CN209170025U - A kind of novel battery circuit for reactivating emergency light - Google Patents

Abstract

The utility model discloses a kind of novel battery circuits for reactivating emergency light, including alternating current AC, capacitor C1, resistance R1, diode D5, diode D1, diode D4, diode D2, capacitor C2, resistance R12, resistance R11, resistance R19, diode Z1, resistance R9, triode Q2, resistance R2, resistance R3, capacitor C3, resistance R4, triode Q1, diode D6, resistance R18, diode D3.It charges the utility model has the advantages that circuit switches in the circuit of triode Q1 and diode D3 again; and then effectively raise the service life of emergency light; circuit can greatly prolong the discharge time of product due to not having Cross prevention simultaneously, effectively bring convenience for emergency operation.

Description

A kind of novel battery circuit for reactivating emergency light

Technical field

The utility model relates to emergency light circuit technical fields, it particularly relates to which one kind is novel to reactivate emergency The battery circuit of lamp.

Background technique

Portable illumination equipment is widely used in people's daily life, generally built-in rechargeable battery, this kind of to set Standby to belong to low-end product, charging modes are generally resistance-capacitance depressurization charging more.One of circuit configuration function is to overcharge no mistake Put defencive function, the advantages of this type circuit is have and overcharge the safety that protection increases product, there be not Cross prevention, can extend The discharge time of product, but this circuit has one disadvantage in that being exactly difficult to another battery after battery depth over-discharge reactivates.

For the problems in the relevant technologies, currently no effective solution has been proposed.

Utility model content

For the problems in the relevant technologies, the utility model proposes a kind of novel battery electricity for reactivating emergency light Road, to overcome above-mentioned technical problem present in existing the relevant technologies.

For this purpose, the specific technical solution that the utility model uses is as follows:

A kind of novel battery circuit for reactivating emergency light, including alternating current AC, capacitor C1, resistance R1, diode D5, Diode D1, diode D4, diode D2, capacitor C2, resistance R12, resistance R11, resistance R19, diode Z1, resistance R9, three Pole pipe Q2, resistance R2, resistance R3, capacitor C3, resistance R4, triode Q1, diode D6, resistance R18, diode D3, resistance R10, resistance R5, resistance R6, triode Q3, resistance R7, resistance R20, battery pack BT1, switch SW1, diode D7, resistance R21, It is resistance R17, resistance R13, diode D8, resistance R16, triode Q5, resistance R14, capacitor C5, resistance R15, triode Q6, red Green bi-colour LED LED1, lamp plate LED and capacitor C4, wherein one end of the resistance R11, one end of the resistance R12, institute The anode for stating positive, the described diode D7 of diode D6 is connect with the anode of the capacitor C2, the cathode of the diode D7 It is connect with one end of the resistance R17, the cathode connect and ground of the cathode of the capacitor C2 and the battery pack BT1 is described The cathode of diode D6 is connect with one end of the resistance R18, the other end of the other end of the resistance R11, the resistance R12 It is connect with the emitter of the triode Q1, the collector of the triode Q1 is connect with the anode of the diode D3, described The cathode of diode D3, the resistance R18 the other end respectively with the battery pack BT1 anode connect.

Further, the battery pack BT1 is lead-acid battery, and the red and green color indicator light LED1 is light emitting diode, The diode Z1 is zener diode, the capacitor C1, the resistance R8, the diode D1, the diode D2, described Diode D4, the diode D5 and the capacitor C2 form resistance-capacitance depressurization charging module, wherein the resistance-capacitance depressurization charging mould Block includes that one end of the capacitor C1 connect with one end of the resistance R1 and connect with the anode of the alternating current AC, the capacitor The other end of C1 is connect with the cathode of the other end of the resistance R1, diode D5 anode and the diode D1, described Cathode, one end of the resistance R12, one end of the resistance R11, the electricity of the cathode of diode D5 and the diode D4 Hold the anode connection of the positive and described diode D7 of positive, the described diode D6 of C2, the anode of the diode D4 and institute The cathode for stating diode D2 is connected and is connect with the cathode of the alternating current AC, anode and the diode D2 of the diode D1 Positive, described battery pack BT1 cathode connect and ground.

