CN105140438A

CN105140438A - Energy-saving automatic battery powering box

Info

Publication number: CN105140438A
Application number: CN201510533471.3A
Authority: CN
Inventors: 沙建龙; 李光明; 王占伟
Original assignee: BROADLINE ENERGY TECHNOLOGY (SUZHOU) Co Ltd
Current assignee: Xuzhou Jiusheng Electronic Technology Co., Ltd
Priority date: 2015-08-27
Filing date: 2015-08-27
Publication date: 2015-12-09
Anticipated expiration: 2035-08-27
Also published as: CN105140438B

Abstract

The invention relates to an energy-saving automatic powering box which comprises a battery box body (1), a top plate (2), a light source (8), a control module (3), a power source (4), a light sensor (5), an electric control telescopic rod (6), a timing module (10) and an electric control circuit breaker (11), wherein the power source (4), the light sensor (5), the electric control telescopic rod (6), the timing module (10) and the electric control circuit breaker (11) are connected with the control module (3). The light source (8) is connected with an electrode inside the battery box body (1) through the electric control circuit breaker (11). The telescopic rod moving end of the electric control telescopic rod (6) penetrates through a hole (7) formed in the bottom of the battery box body (1) to enter the battery box body (1) and is connected with the lower surface of the top plate (2). The position of the light sensor (5) and the position of the light source (8) are relatively fixed. The detection end of the light sensor (5) is opposite to the light source (8). Damage caused by the liquid leakage phenomenon possibly occurring on a battery to the battery box body (1) can be avoided, and the service life of the battery box body (1) is ensured.

Description

A kind of energy-conservation autonomous type powered battery box

Technical field

The present invention relates to oneplant energy-conservation autonomous type powered battery box, belong to intelligent power technical field.

Background technology

Powered battery box is for loading battery, for load provides the device of electric energy, and according to the power reguirements of connected load, have the powered battery box of respective volume size, along with the continuous innovation of science and technology level, technical staff is also keeping blazing new trails in a pioneering spirit, and have developed that many fail safes are higher, the better powered battery box of performance; Such as number of patent application: 201110207827.6, discloses a kind of battery case, and comprise shell and battery, battery is positioned at shell, and described shell is provided with LED photoflash lamp and LED photoflash lamp switch, and battery is electrically connected with LED photoflash lamp, LED photoflash lamp switch.Described shell comprises box body and lid, and lid mounts cover with it box, is provided with water proof ring between lid and box body.Described lid is provided with two out splice going splices, is provided with fixed cover between out splice going splice and lid.The both sides of described box body are provided with outstanding flute profile perforation.The lid of battery case designed by technique scheme is equipped with multiple LED photoflash lamp, warning and reminding effect can be played to surrounding environment; Between lid and box body, water proof ring is housed, can waterproof; There is fixed cover the wire rod lower end of out splice going splice, can prevent out splice going splice electric wire from pulling out from battery case; Box with it both sides respectively has an outstanding flute profile punch position, is convenient to assembling and is locked on other object.

Also has number of patent application: 201310432375.0, disclose a kind of battery case, comprise rectangular box, three pieces of dividing plates that tray interior is arranged are divided into four compartments, long side plate one is respectively equipped with monotroded fishplate bar one and monotroded fishplate bar two near compartment one and compartment four inboard, monotroded fishplate bar one and monotroded fishplate bar two are equipped with spring and binding post, long side plate one is provided with doubly-linked fishplate bar one near compartment two and compartment three inboard, doubly-linked fishplate bar one is provided with spring near compartment three inboard, is provided with binding post in the middle part of doubly-linked fishplate bar one; Long side plate two is provided with doubly-linked fishplate bar two near compartment one and compartment two inboard, doubly-linked fishplate bar two is provided with spring near compartment two inboard, binding post is provided with in the middle part of doubly-linked fishplate bar two, long side plate two is provided with doubly-linked fishplate bar three near compartment three and compartment four, doubly-linked fishplate bar three is provided with spring near compartment four inboard, is provided with binding post in the middle part of doubly-linked fishplate bar three.The battery case of technique scheme design, connect different binding post and obtain different voltage, structural design is compact, easy to use.

Moreover, the patent No.: 201420068534.3, discloses a kind of battery case, it comprises box body and cover plate, described box body is for holding battery, and this box body comprises the first insulation shell, spring and the first conducting strip, wherein the first insulation shell is provided with the first stop block.Described cover plate is pivotably connected to described box body, and relative between the primary importance of box body and the second place slidably, this cover plate comprises the second insulation shell, the second conducting strip, the second stop block.Wherein, when cover plate is in primary importance relative to box body, the first stop block blocks the second stop block and cover plate can not be rotated relative to box body, when cover plate is in the second place relative to box body, first stop block and the second stop block stagger, and cover plate can be rotated relative to box body.The battery case of technique scheme design has and has more versatility, and structure is simple, simple operation and other advantages.

