CN105472855A - Electronic remote pulse-type fishing device - Google Patents

Abstract

The invention discloses an electronic remote pulse-type fishing device. The electronic remote pulse-type fishing device comprises a low-frequency multivibrator circuit, a high-frequency multivibrator circuit and a high-voltage generator circuit, wherein the low-frequency multivibrator circuit consists of a time base circuit IC1 inside a double time base integrated circuit IC, as well as resistors R1, R2, capacitors C1, C2, a light-emitting diode VL1 and potentiometers RP1, RP2; the high-frequency multivibrator circuit consists of a time base circuit IC2, resistors R3, R4, R6, a light-emitting diode VL2, potentiometers RP3, RP4 and capacitors C3 and C4; and the high-voltage generator circuit consists of VMOS field effect transistors VF1, VF2, resistors R7-R11, a voltage stabilizing diode VS and a boosting transformer T. According to the electronic remote pulse-type fishing device, electric shocks can be utilized for fishing, so that the fishing efficiency is improved; and the electronic remote pulse-type fishing device has the advantages that the circuit structure is simple, the performance is stable and the service life is relatively long.

Description

A kind of electronic remote impulse type fish-catching apparatus

Technical field

The present invention relates to a kind of fish-catching apparatus, be specifically related to a kind of electronic remote impulse type fish-catching apparatus.

Background technology

At present, known fish-catching device is of a great variety, has platinum machine, low frequency machine, High-frequency machine, and platinum machine fire maker damages, and efficiency is low; Low frequency machine uses 3DD series low frequency power pipe, and easily generate heat, efficiency is lower, working stability, but copper consumption is large; High-frequency machine prime operating frequency is at 10-300KHZ, and debugging difficulty is larger.

At present, be all support the family by fishing at coastal area most people, also have a lot of people to support the family by cultured fishes, but still utilize fishing net to fish in the process of people's fishing, so just cause the workload of people larger, be unfavorable for the aquaculture of fish.

Summary of the invention

Goal of the invention: the object of the invention is to solve deficiency of the prior art, provides a kind of and utilizes electric shock fishing, improve fishing efficiency; Have that circuit structure is simple, stable performance and useful life longer advantage electronic remote impulse type fish-catching apparatus.

Technical scheme: a kind of electronic remote impulse type fish-catching apparatus of the present invention, comprise low frequency multi-resonant oscillating circuit, high frequency multi-resonant oscillating circuit and high-pressure generating circuit, described low frequency multi-resonant oscillating circuit is by a time-base circuit IC1 of dual time-base ic IC inside and resistor R1, R2, capacitor C1, C2, light-emitting diode VL1, potentiometer RP1, RP2 forms, 1 pin of described time-base circuit IC1 is connected in parallel to potentiometer RP2 and diode VD1, described potentiometer RP2 is also connected with resistor R1 and R2, with described diode VD1 while of described resistor R2, 2 pin of time-base circuit IC1 are connected with 6 pin and capacitor C1, described potentiometer RP2 is also connected in parallel to potentiometer RP1, described capacitor C1 is also connected with 7 pin and the capacitor C2 of time-base circuit IC1, described capacitor C2 is connected with 3 pin of time-base circuit IC1, 5 pin of described time-base circuit IC1 are connected to switch S 1 and resistor R5, described resistor R5 is also connected with light-emitting diode VL1, described high frequency multi-resonant oscillating circuit is by time-base circuit IC2, resistor R3, R4, R6, light-emitting diode VL2, potentiometer RP3, RP4, capacitor C3, C4 forms, 13 pin of described time-base circuit IC2 are connected in parallel to potentiometer RP3 and resistor R4 respectively, described potentiometer RP3 is also connected with resistor R3 and capacitor C3, 12 pin of described time-base circuit IC2 are connected with resistor R3 with 8 pin simultaneously, described capacitor C3 is also connected with capacitor C4, described capacitor C4 is also connected with 11 pin of described time-base circuit IC2, 10 pin of described time-base circuit IC2 are communicated with described switch S 1, 9 pin of described time-base circuit IC2 are connected in parallel to potentiometer RP4 and resistor R6 respectively, described resistor R6 is also connected with light-emitting diode VL2, 14 pin of described time-base circuit IC2 are by button S2, switch S 3 is connected with power supply, described high-pressure generating circuit is by VM0S field-effect transistor VF1, VF2, resistor R7 ~ R11, voltage stabilizing didoe VS and step-up transformer T forms, described resistor R7, R8, R9 is connected with described potentiometer RP4 respectively, described resistor R8 is also connected with field-effect transistor VF1, described field-effect transistor VF1 is also connected with resistor R10, field-effect transistor VF2 and voltage stabilizing didoe VS, described resistor R9 is connected with described field-effect transistor VF2 simultaneously, described field-effect transistor VF2 is also connected with resistor R11, described field-effect transistor VF1 with VF2 is connected with 20KV voltage by step-up transformer T simultaneously.