Further, the capacitor C2, the capacitor C3, the capacitor C5 are polar capacitor.

Further, the triode Q2 and triode Q6 is PNP type triode, the triode Q1 and described three Pole pipe Q5 is NPN type triode.

Further, the triode Q3 is N-channel isolated gate FET, the resistance R19, the resistance R2, institute State diode Z1, the resistance R9 and triode Q2 composition overcharge protection circuit module, wherein the overcharge protection circuit Module includes the other end and the other end of the resistance R11, one end of the resistance R19, the resistance R2 of the resistance R12 One end, the resistance R4 one end connected with the emitter of the triode Q1, the other end of the resistance R19 and described two The cathode of pole pipe Z1 connects, positive one end with the base stage of the triode Q2 and the resistance R9 respectively of the diode Z1 Connection, the other end of the resistance R2 is connect with the collector of one end of the resistance R3 and the triode Q2 respectively, described The other end of resistance R4 is connect with one end of the base stage of the triode Q1 and the resistance R6 respectively, and the resistance R3's is another The anode for rectifying pole and the capacitor C3 with the R of the red and green color indicator light LED1 is held to connect, the red and green color indicator light The end the R cathode of LED1 is connect with one end of the end the G cathode of the red and green color indicator light LED1 and the resistance R10, described red The G of green bi-colour LED LED1 rectifies pole and connect with one end of the resistance R5, the other end of the resistance R5 and three pole The anode connection of the collector of pipe Q1 and the diode D3, one end, the institute of the cathode of the diode D3 and the resistance R7 State the anode connection of one end of switch SW1, one end of the resistance R16 and the battery pack BT1, the other end of the resistance R6 It is connect with the second pin of the triode Q3, one end of the first pin of the triode Q3 and the capacitor C4, the electricity Resistance R20 one end connected with the other end of the resistance R7, the other end of the resistance R9, the triode Q2 emitter, The cathode of the capacitor C3, the other end of the resistance R10, the third pin of the triode Q3, the capacitor C4 it is another The other end connect and ground at end and the resistance R20.

Further, the diode D7, the diode D8, the resistance R17, the resistance R13, the resistance R21 and triode Q5 composition charging is turned off the light module, and charging module of turning off the light includes the other end of the resistance R17, institute The one end for stating resistance R21 is connected with the cathode of the diode D8, and the other end of the switch SW1 is another with the resistance R17's One end, the resistance R13 one end connected with the collector of the triode Q5, the other end of the resistance R13 and described three The anode connection of the base stage of pole pipe Q5 and the diode D8, one end of the emitter of the triode Q5 and the resistance R14 Connection, one end of the other end of the resistance R14 and the resistance R15, the positive and described triode Q6 of the capacitor C5 Base stage connection, the other end of the resistance R16 are connect with the anode of the lamp plate LED, the collector of the triode Q6 and institute State the cathode connection of lamp plate LED, the other end of the emitter of the triode Q6 and the resistance R15, the capacitor C5 it is negative Pole, the other end of the resistance R21 and the battery pack BT1 cathode connect and ground.

The utility model has the following beneficial effects: due to having the presence of resistance R11 and resistance R12, the electricity of capacitor C2 positive terminal Pressure can be higher than overcharged voltage, adjusts the voltage of resistance R11 and the adjustable capacitor C2 positive terminal at this time of resistance R12 resistance value；This high electricity Pressure is fed directly to the both ends battery BT1 by diode D6 and resistance R18, therefore can make the battery BT1 of depth over-discharge again Activation；Circuit is switched in the circuit of triode Q1 and diode D3 again and is charged, and then effectively raises emergency light Service life, while circuit can greatly prolong the discharge time of product due to not having Cross prevention, effectively be emergency operation band Convenience is carried out.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other attached drawings.

Fig. 1 is shown according to the principle of the novel battery circuit for reactivating emergency light of one kind of the utility model embodiment It is intended to.

