3 and interior isolation ring 4 are set in the inside and outside two sides of conducting loop-shaped circle 2;Afterwards, conducting loop-shaped plate 1 is pressed on interior isolation ring 4 and outer isolation ring 3, the conducting loop-shaped plate 1 at the edge being pressed in close insulating pad 9 is isolated on ring 3 outside being only pressed in one, it is pressed in the conducting loop-shaped plate 1 in the middle part of insulating pad 9 is only pressed in one on isolation ring 4, and makes location contacts protruding upward on conducting loop-shaped plate 1 and right conducting strip 5;Afterwards, with screw, conducting loop-shaped plate 1 is fixed on insulating pad 9, or, when installing conducting loop-shaped plate 1 by insulating pad 9 above one side coat one side below viscose glue or conducting loop-shaped plate 1 and coat viscose glue and be fixed.Afterwards, the wire of drawing drawing wire and the right conducting strip 5 of connection connecting left conducting strip 6 is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then connects input and the positive pole of power supply of the positive pole of electric shock controller with wire;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, what the two of pulse booster high-voltage output connector wires connected left conducting strip 6 respectively draws wire and the extraction wire of right conducting strip 5, and has unilateral diode at two high-voltage output connectors of pulse booster with connection in the connection wire being connected left conducting strip 6 and right conducting strip 5.
During use, the insulating pad 9 being provided with conducting loop-shaped plate 1, conducting loop-shaped circle 2, left conducting strip 6 and right conducting strip 5 is 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 conducting loop-shaped plate 1 and on conducting loop-shaped circle 2, when the foot of mouse is stepped on respectively on conducting loop-shaped plate 1 and conducting loop-shaped circle 2, the health of mouse has connected the power circuit between conducting loop-shaped plate 1 and conducting loop-shaped circle 2;When the health of mouse connects the power circuit between conducting loop-shaped plate 1 and conducting loop-shaped circle 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 of the positive pole of electric shock controller immediately to the power-on circuit between conducting loop-shaped plate 1 or conducting loop-shaped circle 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 having connected first outfan of positive pole of electric shock controller after the power-on circuit of pulse booster to the power-on circuit between conducting loop-shaped plate 1 or conducting loop-shaped circle 2;Owing to the health of mouse has connected the power-on circuit between conducting loop-shaped plate 1 and conducting loop-shaped circle 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 having connected first outfan of positive pole of electric shock controller after the circuit of pulse booster to the power-on circuit between conducting loop-shaped plate 1 or conducting loop-shaped circle 2;nullSo power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation,During until the circuit between conducting loop-shaped plate 1 and conducting loop-shaped circle 2 can not be connected after being electrically shocked and drying out in the position that the health of mouse contacts with conducting loop-shaped plate 1 and conducting loop-shaped circle 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 having connected first outfan of positive pole of electric shock controller after the power-on circuit of pulse booster to the power-on circuit between conducting loop-shaped plate 1 or conducting loop-shaped circle 2,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 unimpeded to the power-on circuit between conducting loop-shaped plate 1 or conducting loop-shaped circle 2 of the first outfan connecting the positive pole of electric shock controller,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 (6)
1. an intelligent deratization environmental protection electric-shocking plate, it is characterised in that: described intelligent deratization environmental protection electric-shocking plate includes shock by electricity Mus plate and high-voltage pulse part;Electric shock Mus plate part includes insulating pad, conducting loop-shaped plate, conducting loop-shaped circle, cannelure, interior isolation ring, outer isolation ring, left conducting strip, right conducting strip, left film trap, right film trap;High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply;
Conducting loop-shaped circle, interior isolation ring and outer isolation ring are installed in the cannelure of the above one side of described insulating pad, conducting loop-shaped circle is arranged between interior isolation ring and outer isolation ring, and the lateral loops limit of interior isolation ring is inwardly installed, the lateral loops limit of outer isolation ring is outwards installed;Being provided with conducting loop-shaped plate on insulating pad between the interior isolation ring and the outer isolation ring that are separately mounted in twice cannelure, in the interior isolation ring installed in the cannelure in the middle part of insulating pad, the conducting loop-shaped plate with the space above part installation at the middle part of insulating pad does not has interstitial hole;One conducting loop-shaped circle is installed in the cannelure between two conducting loop-shaped plates, in the cannelure between two conducting loop-shaped circles in twice cannelure, a conducting loop-shaped plate is installed, is insulated by interior isolation ring and outer isolation ring between conducting loop-shaped plate and conducting loop-shaped circle;It is arranged on the conducting loop-shaped plate above insulating pad concordant with the above one side of conducting loop-shaped circle;Connecting with left conducting strip between conducting loop-shaped circle, left conducting strip is arranged on the interior wire of left film trap and draws the outside of insulating pad;Connecting with right conducting strip between conducting loop-shaped plate, right conducting strip is arranged on the interior wire of right film trap and draws the outside of insulating pad;