As can be seen from above-mentioned prior art battery case, research staff makes battery case have better effect by various design, but in actual use, it is anti-that existing battery case still also exists ground not fully up to expectations, as everyone knows, the battery of long storage time, likely there is the phenomenon of leakage, so, not only battery self cannot re-use and power, and its liquid spilt can have influence on surrounding environment, if this wherein battery be positioned over the words in battery case, the liquid so spilt will corrosion electrode, once electrode is by corrosion, so battery case just loses the function of its power supply, because the object of battery case is exactly for load provides electric energy, therefore, when battery does not have electricity, just need in time battery to be taken out by battery case, leakage destroys battery case to avoid battery to occur.

Summary of the invention

For above-mentioned technical problem, technical problem to be solved by this invention is to provide one and improves for existing battery pack structure, Intelligent Measurement electric control gear is introduced in design, by Intelligent Measurement, Based Intelligent Control, the energy-conservation autonomous type powered battery box that battery leakage damages battery case effectively can be avoided.

The present invention is in order to solve the problems of the technologies described above by the following technical solutions: the present invention devises a kind of energy-conservation autonomous type powered battery box, comprise battery case body, the two sides that battery case body interior is corresponding with battery arrange electrode respectively, electrode is connected with external load through wire, and the upper surface of battery case body opens wide; Also comprise top board, light source, control module, and be connected with control module respectively power supply, photosensitive sensors, automatically controlled expansion link, timing module, automatically controlled circuit breaker; Power supply is respectively photosensitive sensors through control module, automatically controlled expansion link, timing module, automatically controlled circuit breaker are powered; Light source to be connected with the electrode of battery case body interior through automatically controlled circuit breaker and to carry out power taking; The bottom of battery case body arranges perforate, and the motor of automatically controlled expansion link is arranged on the below of battery case body, and position is fixed, and the expansion link mobile terminal of automatically controlled expansion link enters battery case body interior through the bottom opening of battery case body; The size of top board and the size of battery case body bottom portion adapt, the lower surface of top board is connected with the expansion link mobile terminal of automatically controlled expansion link, and top board parallel with battery case body bottom portion be positioned at battery case body interior, top board, under the control of automatically controlled expansion link, moves up and down in battery case body interior; The expansion link mobile terminal of automatically controlled expansion link is more than or equal to the height of battery case body interior in the displacement of battery case body interior; The position of photosensitive sensors and the position of light source fixed relative to one another, and the test side of photosensitive sensors is relative with light source.

As a preferred technical solution of the present invention: also comprise detector tube, described photosensitive sensors and light source are arranged in detector tube.

As a preferred technical solution of the present invention: the closed at both ends of described detector tube, and detector tube close both ends of the surface on through hole is set respectively, the internal diameter of through hole and the external diameter of wire adapt, described photosensitive sensors and light source are separately positioned on the two ends in detector tube, and photosensitive sensors is connected with described control module by the through hole on the wire after testing corresponding one side closed end face of pipe, and described light source is connected with the electrode of described battery case body interior by the through hole on the wire after testing corresponding one side closed end face of pipe.

As a preferred technical solution of the present invention: described detector tube adopts light screening material to make.

As a preferred technical solution of the present invention: described automatically controlled expansion link is Mini electric expansion link.

As a preferred technical solution of the present invention: the motor of described automatically controlled expansion link is brushless electric machine.

As a preferred technical solution of the present invention: described control module is single-chip microcomputer.

As a preferred technical solution of the present invention: described power supply is button cell.

One of the present invention energy-conservation autonomous type powered battery box adopts above technical scheme compared with prior art, has following technique effect:

(1) the energy-conservation autonomous type powered battery box of the present invention's design, improve for existing battery pack structure, Intelligent Measurement electric control gear is introduced in design, by the Combination Design of light source and photosensitive sensors, make control module with reference to the timing result of timing module, the automatically controlled circuit breaker of Based Intelligent Control carries out work, control light source performance period and carry out power taking by the battery in battery case body, make designed energy-conservation autonomous type powered battery box reach energy-conservation object in the course of work, to avoid affecting in battery case body battery for the normal power supply of connected load; And along with the detection of photosensitive sensors for light-source brightness, judge whether the battery in battery case body has electricity, and on this basis, realize Based Intelligent Control for automatically controlled expansion link, when dead battery cannot continue as load power, timely controlroof moves, battery is ejected by battery case body, the phenomenon of leakage avoiding battery to occur, causes the destruction to battery case body, effectively ensure that the useful life of battery case body;