Specific embodiment

To further illustrate each embodiment, the utility model is provided with attached drawing, these attached drawings are in the utility model discloses A part of appearance mainly to illustrate embodiment, and can cooperate the associated description of specification former come the running for explaining embodiment Reason, cooperation refer to these contents, and those of ordinary skill in the art will be understood that other possible embodiments and this is practical new The advantages of type, the component in figure is not necessarily to scale, and similar component symbol is conventionally used to indicate similar component.

Embodiment according to the present utility model provides a kind of novel battery circuit for reactivating emergency light.

Embodiment one:

As shown in Figure 1, according to the novel battery circuit for reactivating emergency light of the utility model embodiment, including city Electric AC, capacitor C1, resistance R1, diode D5, diode D1, diode D4, diode D2, capacitor C2, resistance R12, resistance R11, resistance R19, diode Z1, resistance R9, triode Q2, resistance R2, resistance R3, capacitor C3, resistance R4, triode Q1, two Pole pipe D6, resistance R18, diode D3, resistance R10, resistance R5, resistance R6, triode Q3, resistance R7, resistance R20, battery pack BT1, switch SW1, diode D7, resistance R21, resistance R17, resistance R13, diode D8, resistance R16, triode Q5, resistance R14, capacitor C5, resistance R15, triode Q6, red and green color indicator light LED1, lamp plate LED and capacitor C4, wherein the resistance One end of R11, one end of the resistance R12, the diode D6 positive, described diode D7 anode with the capacitor C2 Anode connection, the cathode of the diode D7 connect with one end of the resistance R17, the cathode and the electricity of the capacitor C2 The cathode connect and ground of pond group BT1, the cathode of the diode D6 are connect with one end of the resistance R18, the resistance R11 The other end, the resistance R12 the other end connect with the emitter of the triode Q1, the collector of the triode Q1 with The diode D3 anode connection, the cathode of the diode D3, the resistance R18 the other end respectively with the battery pack The anode connection of BT1.

With the aid of the technical scheme, due to having the presence of resistance R11 and resistance R12, the voltage meeting of capacitor C2 positive terminal It is higher than overcharged voltage, adjust the voltage of resistance R11 and the adjustable capacitor C2 positive terminal at this time of resistance R12 resistance value；This high voltage warp It crosses diode D6 and resistance R18 and is fed directly to the both ends battery BT1, therefore the battery BT1 of depth over-discharge can be made to reactivate； Circuit is switched in the circuit of triode Q1 and diode D3 again and is charged, and then effectively raise emergency light uses the longevity Life, while circuit can greatly prolong the discharge time of product due to not having Cross prevention, effectively bring just for emergency operation Benefit.

Embodiment two:

As shown in Figure 1, the battery pack BT1 is lead-acid battery, the red and green color indicator light LED1 is light emitting diode, The diode Z1 is zener diode, the capacitor C1, the resistance R8, the diode D1, the diode D2, described Diode D4, the diode D5 and the capacitor C2 form resistance-capacitance depressurization charging module, wherein the resistance-capacitance depressurization charging mould Block includes that one end of the capacitor C1 connect with one end of the resistance R1 and connect with the anode of the alternating current AC, the capacitor The other end of C1 is connect with the cathode of the other end of the resistance R1, diode D5 anode and the diode D1, described Cathode, one end of the resistance R12, one end of the resistance R11, the electricity of the cathode of diode D5 and the diode D4 Hold the anode connection of the positive and described diode D7 of positive, the described diode D6 of C2, the anode of the diode D4 and institute The cathode for stating diode D2 is connected and is connect with the cathode of the alternating current AC, anode and the diode D2 of the diode D1 Positive, described battery pack BT1 cathode connect and ground.

As shown in Figure 1, the capacitor C2, the capacitor C3 and the capacitor C5 are polar capacitor.

As shown in Figure 1, the triode Q2 and triode Q6 is PNP type triode, the triode Q1, described three Pole pipe Q5 is NPN type triode.