Further, described resistor R1 ~ R7 selects 1/4W carbon film resistor or metal film resistor; R8 and R9 all selects the wirewound resistor of 1 ~ 2W; R10 and R11 electric furnace filament winding system.

Further, described potentiometer RP1 ~ RP4 all selects small-sized solid potentiometer.

Further, described capacitor C1 selects withstand voltage to be the aluminium electrolytic capacitor of 16V; C2 ~ C4 selects dacron terylene condenser or monolithic capacitor.

Further, described light-emitting diode VL1 and VL2 all selects the light-emitting diode of Φ 5mm.

Further, described voltage stabilizing didoe VS selects the voltage stabilizing didoe of 1N5951B type 1.5W, 120V.

Further, described effect transistor VF1 and YF2 all select that electric current is 15 ~ 20A, power is 100W, the withstand voltage high-power V M0S field-effect transistor for 200V.

Further, described IC selects NE556 type dual time-base ic IC to select NE556 type dual time-base ic.

Further, described S1 selects one pole dibit single-pole double-throw switch (SPDT); S2 selects open type button; S3 selects contact current capacity to be greater than the mains switch of 5A.

Beneficial effect: the present invention can utilize electric shock fishing, improves fishing efficiency; The present invention has that circuit structure is simple, stable performance and useful life longer advantage.

Accompanying drawing explanation

Fig. 1 is control circuit principle schematic of the present invention.

Embodiment

A kind of electronic remote impulse type fish-catching apparatus as shown in Figure 1, comprises low frequency multi-resonant oscillating circuit, high frequency multi-resonant oscillating circuit and high-pressure generating circuit.

Described low frequency multi-resonant oscillating circuit is by a time-base circuit IC1 of dual time-base ic IC inside and resistor R1, R2, capacitor C1, C2, light-emitting diode VL1, potentiometer RP1, RP2 forms, 1 pin of described time-base circuit IC1 is connected in parallel to potentiometer RP2 and diode VD1, described potentiometer RP2 is also connected with resistor R1 and R2, with described diode VD1 while of described resistor R2, 2 pin of time-base circuit IC1 are connected with 6 pin and capacitor C1, described potentiometer RP2 is also connected in parallel to potentiometer RP1, described capacitor C1 is also connected with 7 pin and the capacitor C2 of time-base circuit IC1, described capacitor C2 is connected with 3 pin of time-base circuit IC1, 5 pin of described time-base circuit IC1 are connected to switch S 1 and resistor R5, described resistor R5 is also connected with light-emitting diode VL1.

