CN209375170U - The charger of anti-charge contact sparking and anti-battery reversal connection leakage-current alarm - Google Patents

Abstract

The utility model discloses the charger of a kind of anti-charge contact sparking and anti-battery reversal connection leakage-current alarm, comprising: AC-DC constant-current supply unit, battery and it is connected to the AC-DC constant-current supply unit, between battery and for controlling charge switch and reverse leakage protection location that whether AC-DC constant-current supply unit charges to the battery, the MCU control unit being connect with the charge switch and reverse leakage protection location, for detecting the cell voltage detection unit of cell voltage, the reversal connection voltage detection unit whether being reversely connected for detecting battery, for detecting the charging current detection unit of charging current, the cell voltage detection unit, charging current detection unit, reversal connection voltage detection unit is all connected with the MCU control unit, and the MCU control unit is also connected with alarm unit.With the anti-sparking of battery terminal contact when the utility model charges, and have the function of that battery is reversely connected anti-leak and battery reverse-connection alarm function.

Description

The charger of anti-charge contact sparking and anti-battery reversal connection leakage-current alarm

Technical field:

The utility model relates to technical field of charger products, refer in particular to a kind of anti-charge contact sparking and the reversal connection leakage of anti-battery The charger of electric alarm.

Background technique:

Charger is a kind of with the device to charge to various electronic products, is widely used, becomes electronic product Essential component.

Current charger is easy to produce spark when connecting with battery terminal, is not suitable for the charging of the special occasions such as fuel, Otherwise it charges by force, is easy to cause safety accident.In addition, traditional charger is when charging to battery, since battery connects Police instruction is added inverse time there are big reverse leakage current, battery power shortage is be easy to cause to damage, and when cell voltage is lower Reversal connection cannot alarm, and it is not convenient enough to use.

In view of this, the present inventor proposes following technical scheme.

Utility model content:

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of anti-charge contact sparking and anti-battery It is reversely connected the charger of leakage-current alarm.

In order to solve the above-mentioned technical problem, the utility model uses following technical proposals: anti-charge contact sparking and The charger of anti-battery reversal connection leakage-current alarm includes: AC-DC constant-current supply unit, battery and is connected to the AC-DC Constant Electric Current Between source unit, battery and for controlling charge switch that whether AC-DC constant-current supply unit charges to the battery and anti- To residual current protective unit, the MCU control unit being connect with the charge switch and reverse leakage protection location, for detecting battery electricity The cell voltage detection unit of pressure, for detecting reversal connection voltage detection unit that whether battery be reversely connected, for detecting charging current Charging current detection unit, the cell voltage detection unit, charging current detection unit, reversal connection voltage detection unit be all connected with The MCU control unit, and the MCU control unit is also connected with alarm unit.

Furthermore, in above-mentioned technical proposal, the charge switch and reverse leakage protection location include mutually to interconnect The metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4 that connect and the metal-oxide-semiconductor Q8 being connect with the pole G of the pole G of metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4, metal-oxide-semiconductor Q3's The pole S is connected with the pole S of metal-oxide-semiconductor Q4, and the pole D of metal-oxide-semiconductor Q4 connects the battery, and the pole D of metal-oxide-semiconductor Q3 connects the AC-DC Constant-current supply unit, the pole S of metal-oxide-semiconductor Q8 connects battery cathode, and the pole G of metal-oxide-semiconductor Q8 connects the MCU control unit.

Furthermore, in above-mentioned technical proposal, the model of the metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4 are AOD413A.

Furthermore, in above-mentioned technical proposal, the cell voltage detection unit includes to be connected in parallel in the battery Resistance R35, metal-oxide-semiconductor Q9, the resistance R36 at both ends, wherein the pole D and the pole S of metal-oxide-semiconductor Q9 is separately connected resistance R35 and resistance R36, the pole G of metal-oxide-semiconductor Q9 connect the control chip of the MCU in the MCU control unit.

Furthermore, in above-mentioned technical proposal, the charging current detection unit includes difference amplifier U4, connects The electricity for being connected to the resistance R51 between the first foot of difference amplifier U4 and crus secunda, being connected to the difference amplifier the first foot of U4 Resistance R52 and resistance R32, the resistance R49 for being connected to difference amplifier U4 third foot, resistance R49 connect battery cathode, the resistance R32 connects the control chip of the MCU in the MCU control unit, is grounded after difference amplifier U4 crus secunda connection resistance R50.