As shown in Figure 1, the triode Q3 is N-channel isolated gate FET, the resistance R19, the resistance R2, institute State diode Z1, the resistance R9 and triode Q2 composition overcharge protection circuit module, wherein the overcharge protection circuit Module includes the other end and the other end of the resistance R11, one end of the resistance R19, the resistance R2 of the resistance R12 One end, the resistance R4 one end connected with the emitter of the triode Q1, the other end of the resistance R19 and described two The cathode of pole pipe Z1 connects, positive one end with the base stage of the triode Q2 and the resistance R9 respectively of the diode Z1 Connection, the other end of the resistance R2 is connect with the collector of one end of the resistance R3 and the triode Q2 respectively, described The other end of resistance R4 is connect with one end of the base stage of the triode Q1 and the resistance R6 respectively, and the resistance R3's is another The anode for rectifying pole and the capacitor C3 with the R of the red and green color indicator light LED1 is held to connect, the red and green color indicator light The end the R cathode of LED1 is connect with one end of the end the G cathode of the red and green color indicator light LED1 and the resistance R10, described red The G of green bi-colour LED LED1 rectifies pole and connect with one end of the resistance R5, the other end of the resistance R5 and three pole The anode connection of the collector of pipe Q1 and the diode D3, one end, the institute of the cathode of the diode D3 and the resistance R7 State the anode connection of one end of switch SW1, one end of the resistance R16 and the battery pack BT1, the other end of the resistance R6 It is connect with the second pin of the triode Q3, one end of the first pin of the triode Q3 and the capacitor C4, the electricity Resistance R20 one end connected with the other end of the resistance R7, the other end of the resistance R9, the triode Q2 emitter, The cathode of the capacitor C3, the other end of the resistance R10, the third pin of the triode Q3, the capacitor C4 it is another The other end connect and ground at end and the resistance R20.

As shown in Figure 1, resistance R17 described in the diode D7, the diode D8, the resistance R13, the resistance R21 and triode Q5 composition charging is turned off the light module, and charging module of turning off the light includes the other end of the resistance R17, institute The one end for stating resistance R21 is connected with the cathode of the diode D8, and the other end of the switch SW1 is another with the resistance R17's One end, the resistance R13 one end connected with the collector of the triode Q5, the other end of the resistance R13 and described three The anode connection of the base stage of pole pipe Q5 and the diode D8, one end of the emitter of the triode Q5 and the resistance R14 Connection, one end of the other end of the resistance R14 and the resistance R15, the positive and described triode Q6 of the capacitor C5 Base stage connection, the other end of the resistance R16 are connect with the anode of the lamp plate LED, the collector of the triode Q6 and institute State the cathode connection of lamp plate LED, the other end of the emitter of the triode Q6 and the resistance R15, the capacitor C5 it is negative Pole, the other end of the resistance R21 and the battery pack BT1 cathode connect and ground.

