CN201060890Y - Chargeable battery - Google Patents

Abstract

The utility model relates to a rechargeable battery, which is characterized in that a charging circuit and a discharging circuit are integrated onto a circuit board (14); the circuit board (14) is fixed on a protective support (16) and packaged in a battery casing together with an electrical core (1); the protective support (16) comprises a tubular body (161) and a protective partition (162); the circuit board (14) is fixed on the inner side of the protective partition (162); a battery negative electrode (17) is fixed in a concave structure of a battery negative terminal formed outside the protective partition (162); the concave structure can stabilize the positive terminal of a battery connected in series with the battery. The utility model has the advantages of completely avoiding circuit fault caused by pressing the circuit when the battery is used, preventing excessive charging and discharging of the secondary battery, improving stability of the secondary battery and prolonging service life of the battery.

Description

Chargeable battery

Technical field

The utility model relates to supply unit, especially relates to a kind of supply unit that can discharge and recharge.Be applicable to the power supply of portable electron device.

Background technology

Along with the fast development of current IT industry, various IT product normally adopts secondary cells such as chargeable battery, ni-mh, NI-G as its power supply, thereby the chargeable battery demand also constantly increases.

When chargeable battery is under the charged state, if when it is surpassed suitable scope and overcharge, because the decomposition of electrolyte and produce gas and follow heating in the battery will cause the deterioration of battery performance, severe patient can cause battery explosion; On the other hand, as secondary cell, the discharging current and the discharge voltage in its when discharge also should carry out suitable control, preventing over-discharge can so that to reduce the battery life-span itself, therefore, are necessary that to secondary cell setting prevents the protective device of above-mentioned situation.

At above-mentioned technical problem; it is CN200520111201.5 utility application " a kind of rechargeable battery that has protective circuit " that the inventor once proposed application number; it has disclosed a kind of rechargeable battery, and it comprises charging electric core and the circuit that charges and discharge that is connected electric core.The described circuit that charges and discharge contains protective circuit and reduction voltage circuit.Described protective circuit is the combination of excess voltage protection, under voltage protection circuit, circuit overcurrent protection or aforementioned protective circuit.Described reduction voltage circuit is a transistor step-down output circuit.The electric core of described charging is assembled in the battery container after circuit is connected with described charging and discharging, and is respectively arranged with charging negative pole and discharge negative pole.

But still there are some defectives in technique scheme: battery in use; be encapsulated in the extruding that circuit and charge-discharge protection circuit can be subjected to the positive terminal of another battery of being connected in series with this battery that charges and discharge in the battery container; cause the wiring board that charges and discharge circuit to break down easily; thereby influence the useful life of rechargeable battery, this is a problem that urgency is to be solved.

The utility model content

The technical problems to be solved in the utility model is, provides a kind of and prevents that the integrated protective circuit that is encapsulated in the battery case is squeezed in use, and the preventing of stable performance overcharged and the chargeable battery of over-discharge can.

The artificial technical scheme that solves the aforementioned technical problem employing of invention is such:

Design is also made a kind of chargeable battery; comprise: electric core, the positive pole that is used to discharge and recharge and negative pole, include the circuit that charges and discharge of charge-discharge protection circuit and reduction voltage circuit; the described circuit that charges and discharge is integrated on the circuit board, and this circuit board is fixed on the protective stent and with described electric core and is packaged in the battery container.

Described circuit board and protective stent system are packaged in contiguous negative pole one end in the battery container, and described circuit board is connected with described positive pole, negative pole with negative pole nickel sheet by anodal nickel sheet respectively.

Described protective stent comprises cylindrical body and is installed in the interior guard screen of described cylindrical body, described circuit board is fixed on the inboard of described guard screen, described battery cathode is fixed on the outside of described guard screen, described cylindrical body outer end and described battery cathode form the concave structure of battery cathode end, and the positive terminal of this concave structure pair another batteries that is connected in series with this batteries plays stabilization.Because the guard screen of protective stent separates described circuit board and battery cathode; when the positive pole of a batteries of mutual serial connection is conflicted the negative pole of another batteries; guard screen can effectively prevent the roof pressure to circuit board, so can play a protective role to circuit board.