Furthermore, in above-mentioned technical proposal, the reversal connection voltage detection unit includes the diode connected with this D22, resistance R66 and resistance R64, the anode of the cathode connection battery of diode D22.

Furthermore, in above-mentioned technical proposal, the MCU control unit includes MCU control chip, MCU control Chip connects the cell voltage detection unit, charging current detection unit, reversal connection voltage detection unit, which controls chip Model HT5070.

Furthermore, in above-mentioned technical proposal, the alarm unit includes at least one LED, the LED connection institute State the MCU control chip in MCU control unit.

After adopting the above technical scheme, the utility model have the following beneficial effects: compared with prior art it is practical When Novel work, when charger contact battery terminal, MCU control unit detects electric current, such as MCU by charging current detection unit Control unit does not detect that charging current detection unit has electric current, begins through cell voltage detection unit detection cell voltage And judge voltage, by ten detection voltages, if ten equal test voltages of voltage are normal, MCU control unit control charging is opened It closes and reverse leakage protection location is begun to turn on, AC-DC constant-current supply unit starts to charge to battery.If MCU control unit Detect that charging current detection unit has electric current, MCU control unit controls charge switch and the shutdown of reverse leakage protection location, then It does not charge to battery, anti-charge contact sparking function is reached with this, connect and hold between charger and battery when charging can be solved It is also easy to produce spark, the inflammable thing such as the gasoline that ignites are not suitable for the problem of special occasions such as fuel charge.When battery is reversed, charge switch And the reverse-biased cut-off of reverse leakage protection location, battery will not generate back discharge, reach battery reversal connection anti-leak function, in addition lead to Cell voltage is crossed by reversal connection voltage detection unit, and sends a signal to MCU control unit, i.e., is connect to MCU control unit for anti- Connect voltage, MCU control unit control alarm unit is alarmed, and reaches battery reverse-connection alarm function, and this circuit is extremely low puts Electric current versus cell influences minimum.

Detailed description of the invention:

Fig. 1 is the block diagram of the utility model；

Fig. 2 is the circuit diagram of the utility model.

Specific embodiment:

The present invention will be further described with attached drawing combined with specific embodiments below.

As shown in FIGS. 1 and 2 being reversely connected the charger of leakage-current alarm for a kind of anti-charge contact sparking and anti-battery comprising: It AC-DC constant-current supply unit 1, battery 2 and is connected between the AC-DC constant-current supply unit 1, battery 2 and for controlling AC- Charge switch and reverse leakage protection location 3 that whether DC constant-current supply unit 1 charges to the battery 2 are opened with the charging Close and reverse leakage protection location 3 connect MCU control unit 4, the cell voltage detection unit 5 for detecting cell voltage, For detecting reversal connection voltage detection unit 6, the charging current detection unit 7 for detecting charging current whether battery 2 is reversely connected, It is single that the cell voltage detection unit 5, charging current detection unit 7, reversal connection voltage detection unit 6 are all connected with the MCU control Member 4, and the MCU control unit 4 is also connected with alarm unit 8.When utility model works, when charger contact battery terminal, MCU control unit 4 detects electric current by charging current detection unit 7, as MCU control unit 4 does not detect that charging current is examined Surveying unit 7 has electric current, begins through cell voltage detection unit 5 and detects cell voltage and judge voltage, by ten detections electricity Pressure, if ten equal test voltages of voltage are normal, MCU control unit 4 controls charge switch and reverse leakage protection location 3 is opened Begin to be connected, AC-DC constant-current supply unit 1 starts to charge to battery.If MCU control unit 4 detects charging current, detection is single Member 7 has electric current, and MCU control unit 4 controls charge switch and reverse leakage protection location 3 turns off, then does not charge to battery, with This reaches anti-charge contact sparking function, and connection is easy to produce spark between charger and battery when charging can be solved, and ignites The inflammable thing such as gasoline are not suitable for the problem of special occasions such as fuel charging.When battery is reversed, charge switch and reverse leakage protection The reverse-biased cut-off of unit 3, battery will not generate back discharge, reach battery reversal connection anti-leak function, pass through additionally by cell voltage Reversal connection voltage detection unit 6 is crossed, and sends a signal to MCU control unit 4, i.e., is connect to MCU control unit 4 for being reversely connected voltage, MCU Control unit 4 controls alarm unit and alarms, and reaches battery reverse-connection alarm function, and the extremely low discharge current of this circuit is to electricity Pond influences minimum.