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 left conducting strip or right conducting strip 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 right conducting strip of left conducting strip respectively, two high-voltage output connectors at pulse booster are provided with unilateral diode in the connection line being connected left conducting strip and right conducting strip;The negative pole of described power supply respectively with electric shock controller negative pole be connected and be connected with right conducting strip or left conducting strip;When described left conducting strip is connected by the first outfan of wire with the positive pole of electric shock controller, right conducting strip is connected with the negative pole of power supply by wire;When described right conducting strip is connected by the first outfan of wire with the positive pole of electric shock controller, left conducting strip is connected with the negative pole of power supply by wire;
Described insulating pad is square insulating backing plate, and square insulating backing plate is the square plate or the square plate of fillet or the square plate of chamfering insulated;Described conducting loop-shaped plate is to conduct electricity square annular slab, conducts electricity the annular or square board-like electric conductor in the square annular slab side of being;Described conducting loop-shaped circle is to conduct electricity square ring, conducts electricity the annular ring type conductive body in the square ring side of being;Described cannelure be cross section be the annular groove of convex shape stood upside down, be square cannelure, square cannelure is square annular groove;Described interior isolation ring is the annular insulated ring with inside flanging, is square interior isolation ring, and what the square interior isolation ring side of being was annular is dielectrically separated from circle;Described outer isolation ring is the annular insulated ring with outside flanging, is square outer isolation ring, and what the square outer isolation ring side of being was annular is dielectrically separated from circle;
Described insulating pad is nonconducting plate, and the above one side manufacture of plate has cannelure, left film trap and right film trap;Manufacturing on insulating pad has multiple tracks cannelure, described cannelure to create the both sides step groove with rank of groove, and the rank of the step groove on cannelure both sides are respectively used to accommodate the inside flanging of interior isolation ring and the outside flanging of outer isolation ring;Being deep into below cannelure after the groove ridge that described left film trap and right film trap create straight trough, wears out between cannelure, the bottom land of right film trap is less than the bottom land of the bottom land of left film trap, and the bottom land of left film trap and the bottom land of right film trap are below the bottom land of cannelure;When left conducting strip is arranged in left film trap, left conducting strip does not contacts with the conducting loop-shaped plate being arranged on above insulating pad;When right conducting strip is arranged in right film trap, right conducting strip does not contacts with the conducting loop-shaped circle being arranged in cannelure;
Described insulating pad 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;When using timber and bamboo wood to manufacture, load in mould after timber or bamboo wood are pulverized and carry out extrusion molding;When using elastomeric material to manufacture, add hot-pressed with mould;When using plastic material to manufacture, shape with mold injection;
It is the T-shaped of handstand that described conducting loop-shaped circle creates cross section, is used for allowing interior isolation ring and outer isolation ring block towards both sides projection, then makes conducting loop-shaped circle be easy to be fixed on insulating pad under conducting loop-shaped circle;
Manufacture on described conducting loop-shaped plate and have screw hole or do not manufacture screw hole;When on conducting loop-shaped plate, manufacture has screw hole, it is screwed between conducting loop-shaped plate and insulating pad;When not manufacturing screw hole on conducting loop-shaped plate, fix with viscose glue between conducting loop-shaped plate and insulating pad;
Below the outside flanging of described outer isolation ring, below the inside flanging of one side and interior isolation ring, one side is for fixing the part protruded under conducting loop-shaped circle towards both sides, and the above one side of the above one side of the outside flanging of outer isolation ring and the inside flanging of interior isolation ring is pushed down for allowing one side below conducting loop-shaped plate;
Described left conducting strip and right conducting strip are electric conductors;When described left conducting strip is arranged in left film trap, left conducting strip contacts with one side below conducting loop-shaped circle;When described right conducting strip is arranged in right film trap, the position that right conducting strip contacts with conducting loop-shaped plate is protruding upward, and right conducting strip is at conducting loop-shaped circle below portion concave downward;
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 conducting loop-shaped plate and conducting loop-shaped circle, the signal of the low pressure power circuit that electric shock controller is not received by between conducting loop-shaped plate and conducting loop-shaped circle, 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 conducting loop-shaped plate or conducting loop-shaped circle;When described electric shock controller has electric conductor to connect between conducting loop-shaped plate and conducting loop-shaped circle, after electric shock controller receives the signal of the low pressure power circuit between conducting loop-shaped plate and conducting loop-shaped circle, 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 first outfan of the positive pole of electric shock controller produce circulative intermittently power-on and circulative interval power-off to the second outfan of the circuit of conducting loop-shaped plate or conducting loop-shaped circle and the positive pole of electric shock controller to the circuit of pulse booster;When first outfan of positive pole of the controller that shocks by electricity is to the down circuitry of conducting loop-shaped plate or conducting loop-shaped circle, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, when first outfan of positive pole of the controller that shocks by electricity is to the power on circuitry of conducting loop-shaped plate or conducting loop-shaped circle, 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 circuit electric shock mouse connecting between conducting loop-shaped plate and conducting loop-shaped plate circle;