Described high frequency multi-resonant oscillating circuit is by time-base circuit IC2, resistor R3, R4, R6, light-emitting diode VL2, potentiometer RP3, RP4, capacitor C3, C4 forms, 13 pin of described time-base circuit IC2 are connected in parallel to potentiometer RP3 and resistor R4 respectively, described potentiometer RP3 is also connected with resistor R3 and capacitor C3, 12 pin of described time-base circuit IC2 are connected with resistor R3 with 8 pin simultaneously, described capacitor C3 is also connected with capacitor C4, described capacitor C4 is also connected with 11 pin of described time-base circuit IC2, 10 pin of described time-base circuit IC2 are communicated with described switch S 1, 9 pin of described time-base circuit IC2 are connected in parallel to potentiometer RP4 and resistor R6 respectively, described resistor R6 is also connected with light-emitting diode VL2, 14 pin of described time-base circuit IC2 are by button S2, switch S 3 is connected with power supply.

Described high-pressure generating circuit is by VM0S field-effect transistor VF1, VF2, resistor R7 ~ R11, voltage stabilizing didoe VS and step-up transformer T forms, described resistor R7, R8, R9 is connected with described potentiometer RP4 respectively, described resistor R8 is also connected with field-effect transistor VF1, described field-effect transistor VF1 is also connected with resistor R10, field-effect transistor VF2 and voltage stabilizing didoe VS, described resistor R9 is connected with described field-effect transistor VF2 simultaneously, described field-effect transistor VF2 is also connected with resistor R11, described field-effect transistor VF1 with VF2 is connected with 20KV voltage by step-up transformer T simultaneously.

Each components and parts of above-mentioned control circuit are selected as follows:

Further, described resistor R1 ~ R7 selects 1/4W carbon film resistor or metal film resistor; R8 and R9 all selects the wirewound resistor of 1 ~ 2W; R10 and R11 electric furnace filament winding system.

Further, described potentiometer RP1 ~ RP4 all selects small-sized solid potentiometer.

Further, described capacitor C1 selects withstand voltage to be the aluminium electrolytic capacitor of 16V; C2 ~ C4 selects dacron terylene condenser or monolithic capacitor.

Further, described light-emitting diode VL1 and VL2 all selects the light-emitting diode of Φ 5mm.

Further, described voltage stabilizing didoe VS selects the voltage stabilizing didoe of 1N5951B type 1.5W, 120V.

Further, described effect transistor VF1 and YF2 all select that electric current is 15 ~ 20A, power is 100W, the withstand voltage high-power V M0S field-effect transistor for 200V.

Further, described IC selects NE556 type dual time-base ic IC to select NE556 type dual time-base ic.

Further, described S1 selects one pole dibit single-pole double-throw switch (SPDT); S2 selects open type button; S3 selects contact current capacity to be greater than the mains switch of 5A.

During debugging, at positive pole and the ammeter being connected in series a 10A between mains switch S3 of storage battery CB, then switch S 1 is placed in " test " position, regulates two high-voltage output electrodes, make it at a distance of about 10mm and fix.

Be adjusted to maximum by the resistance of RP3 and RP4, switch on power switch S 3, then press S2 and do not let go, and regulates RP3 and RP4 simultaneously, make the reading of ammeter be discharge spark between about 4A, high-field electrode the most by force.

The operation principle of this device is:

High-frequency flip-flop is under the control of LF multivibrator, and from the 9 pin output pulse signals of IC, this signal, after VF1 and VF2 amplifies, produces high voltage pulse by step-up transformer T.

During use, first two high-field electrodes are put (at a distance of about 1m) in people's water, then switch S 1 is placed in " work " position, after the switch S that switches on power 3, then presses play button S2.

The present invention can utilize electric shock fishing, improves fishing efficiency; The present invention has that circuit structure is simple, stable performance and useful life longer advantage.