Working principle: after alternating current AC arranges filtering by resistance-capacitance depressurization, battery is carried out through triode Q1 and diode D3 Charging；Wherein resistance R19, resistance R2, diode Z1, resistance R9 and triode Q2 form overcharge protection circuit module, work as battery When voltage reaches setting value, diode Z1 reverse breakdown, triode Q2 is connected, and charging current limiter is related to and put through resistance R2 and triode Q2 To ground, to reach charging protection function；After battery normally accesses circuit, the remaining electricity of battery passes through resistance R7 and resistance R20 Intrinsic standoff ratio is carried out, when R20 both end voltage is greater than or equal to 0.7V, triode Q3 conducting, the base current of triode Q1 is through resistance R6 is to ground, and triode Q1 conducting, circuit charges normal, and the red and green portion of red and green color indicator light LDE1 is all normal at this time Work, red and green color indicator light LDE1 are rendered as yellow；As charging progresses, cell voltage constantly rises, and works as cell voltage Reach when overcharging protection voltage of setting, the RED sector of triode Q2 conducting, red and green color indicator light LDE1 extinguishes, red green double Color indicator light LDE1 is rendered as green, indicates that battery has been filled with；If lamp plate LED is discharged to when keeping cell voltage lower, resistance R20 Both ends do not have enough voltage that triode Q3 is connected, and triode Q1 is also switched off at this time, the green of red and green color indicator light LDE1 Part is extinguished, and red is presented in red and green color indicator light LDE1, indicates that cell voltage is lower；It is adjustable to adjust resistance R7 and resistance R20 The voltage of whole judgement；If internal resistance is larger, due to having overcharge protection circuit module, circuit rectifies after battery depth over-discharge damage After filtering, the voltage at the both ends capacitor C2 is not more than its pressure voltage, therefore not will cause the damage of capacitor C2 and other components； Due to having the presence of resistance R11 and resistance R12, the voltage of capacitor C2 positive terminal can be higher than overcharged voltage, adjusts resistance R11 and electricity Hinder the voltage of the adjustable capacitor C2 positive terminal at this time of R12 resistance value；This high voltage is fed directly to electricity by diode D6 and resistance R18 The pond both ends BT1, can the battery BT1 of another depth over-discharge reactivate；After battery BT1 is reactivated, circuit voluntarily switches to again It charges in the circuit of triode Q1 and diode D3；In addition, resistance R14, resistance R15, resistance R16, triode Q6 and electricity Hold C5 and forms LED lamp panel drive module；Diode D7, diode D8, resistance R17, resistance R13, resistance R21 and triode Q5 group It turns off the light module at charging；After switch SW1 closure, triode Q5 saturation conduction, the base stage of triode Q6, which has, enough is biased to electricity Pressure and electric current, triode Q6 conducting, lamp plate LED are lighted；As at this time access alternating current AC charge, the anode of diode D7 have compared with High voltage, the cathode voltage of diode D8 is higher than its anode voltage, diode D8 cut-off at this time, and triode Q5 does not have base stage electric It flows and ends, therefore triode Q6 ends, lamp plate LED extinguishes, and reaches the function that charging is turned off the light.

In conclusion by means of the above-mentioned technical proposal of the utility model, due to having the presence of resistance R11 and resistance R12, The voltage of capacitor C2 positive terminal can be higher than overcharged voltage, adjusts resistance R11 and the adjustable anode of capacitor C2 at this time of resistance R12 resistance value The voltage at end；This high voltage is fed directly to the both ends battery BT1 by diode D6 and resistance R18, therefore can make depth mistake The battery BT1 put is reactivated；Circuit is switched in the circuit of triode Q1 and diode D3 again and is charged, and then effective The service life of emergency light is improved, while circuit can greatly prolong the discharge time of product, effectively due to not having Cross prevention It is that emergency operation brings convenience.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (6)

1. a kind of novel battery circuit for reactivating emergency light, which is characterized in that including alternating current AC, capacitor C1, resistance R1, Diode D5, diode D1, diode D4, diode D2, capacitor C2, resistance R12, resistance R11, resistance R19, diode Z1, Resistance R9, triode Q2, resistance R2, resistance R3, capacitor C3, resistance R4, triode Q1, diode D6, resistance R18, diode D3, resistance R10, resistance R5, resistance R6, triode Q3, resistance R7, resistance R20, battery pack BT1, switch SW1, diode D7, Resistance R21, resistance R17, resistance R13, diode D8, resistance R16, triode Q5, resistance R14, capacitor C5, resistance R15, three poles Pipe Q6, red and green color indicator light LED1, lamp plate LED and capacitor C4, wherein one end of the resistance R11, the resistance R12 One end, the diode D6 the anode of positive, described diode D7 connect with the positive of the capacitor C2, the diode D7 Cathode connect with one end of the resistance R17, the cathode of the capacitor C2 connect and connects with the cathode of the battery pack BT1 Ground, the cathode of the diode D6 are connect with one end of the resistance R18, the other end of the resistance R11, the resistance R12 The other end connect with the emitter of the triode Q1, the anode of the collector of the triode Q1 and the diode D3 are even Connect, the cathode of the diode D3, the resistance R18 the other end respectively with the battery pack BT1 anode connect.