The charge switch and reverse leakage protection location 3 include metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4 interconnected and The metal-oxide-semiconductor Q8 connecting with the pole G of the pole G of metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4, the pole S of metal-oxide-semiconductor Q3 are connected with the pole S of metal-oxide-semiconductor Q4, The pole D of metal-oxide-semiconductor Q4 connects the battery 2, and the pole D of metal-oxide-semiconductor Q3 connects the AC-DC constant-current supply unit 1, the metal-oxide-semiconductor The pole S of Q8 connects 2 cathode of battery, and the pole G of metal-oxide-semiconductor Q8 connects the MCU control unit 4.The metal-oxide-semiconductor Q3's and metal-oxide-semiconductor Q4 Model is AOD413A.The turn-on and turn-off of metal-oxide-semiconductor Q3, metal-oxide-semiconductor Q4 and metal-oxide-semiconductor Q8 realize entire charge switch and reversed leakage The turn-on and turn-off of electric protection unit 3, and controlled by MCU control unit 4.

The cell voltage detection unit 5 includes resistance R35, MOS pipe Q9, the electricity for being connected in parallel in 2 both ends of battery Hinder R36, wherein the pole D and the pole S of metal-oxide-semiconductor Q9 is separately connected resistance R35 and resistance R36, the pole the G connection of metal-oxide-semiconductor Q9 MCU in the MCU control unit 4 controls chip 41.

The charging current detection unit 7 include difference amplifier U4, be connected to the first foot of difference amplifier U4 and Resistance R51 between crus secunda, the resistance R52 and resistance R32 for being connected to the difference amplifier the first foot of U4, it is connected to the difference The resistance R49 of amplifier U4 third foot, resistance R49 connect 2 cathode of battery, in the resistance R32 connection MCU control unit 4 MCU control chip 41, the difference amplifier U4 crus secunda connection resistance R50 after be grounded.

The reversal connection voltage detection unit 6 includes diode D22, resistance R66 and the resistance R64 connected with this, this two The anode of the cathode connection battery 2 of pole pipe D22.

The MCU control unit 4 includes MCU control chip 41, and MCU control chip 41 connects the cell voltage inspection Unit 5, charging current detection unit 7, reversal connection voltage detection unit 6 are surveyed, which controls the model HT5070 of chip 41.

The alarm unit 8 includes at least one LED, which connects the control of the MCU in the MCU control unit 4 Chip 41.

In conclusion, when charger contact battery terminal, MCU control unit 4 passes through charging electricity when utility model works Stream detection unit 7 detects electric current and begins through if MCU control unit 4 does not detect that charging current detection unit 7 has electric current Cell voltage detection unit 5 detects cell voltage and judges voltage, by ten detection voltages, if ten voltages test electricity Positive pressure is normal, and MCU control unit 4 controls charge switch and reverse leakage protection location 3 is begun to turn on, AC-DC constant-current supply unit 1 Start to charge to battery.If MCU control unit 4 detects that charging current detection unit 7 has electric current, MCU control unit 4 is controlled Charge switch and reverse leakage protection location 3 turn off, then do not charge to battery, reach anti-charge contact sparking function with this, i.e., Connection is easy to produce spark between charger and battery when can solve charging, and it is special that the inflammable thing such as the gasoline that ignites are not suitable for fuel etc. The problem of occasion charges.When battery is reversed, charge switch and the reverse-biased cut-off of reverse leakage protection location 3, battery will not be generated instead To electric discharge, reaches battery reversal connection anti-leak function and concurrently deliver letters additionally by cell voltage by reversal connection voltage detection unit 6 Number give MCU control unit 4, i.e., to MCU control unit 4 connect for be reversely connected voltage, MCU control unit 4 control alarm unit reported It is alert, reach battery reverse-connection alarm function, and this circuit extremely low discharge current battery is influenced it is minimum.

