CN103943798A

CN103943798A - Conversion bracket for converting AAA battery to 6F22 battery

Info

Publication number: CN103943798A
Application number: CN201410194493.7A
Authority: CN
Inventors: 廖建勋
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-05-09
Filing date: 2014-05-09
Publication date: 2014-07-23

Abstract

The invention discloses a conversion bracket for converting an AAA battery to a 6F22 battery. The conversion bracket comprises a shell, a battery holder and a conversion circuit, wherein the battery holder and the conversion circuit are arranged in the shell, the battery holder is electrically connected with the input end of the conversion circuit, the shell is provided with interfaces, the shape of the shell and the interfaces are the same as those of the 6F22 battery, and the interfaces are electrically connected with the output end of the conversion circuit. With the adoption of the conversion bracket, as the shape of the shell and the interfaces are the same as those of the 6F22 battery and the shell and the interfaces are matched with the conversion circuit in the shell to convert the voltage of 1.0-1.6 V of the AAA battery to 9-9.6 V in a boosting way, the conversion from the AAA battery to the 6F22 battery is completed; the AAA battery, which is needed only, is low in cost and is easy to buy, the cost of a rechargeable AAA battery is less than one tenth of that of a rechargeable 6F22 battery, the self-discharge rate of the rechargeable AAA battery is low, the electric quantity of a low self-discharge type rechargeable AAA battery can still keep 80 percent after working for one year basically, and the conversion bracket is convenient to use and brings more convenience to a user.

Description

No. 7 batteries are converted to the conversion support of 6F22 battery

Technical field

The present invention relates to field of batteries technology, refer in particular to a kind of No. 7 batteries and be converted to the conversion support of 6F22 battery.

Background technology

9V carbon battery, is called again 6F22 layer-built battery, and it is normally formed by the battery stack of 6 oval small-sized sheets, can utilize to greatest extent battery space.Because be common carbon battery, evaluate the discharge performance of this battery, be preferably placed under actual environment for use performance can be better described.Be applicable to little electric current, intermittent operational environment.This battery may leakage after using for a long time.

6F22 battery uses in a large number in electronic measurements and daily wireless transmission product, but capacity is low, and the life-span is short, and price is high and be not easy to buy.Charge type 6F22 price is high, and self-discharge rate is high, and stand-by time is short, within basic one month, will charge, and it is very inconvenient that product uses.

Summary of the invention

In view of this, the present invention is directed to the disappearance of prior art existence, its main purpose is to provide a kind of No. 7 batteries and is converted to the conversion support of 6F22 battery, and it can effectively solve that existing 6F22 battery capacity is low, the life-span is short, price is high and be not easy to buy and cause product inconvenient problem with use.

For achieving the above object, the present invention adopts following technical scheme:

A kind of No. 7 batteries are converted to the conversion support of 6F22 battery, include shell, for the battery tray of No. 7 batteries being installed and for the change-over circuit that is 9V～9.6V by 1.0V～1.6V boost conversion of No. 7 batteries, battery tray and change-over circuit are all arranged at enclosure, the input of battery tray and change-over circuit is electrically connected, on this shell, be provided with interface, the profile of shell is identical with 6F22 battery with interface, and the output of interface and change-over circuit is electrically connected.

Preferably, described change-over circuit includes booster circuit and testing circuit, and this booster circuit is connected between battery tray and interface, and this testing circuit is connected between interface and booster circuit.

Preferably, described booster circuit includes triode Q1, transformer T1, resistance R 1, capacitor C 1, triode Q2, diode D1, voltage stabilizing didoe ZD1 and capacitor C 2, and this testing circuit includes resistance R 2 and triode Q3, one end of base stage contact resistance R2 of this triode Q1 and the input of voltage stabilizing didoe ZD1, the emitter of triode Q1 connects the positive pole of battery tray, one end of the collector electrode contact resistance R1 of triode Q1, the other end of resistance R 1 connects one end of capacitor C 1 and the base stage of triode Q2, the two ends of the input side of the T1 of transformer connect respectively the other end of capacitor C 1 and the positive pole of battery tray, one end of the outlet side of transformer T1 connects the positive pole of battery tray, the other end of the outlet side of transformer T1 connects the input of diode D1 and the collector electrode of triode Q2, the emitter of triode Q2 connects the negative pole of battery tray, the positive pole of the equal connecting interface of output of the output of diode D1 and voltage stabilizing didoe ZD1, the positive pole of one end connecting interface of capacitor C 2, the other end of capacitor C 2 connects the negative pole of battery tray, the collector electrode of the other end connecting triode Q3 of resistance R 2, the emitter of triode Q3 connects the negative pole of battery tray, the negative pole of the base stage connecting interface of triode Q3.