Described this charge-discharge protection circuit comprises excess voltage protection, under voltage protection circuit and circuit overcurrent protection.Described reduction voltage circuit is a transistor step-down output circuit.

Described charge-discharge protection circuit contains li-ion cell protection chip U1, field effect transistor U3-A, U3-B, U4-A, U4-B, and described field effect transistor U3-A and U3-B are connected in series mutually, and their signal input end connects signal output part C0 and the D0 of chip U1 respectively; Field effect transistor U4-A, U4-B are respectively with U3-A, U3-B and connect, and purpose is for increasing carrying load ability.

Described rechargeable battery comprises lithium-ion electric core or the ni-mh electricity core that a joint or more piece are connected in series mutually.

That described chargeable battery can be made as required is cylindrical, cuboid or sheet, changes protection circuit.

Chargeable battery of the present utility model has following advantage:

Can avoid fully battery in use protection circuit be squeezed and line fault occurs, can prevent the phenomenon of overcharging of secondary cell, effectively prevent the decomposition of electrolyte and produce gas, also avoided simultaneously the overdischarge of battery, increase the stability of secondary cell, thereby prolonged battery useful life; Structure is more compact, effectively reduces charging and discharging the circuit occupation space, guarantees that battery has larger capacity.

Description of drawings

Fig. 1 is the functional-block diagram of chargeable battery of the present utility model;

Fig. 2 is the package assembly schematic diagram of chargeable battery of the present utility model;

Fig. 3 is the profile of chargeable battery of the present utility model;

Fig. 4 is the local amplification view of the negative pole end of chargeable battery of the present utility model;

Fig. 5 is the circuit theory diagrams that charge and discharge circuit of chargeable battery of the present utility model.

Wherein, P+ among Fig. 3, P-are battery output and charging end.

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is described.

As shown in Figure 1, chargeable battery of the present utility model comprises: electric core 1, the anode 12 that is used to discharge and recharge and negative pole 17, include the circuit that charges and discharge of charge-discharge protection circuit.

As Fig. 2, shown in Figure 3, the described circuit that charges and discharge is integrated on the circuit board 14, described circuit board 14 is connected with negative pole 17 with anodal 12 with negative pole nickel sheet 15 by anodal nickel sheet 32 respectively, and this circuit board 14 is fixed on the protective stent 16 and with described electrode cores 1 and is packaged in contiguous negative pole 17 ends in the battery container; Be separated with fire prevention gummed paper 31 between lithium electrode core 1 and anodal nickel sheet 32 and the box hat 11.

As shown in Figure 3, Figure 4, described protective stent 16 comprises cylindrical body 161 and is installed in guard screen 162 in the described cylindrical body 161, described circuit board 14 is fixed on the inboard of described guard screen 162, described battery cathode 17 is fixed on the outside of described guard screen 162, described cylindrical body 161 outer ends and described battery cathode 17 form the concave structure of battery cathode end, and the positive terminal of this concave structure pair another batteries that is connected in series with this batteries plays stabilization.Described protective stent 16 can prevent the roof pressure of the positive pole of another batteries to circuit board, and circuit board 14 is played a protective role.

Described rechargeable battery comprises lithium-ion electric core or the ni-mh electricity core that a joint or more piece are connected in series mutually.

Please refer to Fig. 2 and Fig. 5, the vdd terminal of described li-ion cell protection chip connects first pin 141, is connected with anode by metallic conductor; VSS termination second pin 142 is connected with battery cathode 17 by metallic conductor; D0 end and C0 end are connected with field effect transistor respectively and connect second pin 142 and the 3rd pin 143 respectively by the field effect transistor derivation, and wherein second pin 142 is connected with battery cathode.