It certainly, is not to limit the utility model and implement the foregoing is merely specific embodiment of the utility model Range, all equivalent change or modifications done according to structure, feature and principle described in present utility model application the scope of the patents, should all wrap It includes in present utility model application the scope of the patents.

Claims (8)

1. the charger of anti-charge contact sparking and anti-battery reversal connection leakage-current alarm, it is characterised in that: comprising: AC-DC constant current It power supply unit (1), battery (2) and is connected between the AC-DC constant-current supply unit (1), battery (2) and for controlling AC- Charge switch and reverse leakage protection location (3) that whether DC constant-current supply unit (1) charges to the battery (2), with should Charge switch and the MCU control unit (4) of reverse leakage protection location (3) connection, the cell voltage for detecting cell voltage Detection unit (5), for detecting reversal connection voltage detection unit (6) that whether battery (2) be reversely connected, for detecting filling for charging current Electric current detecting unit (7), the cell voltage detection unit (5), charging current detection unit (7), reversal connection voltage detection unit (6) it is all connected with the MCU control unit (4), and the MCU control unit (4) is also connected with alarm unit (8).

2. the charger of anti-charge contact sparking according to claim 1 and anti-battery reversal connection leakage-current alarm, feature exist In: the charge switch and reverse leakage protection location (3) include metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4 and and MOS interconnected The metal-oxide-semiconductor Q8 that the pole G of pipe Q3 is connected with the pole G of metal-oxide-semiconductor Q4, the pole S of metal-oxide-semiconductor Q3 are connected with the pole S of metal-oxide-semiconductor Q4, the metal-oxide-semiconductor The pole D of Q4 connects the battery (2), and the pole D of metal-oxide-semiconductor Q3 connects the AC-DC constant-current supply unit (1), metal-oxide-semiconductor Q8's The pole S connects battery (2) cathode, and the pole G of metal-oxide-semiconductor Q8 connects the MCU control unit (4).

3. the charger of anti-charge contact sparking according to claim 2 and anti-battery reversal connection leakage-current alarm, feature exist In: the model of the metal-oxide-semiconductor Q3 and metal-oxide-semiconductor Q4 is AOD413A.

4. the charger of anti-charge contact sparking according to claim 2 and anti-battery reversal connection leakage-current alarm, feature exist In: the cell voltage detection unit (5) includes resistance R35, the metal-oxide-semiconductor Q9, resistance for being connected in parallel in battery (2) both ends R36, wherein the pole D and the pole S of metal-oxide-semiconductor Q9 is separately connected resistance R35 and resistance R36, described in the pole the G connection of metal-oxide-semiconductor Q9 MCU in MCU control unit (4) controls chip (41).

5. the charger of anti-charge contact sparking according to claim 2 and anti-battery reversal connection leakage-current alarm, feature exist In: the charging current detection unit (7) includes difference amplifier U4, is connected to the first foot of difference amplifier U4 and second Resistance R51 between foot, the resistance R52 and resistance R32 for being connected to the difference amplifier the first foot of U4, it is connected to the differential amplification The resistance R49 of device U4 third foot, resistance R49 connect battery (2) cathode, in the resistance R32 connection MCU control unit (4) MCU control chip (41), the difference amplifier U4 crus secunda connection resistance R50 after be grounded.

6. the charger of anti-charge contact sparking according to claim 2 and anti-battery reversal connection leakage-current alarm, feature exist In: reversal connection voltage detection unit (6) includes diode D22, resistance R66 and the resistance R64 connected with this, the diode The anode of cathode connection battery (2) of D22.

7. the charging of anti-charge contact sparking described in -6 any one and anti-battery reversal connection leakage-current alarm according to claim 1 Device, it is characterised in that: the MCU control unit (4) includes MCU control chip (41), which controls chip (41) and connect institute Cell voltage detection unit (5), charging current detection unit (7), reversal connection voltage detection unit (6) are stated, which controls chip (41) model HT5070.

8. the charger of anti-charge contact sparking according to claim 7 and anti-battery reversal connection leakage-current alarm, feature exist In: the alarm unit (8) includes at least one LED, and the MCU in the LED connection MCU control unit (4) controls core Piece (41).