Preferably, the model of described triode Q1 is S8550, the model of this triode Q2 and triode Q3 is S8050, the model of this diode D1 is 1N4148, and voltage stabilizing didoe ZD1 rated voltage is 9V, and the size of this resistance R 1 is 47 ohm, the size of resistance R 2 is 3000 ohm, the capacitance of capacitor C 1 is 4700pF, and the capacitance of capacitor C 2 is 47 μ F, and the rated voltage of capacitor C 2 is 16V.

The present invention compared with prior art has obvious advantage and beneficial effect, particularly, and as shown from the above technical solution:

By shell and Interface design are to identical with 6F22 battery, and to coordinate the change-over circuit in shell be 9V～9.6V by 1.0V～1.6V boost conversion of No. 7 batteries, complete the conversion to 6F22 battery of No. 7 batteries, the present invention only needs to use battery No. 7, No. 7 batteries are cheap, buy easily, No. 7 rechargeable battery prices are less than 1/10 of the 6F22 of charge type, and self-discharge rate is low, low self-discharge type can also keep 80% electric weight in basic 1 year, product is easy to use, thereby brings more facility for user.

For more clearly setting forth architectural feature of the present invention and effect, below in conjunction with accompanying drawing and specific embodiment, the present invention is described in detail.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention's preferred embodiment;

Fig. 2 is the circuit theory signal framework of the present invention's preferred embodiment;

Fig. 3 is the circuit structure diagram of the present invention's preferred embodiment.

Accompanying drawing identifier declaration:

10, shell 20, battery tray

30, change-over circuit 31, booster circuit

32, testing circuit 40, interface

50, No. 7 batteries

Embodiment

Please refer to shown in Fig. 1 to Fig. 3, the concrete structure that it has demonstrated the present invention's preferred embodiment, includes shell 10, battery tray 20 and change-over circuit 30.

Wherein, as shown in Figure 1, on this shell 10, be provided with interface 40, interface 40 is for connecting load, and the profile of shell 10 is identical with 6F22 battery with interface 40.This battery tray 20 and change-over circuit 30 are all arranged at shell 10 inside, this battery tray 20 is for installing battery 50 No. 7, this change-over circuit 30 is for being 9V～9.6V by 1.0V～1.6V boost conversion of No. 7 batteries 50, this battery tray 20 is electrically connected with the input of change-over circuit 30, and interface 40 is electrically connected with the output of change-over circuit 30.

In the present embodiment, this change-over circuit 30 includes booster circuit 31 and testing circuit 32, this booster circuit 31 is connected between battery tray 20 and interface 40, this testing circuit 32 is connected between interface 40 and booster circuit 31, whether this testing circuit 32 accesses for detection of load, if load access, starts booster circuit 31, if load does not access, close booster circuit 31, to reduce battery loss.

Particularly, as shown in Figures 2 and 3, this booster circuit 31 includes triode Q1, transformer T1, resistance R 1, capacitor C 1, triode Q2, diode D1, voltage stabilizing didoe ZD1 and capacitor C 2, and this testing circuit 32 includes resistance R 2 and triode Q3, one end of base stage contact resistance R2 of this triode Q1 and the input of voltage stabilizing didoe ZD1, the emitter of triode Q1 connects battery tray 20(and in the time that battery tray 20 is installed No. 7 batteries 50, forms input power) positive pole, one end of the collector electrode contact resistance R1 of triode Q1, the other end of resistance R 1 connects one end of capacitor C 1 and the base stage of triode Q2, the two ends of the input side of the T1 of transformer connect respectively the other end of capacitor C 1 and the positive pole of battery tray 20, one end of the outlet side of transformer T1 connects the positive pole of battery tray 20, the other end of the outlet side of transformer T1 connects the input of diode D1 and the collector electrode of triode Q2, the emitter of triode Q2 connects the negative pole of battery tray 20, the positive pole of the equal connecting interface of output of the output of diode D1 and voltage stabilizing didoe ZD1, the positive pole of one end connecting interface of capacitor C 2, the other end of capacitor C 2 connects the negative pole of battery tray 20, the collector electrode of the other end connecting triode Q3 of resistance R 2, the emitter of triode Q3 connects the negative pole of battery tray 20, the negative pole of the base stage connecting interface of triode Q3.And in an embodiment, the model of this triode Q1 is S8550, the model of this triode Q2 and triode Q3 is S8050, the model of this diode D1 is 1N4148, voltage stabilizing didoe ZD1 rated voltage is 9V, the model of this resistance R 1 is that 47R(is that the size of R1 is 47 ohm), the model of resistance R 2 be 3K(be resistance R 2 size be 3000 ohm), capacitor C 1 model is that 472(is that the capacitance of capacitor C 1 is 4700pF), the model of capacitor C 2 is that 47 Μ f/16V(are that the capacitance of capacitor C 2 is 47 μ F, the rated voltage of capacitor C 2 is 16V), the element of this booster circuit 31 and testing circuit 32 does not limit to above model and size.

