CN204204989U - Lead-acid battery automatic time-delay device - Google Patents

Abstract

The utility model relates to rechargeable battery delay technique field, a kind of lead-acid battery automatic time-delay device is provided, comprise pulse generating circuit, shaping pulse control circuit, pulse enhancing output circuit, power supply stabilization circuit and power supply input rectification circuit, described power supply input rectification circuit is connected with pulse generating circuit through power supply stabilization circuit, described pulse generating circuit is connected with shaping pulse control circuit, and described shaping pulse control circuit is connected with battery plus-negative plate after pulse enhancing output circuit.The utility model circuit connects simple, easy to use, effectively can promote the charging ability of battery, extends the useful life of lead-acid battery.

Description

Lead-acid battery automatic time-delay device

Technical field

The utility model relates to rechargeable battery delay technique field, particularly relates to a kind of lead-acid battery automatic time-delay device.

Background technology

Lead-acid battery is by chemical energy electric energy, the device outwards providing electric power or power, and can reverse charging Reusability, because of but plant inexpensive effective power supply product, extensively use the various aspects such as automotive lighting, electric bicycle driving.But lead-acid battery relates to lead element in process of production, heavy metal pollution can be brought, immense pressure is brought to biological environment, and due in charging process repeatedly, plumbous crystallization can be formed between positive/negative plate, performances of the lead-acid battery be declined, thus allows battery scrap too early, accelerate the production link entering lead-acid battery, increase the weight of the pollution to environment.

Summary of the invention

The purpose of this utility model is exactly to overcome above-mentioned deficiency of the prior art, provides a kind of lead-acid battery automatic time-delay device, and its circuit connects simple, easy to use, effectively can promote the charging ability of battery, extends the useful life of lead-acid battery.

To achieve these goals, the technical solution of the utility model is: lead-acid battery automatic time-delay device, comprise pulse generating circuit, shaping pulse control circuit, pulse enhancing output circuit, power supply stabilization circuit and power supply input rectification circuit, described power supply input rectification circuit is connected with pulse generating circuit through power supply stabilization circuit, described pulse generating circuit is connected with shaping pulse control circuit, and described shaping pulse control circuit is connected with battery plus-negative plate after pulse enhancing output circuit.

In technique scheme, described pulse generating circuit comprises triode L1 and chip X1,1 pin of triode L1 is collector electrode, 2 pin are base stage, 3 pin are emitter, base chip 555 integrated circuit (IC) chip when chip X1 is, shaping pulse control circuit comprises chip X2, chip X3, chip X2 is triode C1815,1 pin is emitter, and 2 pin are collector electrode, and 3 pin are base stage, chip X3 is field effect transistor IRF360,1 pin is G end, and 2 pin are D end, and 3 pin are S end, pulse strengthens output circuit and comprises chip V1, and chip V1 is voltage stabilizing didoe LM385, the positive pole of battery is through diode D1, 1 pin of resistance R1 connecting triode L1 and 2 pin, the 2 foot meridian capacitor C2 of triode L1 connect the negative pole of battery, the 2 foot meridian capacitor C1 of triode L1 connect the negative pole of battery, 3 pin of triode L1 connect 8 pin of chip X1, 2 pin of triode L1 connect 1 pin of chip X1 through diode D4, 1 pin of chip X1 connects the negative pole of battery, 2 pin of chip X1 are unsettled, 3 pin of chip X1 are through resistance R7, resistance R8 is connected to ground, 4 pin of chip X1 are connected with 8 pin of chip X1, 4 pin of chip X1 are connected to ground through resistance R6, 5 pin of chip X1 and 6 pin are also connected to ground through electric capacity C4 after connecting, 5 pin of chip X1 connect 7 pin of chip X1 through resistance R5, 7 pin of chip X1 connect the negative pole of battery through resistance R3, 7 pin of chip X1 are through resistance R3, resistance R2 connects the positive pole of battery, 3 pin of chip X1 connect 3 pin of chip X2 through resistance R7, the 1 pin ground connection of chip X2,2 pin of chip X2 connect 1 pin of chip X3,3 pin of chip X3 connect the negative pole of battery, 2 pin of chip X3 connect the positive pole of battery through resistance R4, diode D2, chip V1 is connected on after forward connecting with diode D3 between 2 pin of chip X3 and 3 pin, and electric capacity C3 is parallel to resistance R4 and diode D2 two ends.

The beneficial effects of the utility model are: utilize pulse generating circuit to produce high-frequency impulse and form vibration by shaping pulse control circuit, and after shaping pulse control circuit, increase multiple-pulse enhancing output circuit, in order to increase pulse strength, impact lead sulfate crystal, weaken leading crystal structure, eliminate the crystallization on accumulator plus-minus polar plate, extend the useful life of lead-acid battery, alleviate environmental protection pressure, save the battery cost of use of consumer.

Accompanying drawing explanation

Fig. 1 is the circuit theory diagrams of the utility model lead-acid battery automatic time-delay device.

Fig. 2 is the circuit connection diagram of the utility model lead-acid battery automatic time-delay device.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further described.

Lead-acid battery can form lead sulfate crystallization at battery positive and negative polarities in Long-Time Service process, and lead sulfate crystallization overlays on pole plate, hinder the motion of lead ion, chemical energy is made to become electric energy or electric energy conversion to become chemical energy process to be obstructed, reduce the service efficiency of lead acid accumulator, the utility model utilizes pulse generating circuit to produce high impulse oscillatory surge lead sulfate crystal, weaken leading crystal structure, and after shaping pulse control circuit, increase multiple-pulse enhancing output circuit, thus make the efficiency of the plumbous crystallization of removal reach maximum, more effective raising and safeguard the charging and discharging capabilities of lead-acid battery, extend the useful life of battery.