The above, it is only preferred embodiment of the present invention, not any pro forma restriction is done to the present invention, although the present invention discloses as above with preferred embodiment, but and be not used to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from technical solution of the present invention, according to any simple modification that technical spirit of the present invention is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (9)

1. an electronic remote impulse type fish-catching apparatus, it is characterized in that: comprise low frequency multi-resonant oscillating circuit, high frequency multi-resonant oscillating circuit and high-pressure generating circuit, described low frequency multi-resonant oscillating circuit is by a time-base circuit IC1 of dual time-base ic IC inside and resistor R1, R2, capacitor C1, C2, light-emitting diode VL1, potentiometer RP1, RP2 forms, 1 pin of described time-base circuit IC1 is connected in parallel to potentiometer RP2 and diode VD1, described potentiometer RP2 is also connected with resistor R1 and R2, with described diode VD1 while of described resistor R2, 2 pin of time-base circuit IC1 are connected with 6 pin and capacitor C1, described potentiometer RP2 is also connected in parallel to potentiometer RP1, described capacitor C1 is also connected with 7 pin and the capacitor C2 of time-base circuit IC1, described capacitor C2 is connected with 3 pin of time-base circuit IC1, 5 pin of described time-base circuit IC1 are connected to switch S 1 and resistor R5, described resistor R5 is also connected with light-emitting diode VL1, described high frequency multi-resonant oscillating circuit is by time-base circuit IC2, resistor R3, R4, R6, light-emitting diode VL2, potentiometer RP3, RP4, capacitor C3, C4 forms, 13 pin of described time-base circuit IC2 are connected in parallel to potentiometer RP3 and resistor R4 respectively, described potentiometer RP3 is also connected with resistor R3 and capacitor C3, 12 pin of described time-base circuit IC2 are connected with resistor R3 with 8 pin simultaneously, described capacitor C3 is also connected with capacitor C4, described capacitor C4 is also connected with 11 pin of described time-base circuit IC2, 10 pin of described time-base circuit IC2 are communicated with described switch S 1, 9 pin of described time-base circuit IC2 are connected in parallel to potentiometer RP4 and resistor R6 respectively, described resistor R6 is also connected with light-emitting diode VL2, 14 pin of described time-base circuit IC2 are by button S2, switch S 3 is connected with power supply, described high-pressure generating circuit is by VM0S field-effect transistor VF1, VF2, resistor R7 ~ R11, voltage stabilizing didoe VS and step-up transformer T forms, described resistor R7, R8, R9 is connected with described potentiometer RP4 respectively, described resistor R8 is also connected with field-effect transistor VF1, described field-effect transistor VF1 is also connected with resistor R10, field-effect transistor VF2 and voltage stabilizing didoe VS, described resistor R9 is connected with described field-effect transistor VF2 simultaneously, described field-effect transistor VF2 is also connected with resistor R11, described field-effect transistor VF1 with VF2 is connected with 20KV voltage by step-up transformer T simultaneously.

2. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described resistor R1 ~ R7 selects 1/4W carbon film resistor or metal film resistor; R8 and R9 all selects the wirewound resistor of 1 ~ 2W; R10 and R11 electric furnace filament winding system.

3. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described potentiometer RP1 ~ RP4 all selects small-sized solid potentiometer.

4. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described capacitor C1 selects withstand voltage to be the aluminium electrolytic capacitor of 16V; C2 ~ C4 selects dacron terylene condenser or monolithic capacitor.

5. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described light-emitting diode VL1 and VL2 all selects the light-emitting diode of Φ 5mm.

6. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described voltage stabilizing didoe VS selects the voltage stabilizing didoe of 1N5951B type 1.5W, 120V.

7. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described effect transistor VF1 and YF2 all selects that electric current is 15 ~ 20A, power is 100W, the withstand voltage high-power V M0S field-effect transistor for 200V.

8. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described IC selects NE556 type dual time-base ic IC to select NE556 type dual time-base ic.

9. a kind of electronic remote impulse type fish-catching apparatus according to claim 1, is characterized in that: described S1 selects one pole dibit single-pole double-throw switch (SPDT); S2 selects open type button; S3 selects contact current capacity to be greater than the mains switch of 5A.