When use, No. 7 batteries 50 are installed on the battery tray 20 in shell 10, No. 7 batteries 50 can be used as the input power of change-over circuit 30, taking No. 7 batteries 50 as 1.5V as example, in the time that interface 40 connects load, this testing circuit detects that load accesses, and booster circuit 31 starts at once, is that 9.6V exports for load by booster circuit 31 by the 1.5V boost conversion of No. 7 batteries 50.When the electric weight of No. 7 batteries 50 exhausts, No. 7 batteries 50 that more renew, product is very easy to use.

Design focal point of the present invention is: by shell and Interface design are to identical with 6F22 battery, and to coordinate the change-over circuit in shell be 9V～9.6V by 1.0V～1.6V boost conversion of No. 7 batteries, complete the conversion to 6F22 battery of No. 7 batteries, the present invention only needs to use battery No. 7, No. 7 batteries are cheap, buy easily, No. 7 rechargeable battery prices are less than 1/10 of the 6F22 of charge type, and self-discharge rate is low, low self-discharge type can also keep 80% electric weight in basic 1 year, product is easy to use, thereby brings more facility for user.

Know-why of the present invention has below been described in conjunction with specific embodiments.These are described is in order to explain principle of the present invention, and can not be interpreted as by any way limiting the scope of the invention.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present invention, within these modes all will fall into protection scope of the present invention.

Claims

1. No. 7 batteries are converted to the conversion support of 6F22 battery, it is characterized in that: include shell, for the battery tray of No. 7 batteries being installed and for the change-over circuit that is 9V～9.6V by 1.0V～1.6V boost conversion of No. 7 batteries, battery tray and change-over circuit are all arranged at enclosure, the input of battery tray and change-over circuit is electrically connected, on this shell, be provided with interface, the profile of shell is identical with 6F22 battery with interface, and the output of interface and change-over circuit is electrically connected.

2. No. 7 batteries as claimed in claim 1 are converted to the conversion support of 6F22 battery, it is characterized in that: described change-over circuit includes booster circuit and testing circuit, this booster circuit is connected between battery tray and interface, and this testing circuit is connected between interface and booster circuit.

3. No. 7 batteries as claimed in claim 2 are converted to the conversion support of 6F22 battery, it is characterized in that: described booster circuit includes triode Q1, transformer T1, resistance R 1, capacitor C 1, triode Q2, diode D1, voltage stabilizing didoe ZD1 and capacitor C 2, this testing circuit includes resistance R 2 and triode Q3, one end of base stage contact resistance R2 of this triode Q1 and the input of voltage stabilizing didoe ZD1, the emitter of triode Q1 connects the positive pole of battery tray, one end of the collector electrode contact resistance R1 of triode Q1, the other end of resistance R 1 connects one end of capacitor C 1 and the base stage of triode Q2, the two ends of the input side of the T1 of transformer connect respectively the other end of capacitor C 1 and the positive pole of battery tray, one end of the outlet side of transformer T1 connects the positive pole of battery tray, the other end of the outlet side of transformer T1 connects the input of diode D1 and the collector electrode of triode Q2, the emitter of triode Q2 connects the negative pole of battery tray, the positive pole of the equal connecting interface of output of the output of diode D1 and voltage stabilizing didoe ZD1, the positive pole of one end connecting interface of capacitor C 2, the other end of capacitor C 2 connects the negative pole of battery tray, the collector electrode of the other end connecting triode Q3 of resistance R 2, the emitter of triode Q3 connects the negative pole of battery tray, the negative pole of the base stage connecting interface of triode Q3.

4. No. 7 batteries as claimed in claim 3 are converted to the conversion support of 6F22 battery, it is characterized in that: the model of described triode Q1 is S8550, the model of this triode Q2 and triode Q3 is S8050, the model of this diode D1 is 1N4148, and voltage stabilizing didoe ZD1 rated voltage is 9V, and the size of this resistance R 1 is 47 ohm, the size of resistance R 2 is 3000 ohm, the capacitance of capacitor C 1 is 4700pF, and the capacitance of capacitor C 2 is 47 μ F, and the rated voltage of capacitor C 2 is 16V.