As shown in Figure 1, the present embodiment provides a kind of lead-acid battery automatic time-delay device, lead-acid battery automatic time-delay device, comprise pulse generating circuit, shaping pulse control circuit, pulse enhancing output circuit, power supply stabilization circuit and power supply input rectification circuit, described power supply input rectification circuit is connected with pulse generating circuit through power supply stabilization circuit, described pulse generating circuit is connected with shaping pulse control circuit, and described shaping pulse control circuit is connected with battery plus-negative plate after pulse enhancing output circuit.

As shown in Figure 2, described pulse generating circuit comprises triode L1 and chip X1,1 pin of triode L1 is collector electrode, 2 pin are base stage, 3 pin are emitter, base chip 555 integrated circuit (IC) chip when chip X1 is, shaping pulse control circuit comprises chip X2, chip X3, chip X2 is triode C1815,1 pin is emitter, and 2 pin are collector electrode, and 3 pin are base stage, chip X3 is field effect transistor IRF360,1 pin is G end, and 2 pin are D end, and 3 pin are S end, pulse strengthens output circuit and comprises chip V1, and chip V1 is voltage stabilizing didoe LM385; Input voltage signal is amplified by pulse generating circuit by the utility model, then be greater than terminal voltage more than 2 times through shaping pulse control circuit generating amplitude, pulsewidth is about 10us positive negative pulse stuffing shock wave, strengthen output circuit by multiple-pulse again and increase impact intensity of wave, act on battery finally by diode D2.The positive pole of battery is through diode D1, 1 pin of resistance R1 connecting triode L1 and 2 pin, the 2 foot meridian capacitor C2 of triode L1 connect the negative pole of battery, the 2 foot meridian capacitor C1 of triode L1 connect the negative pole of battery, 3 pin of triode L1 connect 8 pin of chip X1, 2 pin of triode L1 connect 1 pin of chip X1 through diode D4, 1 pin of chip X1 connects the negative pole of battery, 2 pin of chip X1 are unsettled, 3 pin of chip X1 are through resistance R7, resistance R8 is connected to ground, 4 pin of chip X1 are connected with 8 pin of chip X1, 4 pin of chip X1 are connected to ground through resistance R6, 5 pin of chip X1 and 6 pin are also connected to ground through electric capacity C4 after connecting, 5 pin of chip X1 connect 7 pin of chip X1 through resistance R5, 7 pin of chip X1 connect the negative pole of battery through resistance R3, 7 pin of chip X1 are through resistance R3, resistance R2 connects the positive pole of battery, 3 pin of chip X1 connect 3 pin of chip X2 through resistance R7, the 1 pin ground connection of chip X2,2 pin of chip X2 connect 1 pin of chip X3,3 pin of chip X3 connect the negative pole of battery, 2 pin of chip X3 connect the positive pole of battery through resistance R4, diode D2, chip V1 is connected on after forward connecting with diode D3 between 2 pin of chip X3 and 3 pin, and electric capacity C3 is parallel to resistance R4 and diode D2 two ends.

Claims (2)

1. lead-acid battery automatic time-delay device, it is characterized in that: comprise pulse generating circuit, shaping pulse control circuit, pulse enhancing output circuit, power supply stabilization circuit and power supply input rectification circuit, described power supply input rectification circuit is connected with pulse generating circuit through power supply stabilization circuit, described pulse generating circuit is connected with shaping pulse control circuit, and described shaping pulse control circuit strengthens output circuit through pulse and is connected with battery plus-negative plate.

2. lead-acid battery automatic time-delay device according to claim 1, it is characterized in that: described pulse generating circuit comprises triode L1 and chip X1, 1 pin of triode L1 is collector electrode, 2 pin are base stage, 3 pin are emitter, base chip 555 integrated circuit (IC) chip when chip X1 is, shaping pulse control circuit comprises chip X2, chip X3, chip X2 is triode C1815, 1 pin is emitter, 2 pin are collector electrode, 3 pin are base stage, chip X3 is field effect transistor IRF360, 1 pin is G end, 2 pin are D end, 3 pin are S end, pulse strengthens output circuit and comprises chip V1, chip V1 is voltage stabilizing didoe LM385, the positive pole of battery is through diode D1, 1 pin of resistance R1 connecting triode L1 and 2 pin, the 2 foot meridian capacitor C2 of triode L1 connect the negative pole of battery, the 2 foot meridian capacitor C1 of triode L1 connect the negative pole of battery, 3 pin of triode L1 connect 8 pin of chip X1, 2 pin of triode L1 connect 1 pin of chip X1 through diode D4, 1 pin of chip X1 connects the negative pole of battery, 2 pin of chip X1 are unsettled, 3 pin of chip X1 are through resistance R7, resistance R8 is connected to ground, 4 pin of chip X1 are connected with 8 pin of chip X1, 4 pin of chip X1 are connected to ground through resistance R6, 5 pin of chip X1 and 6 pin are also connected to ground through electric capacity C4 after connecting, 5 pin of chip X1 connect 7 pin of chip X1 through resistance R5, 7 pin of chip X1 connect the negative pole of battery through resistance R3, 7 pin of chip X1 are through resistance R3, resistance R2 connects the positive pole of battery, 3 pin of chip X1 connect 3 pin of chip X2 through resistance R7, the 1 pin ground connection of chip X2,2 pin of chip X2 connect 1 pin of chip X3,3 pin of chip X3 connect the negative pole of battery, 2 pin of chip X3 connect the positive pole of battery through resistance R4, diode D2, chip V1 is connected on after forward connecting with diode D3 between 2 pin of chip X3 and 3 pin, and electric capacity C3 is parallel to resistance R4 and diode D2 two ends.