2. the novel battery circuit for reactivating emergency light of one kind according to claim 1, which is characterized in that the electricity Pond group BT1 is lead-acid battery, and the red and green color indicator light LED1 is light emitting diode, and the diode Z1 is two pole of pressure stabilizing Pipe, the capacitor C1, the resistance R8, the diode D1, the diode D2, the diode D4, the diode D5 Resistance-capacitance depressurization charging module is formed with the capacitor C2, wherein the resistance-capacitance depressurization charging module includes the one of the capacitor C1 End connect with one end of the resistance R1 and connect with the anode of the alternating current AC, the other end and the resistance of the capacitor C1 The other end of R1, the diode D5 anode is connected with the cathode of the diode D1, the cathode of the diode D5 with it is described The cathode of diode D4, one end of the resistance R12, one end of the resistance R11, the capacitor C2 positive, described two poles The anode connection of the anode and the diode D7 of pipe D6, the anode of the diode D4 are connect with the cathode of the diode D2 And it is connect with the cathode of the alternating current AC, positive, the described battery pack BT1 of the anode and the diode D2 of the diode D1 Cathode connect and ground.

3. the novel battery circuit for reactivating emergency light of one kind according to claim 1, which is characterized in that the electricity Holding C2, the capacitor C3, the capacitor C5 is polar capacitor.

4. the novel battery circuit for reactivating emergency light of one kind according to claim 1, which is characterized in that described three The pole pipe Q2 and triode Q6 is PNP type triode, and the triode Q1 and the triode Q5 are NPN type triode.

5. the novel battery circuit for reactivating emergency light of one kind according to claim 1, which is characterized in that described three Pole pipe Q3 be N-channel isolated gate FET, the resistance R19, the resistance R2, the diode Z1, the resistance R9 and The triode Q2 forms overcharge protection circuit module, wherein the overcharge protection circuit module includes the another of the resistance R12 One end and the other end of the resistance R11, one end of the resistance R19, one end of the resistance R2, the resistance R4 one end It being connected with the emitter of the triode Q1, the other end of the resistance R19 is connect with the cathode of the diode Z1, and described two The anode of pole pipe Z1 is connect with one end of the base stage of the triode Q2 and the resistance R9 respectively, the other end of the resistance R2 Connect respectively with the collector of one end of the resistance R3 and the triode Q2, the other end of the resistance R4 respectively with it is described The base stage of triode Q1 is connected with one end of the resistance R6, the other end of the resistance R3 and the red and green color indicator light The R of LED1 rectifies pole and the anode connection of the capacitor C3, the end the R cathode of the red and green color indicator light LED1 with it is described red green The end the G cathode of bi-colour LED LED1 is connected with one end of the resistance R10, and the G of the red and green color indicator light LED1 rectifies Pole is connect with one end of the resistance R5, the collector and the diode of the other end of the resistance R5 and the triode Q1 The anode connection of D3, the cathode of the diode D3 and one end of the resistance R7, one end of the switch SW1, the resistance The anode connection of one end of R16 and the battery pack BT1, the second pin of the other end of the resistance R6 and the triode Q3 Connection, the first pin of the triode Q3 and one end of the capacitor C4, one end of the resistance R20 and the resistance R7 Other end connection, the other end of the resistance R9, the emitter of the triode Q2, the cathode of the capacitor C3, the resistance The other end company of the other end of R10, the third pin of the triode Q3, the other end of the capacitor C4 and the resistance R20 It connects and is grounded.

6. the novel battery circuit for reactivating emergency light of one kind according to claim 1, which is characterized in that described two Pole pipe D7, the diode D8, the resistance R17, the resistance R13, the resistance R21 and triode Q5 composition charging Turn off the light module, the charging turn off the light module include the other end of the resistance R17, the resistance R21 one end and two pole The cathode of pipe D8 connects, the other end of the other end of the switch SW1 and the resistance R17, one end of the resistance R13 and institute State the collector connection of triode Q5, the base stage and the diode D8 of the other end of the resistance R13 and the triode Q5 Anode connection, the emitter of the triode Q5 connect with one end of the resistance R14, the other end of the resistance R14 and One end of the resistance R15, the capacitor C5 the positive base stage with the triode Q6 connect, the resistance R16's is another It holds and is connect with the anode of the lamp plate LED, the collector of the triode Q6 is connect with the cathode of the lamp plate LED, and described three The emitter of pole pipe Q6 and the other end of the resistance R15, the cathode of the capacitor C5, the other end of the resistance R21 and institute State the cathode connect and ground of battery pack BT1.