During assembling, first left conducting strip and right conducting strip are connected with wire respectively and draw outside insulating pad, then in left conducting strip and right conducting strip are separately mounted to left film trap and in right film trap;Afterwards, conducting loop-shaped circle is arranged in cannelure, is allowed to contact with the left conducting strip in left film trap, outer isolation ring and interior isolation ring are set in the inside and outside two sides of conducting loop-shaped circle;Afterwards, conducting loop-shaped plate is pressed on interior isolation ring and outer isolation ring, the conducting loop-shaped plate at the edge being pressed in close insulating pad is isolated on ring outside being only pressed in one, it is pressed in the conducting loop-shaped plate in the middle part of insulating pad is only pressed in one on isolation ring, and makes location contacts protruding upward on conducting loop-shaped plate and right conducting strip;Afterwards, with screw, conducting loop-shaped plate is fixed on insulating pad, or, when installing conducting loop-shaped plate by insulating pad above one side coat one side below viscose glue or conducting loop-shaped plate and coat viscose glue and be fixed;Afterwards, the wire of drawing drawing wire and the right conducting strip of connection connecting left conducting strip is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then connects input and the positive pole of power supply of the positive pole of electric shock controller with wire;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, what the two of pulse booster high-voltage output connector wires connected left conducting strip respectively draws wire and the extraction wire of right conducting strip, and has unilateral diode at two high-voltage output connectors of pulse booster with connection in the connection wire being connected left conducting strip and right conducting strip;
During use, the insulating pad being provided with conducting loop-shaped plate, conducting loop-shaped circle, left conducting strip and right conducting strip is 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 conducting loop-shaped plate and on conducting loop-shaped circle, when the foot of mouse is stepped on respectively on conducting loop-shaped plate and conducting loop-shaped circle, the health of mouse has connected the power circuit between conducting loop-shaped plate and conducting loop-shaped circle;When the health of mouse connects the power circuit between conducting loop-shaped plate and conducting loop-shaped circle, 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 of the positive pole of electric shock controller immediately to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle, 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 having connected first outfan of positive pole of electric shock controller after the power-on circuit of pulse booster to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle;Owing to the health of mouse has connected the power-on circuit between conducting loop-shaped plate and conducting loop-shaped circle, 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 having connected first outfan of positive pole of electric shock controller after the circuit of pulse booster to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle;nullSo power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation,During until the circuit between conducting loop-shaped plate and conducting loop-shaped circle can not be connected after being electrically shocked and drying out in the position that the health of mouse contacts with conducting loop-shaped plate and conducting loop-shaped circle,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 having connected first outfan of positive pole of electric shock controller after the power-on circuit of pulse booster to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle,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 unimpeded to the power-on circuit between conducting loop-shaped plate or conducting loop-shaped circle of the first outfan connecting the positive pole of electric shock controller,Meet the arrival of next mouse at any time.
Intelligence deratization environmental protection electric-shocking plate the most according to claim 1, it is characterised in that: described intelligent deratization environmental protection electric-shocking plate 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.
Intelligence deratization environmental protection electric-shocking plate the most according to claim 1, it is characterized in that: described intelligent deratization environmental protection electric-shocking plate 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.
Intelligence deratization environmental protection electric-shocking plate the most according to claim 1, it is characterized in that: the compact conformation of described intelligent deratization environmental protection electric-shocking plate 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.
Intelligence deratization environmental protection electric-shocking plate the most according to claim 1, it is characterised in that: the cannelure on insulating pad, the cannelure of outer ring is bigger than the annular size of the cannelure of inner ring.
Intelligence deratization environmental protection electric-shocking plate the most according to claim 1, it is characterized in that: conducting loop-shaped plate differs with the annular size of conducting loop-shaped circle, the annular size of each the conducting loop-shaped plate on same insulating pad is different from, and the annular size of each the conducting loop-shaped circle on same insulating pad is different from;
The conducting loop-shaped plate being arranged on insulating pad, the conducting loop-shaped plate of outer ring is bigger than the annular size of the conducting loop-shaped plate of inner ring;The conducting loop-shaped circle being arranged on insulating pad, the conducting loop-shaped circle of outer ring is bigger than the annular size of the conducting loop-shaped circle of inner ring.
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CN201610277390.6A CN105900968A (en) | 2016-05-02 | 2016-05-02 | Intelligent deratting environment-friendly electric shock plate |
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