Because lithium-ion electric core is relatively stricter to voltage request; overcharge and overdischarge all can damage battery; so we have adopted model is the single-unit li-ion cell protection chip U1 (also can use other to have the chip of similar functions) of S8261; by sealing in the break-make that the very little field effect transistor U3-A of two impedances and U3-B control charging and discharging circuit on the circuit charging and discharging, to reach the effect of protection battery.Be to increase carrying load ability, respectively with U3-A, U3-B and connect, its circuit theory diagrams as shown in Figure 5 with field effect transistor U4-A, U4-B.The described protective circuit that charges and discharge circuit contains li-ion cell protection chip U1, field effect transistor U3-A and U3-B, capacitor C 1～C3 and the resistance R 1～R2 that Seiko company model is S8261; Described field effect transistor U3-A and U3-B are connected in series mutually, and their signal input end connects signal output part C0 and the D0 of chip U1 respectively; Field effect transistor U4-A, U4-B are respectively with U3-A, U3-B and connect.

Its operation principle is that the control signal of field effect transistor is by the voltage and the size that charges and discharge the electric current on the circuit of U1 detecting lithium-ion electric core.When electric core overtension, U1 control U2-A disconnects, and stops charging.When electric core brownout or discharging current were excessive, U1 control U2-B disconnected, and stops discharge.Prevent that electric core from overcharging and the purpose of overdischarge thereby reach.So its protective circuit is the combination of overvoltage protection, under voltage protection and overcurrent protection.

Lithium cell voltage generally arrives 4.2V at 3.6V.

The embodiment of the utility model rechargeable battery has following electrical characteristic:

1. lithium-ion electric core parameter: cycle-index: more than 500 times, maximum charging voltage: 4.2V, charging ambient temperature are 0 ℃-45 ℃, and humidity 65% ± 20%, discharge environment temperature are-20 ℃-60 ℃, humidity 65% ± 20%;

2. protective circuit parameter: detection voltage: the 4.325V/CELL that overcharges, releasing voltage: the 4.075V/CELL that overcharges, overdischarge detects voltage: 2.3V/CELL, and voltage: 2.9V/CELL is removed in overdischarge, and overcurrent detects: 7.0A;

1. the static current sinking of full machine is about 6uA;

2. load short circuit protection function is arranged.

Claims (7)

1. chargeable battery comprises: electric core (1), the positive pole (12) that is used to discharge and recharge and negative pole (17), include the circuit that charges and discharge of charge-discharge protection circuit, it is characterized in that:

The described circuit that charges and discharge is integrated on the circuit board (14), and this circuit board (14) is fixed on protective stent (16) and goes up and be packaged in the battery container with described electric core (1).

2. chargeable battery according to claim 1, it is characterized in that: described circuit board (14) and protective stent (16) are to be packaged in contiguous negative pole (17) one ends in the battery container, and described circuit board (14) is connected with negative pole (17) with the positive pole (12) of described battery with negative pole nickel sheet (15) by anodal nickel sheet (32) respectively.

3. chargeable battery according to claim 2, it is characterized in that: described protective stent (16) comprises cylindrical body (161) and is installed in the interior guard screen (162) of described cylindrical body (161), described circuit board (14) is fixed on the inboard of described guard screen (162), described battery cathode (17) is fixed on the outside of described guard screen (162), described cylindrical body (161) outer end and described battery cathode (17) form the concave structure of battery cathode end, and the positive terminal of this concave structure pair another batteries that is connected in series with this batteries plays stabilization.

4. according to claim 1,2 or 3 described chargeable batteries, it is characterized in that: described charge-discharge protection circuit comprises excess voltage protection, under voltage protection circuit and circuit overcurrent protection.

5. according to claim 1,2 or 3 described chargeable batteries, it is characterized in that: described rechargeable battery comprises lithium-ion electric core or the ni-mh electricity core that a joint or more piece are connected in series mutually.

6. chargeable battery according to claim 5, it is characterized in that: described charge-discharge protection circuit contains li-ion cell protection chip U1, field effect transistor U3-A, U3-B, U4-A, U4-B, described field effect transistor U3-A and U3-B are connected in series mutually, and its signal input end connects signal output part CO and the DO of chip U1 respectively; Field effect transistor U4-A, U4-B are respectively with U3-A, U3-B and connect.

7. according to claim 1,2 or 3 described chargeable batteries, it is characterized in that: described chargeable battery can be made cylindrical, cuboid or sheet as required.

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