(2) in the energy-conservation autonomous type powered battery box that the present invention designs, for the Combination Design of light source and photosensitive sensors, detector tube is introduced in further design, light source and photosensitive sensors are placed in one, can ensure light that light source sends in time capture by photosensitive sensors, effectively improve accuracy and promptness that photosensitive sensors detects for light-source brightness, and then ensure that the stability of whole design energy-conservation autonomous type powered battery box in real work;

(3) in the energy-conservation autonomous type powered battery box that the present invention designs, for the detector tube for described light source and photosensitive sensors design, further design is by its closed at both ends, and in the both ends of the surface that detector tube is closed, through hole is set respectively, the internal diameter of through hole and the external diameter of wire adapt, again described photosensitive sensors and light source are separately positioned on the two ends in detector tube, then photosensitive sensors is connected with described control module by the through hole on the wire after testing corresponding one side closed end face of pipe, and described light source is connected with the electrode of described battery case body interior by the through hole on the wire after testing corresponding one side closed end face of pipe, and for detector tube, further design adopts light screening material to make, by above-mentioned optimal technical scheme, can ensure light that light source sends completely and in time capture by photosensitive sensors, effectively improve accuracy and promptness that photosensitive sensors detects for light-source brightness further, and then more ensure that the stability of whole design energy-conservation autonomous type powered battery box in real work,

(4) in the energy-conservation autonomous type powered battery box that the present invention designs, for automatically controlled expansion link, further design adopts Mini electric expansion link, control the designed volume detected shared by electric control gear to greatest extent, as much as possible ensure the terseness of designed energy-conservation autonomous type powered battery box structure; And for the motor in automatically controlled expansion link, further design adopts brushless electric machine, the energy-conservation autonomous type powered battery box that the present invention is designed is in practical work process, quiet work can be realized, both ensure that the real-time measure and control function that designed energy-conservation autonomous type powered battery box has, can ensure that again its course of work does not impact surrounding environment, embodies the human oriented design in design process;

(5) in the energy-conservation autonomous type powered battery box that the present invention designs, for control module, design adopts single-chip microcomputer further, can be applicable to the expansion demand of later stage for energy-conservation autonomous type powered battery box on the one hand, on the other hand, succinct control architecture mode can be convenient to the maintenance in later stage;

(6) in the energy-conservation autonomous type powered battery box that the present invention designs, for power supply, further design adopts button cell, the use of button cell, effectively can control the designed overall volume detecting electric control gear, while guarantee has designed function, further ensure the terseness of designed energy-conservation autonomous type powered battery box structure.

Accompanying drawing explanation

Fig. 1 is the structural representation that the present invention designs energy-conservation autonomous type powered battery box.

Wherein, 1. battery case body, 2. top board, 3. control module, 4. power supply, 5. photosensitive sensors, 6. automatically controlled expansion link, 7. perforate, 8. light source, 9. detector tube, 10. timing module, 11. automatically controlled circuit breakers.

Embodiment

Be described in further detail for the specific embodiment of the present invention below in conjunction with Figure of description.

As shown in Figure 1, the one energy-conservation autonomous type powered battery box of the present invention's design, comprises battery case body 1, and the two sides that battery case body 1 is inner corresponding with battery arrange electrode respectively, electrode is connected with external load through wire, and the upper surface of battery case body 1 opens wide; Also comprise top board 2, light source 8, control module 3, and be connected with control module 3 respectively power supply 4, photosensitive sensors 5, automatically controlled expansion link 6, timing module 10, automatically controlled circuit breaker 11; Power supply 4 is respectively photosensitive sensors 5 through control module 3, automatically controlled expansion link 6, timing module 10, automatically controlled circuit breaker 11 are powered; Light source 8 to be connected with the electrode of battery case body 1 inside through automatically controlled circuit breaker 11 and to carry out power taking; The bottom of battery case body 1 arranges perforate 7, and the motor of automatically controlled expansion link 6 is arranged on the below of battery case body 1, and position is fixed, and it is inner that the expansion link mobile terminal of automatically controlled expansion link 6 enters battery case body 1 through the bottom opening 7 of battery case body 1; Size bottom the size of top board 2 and battery case body 1 adapts, the lower surface of top board 2 is connected with the expansion link mobile terminal of automatically controlled expansion link 6, and top board 2 with parallel bottom battery case body 1 to be positioned at battery case body 1 inner, top board 2, under the control of automatically controlled expansion link 6, moves up and down in battery case body 1 inside; The expansion link mobile terminal of automatically controlled expansion link 6 is more than or equal to the height of battery case body 1 inside in the displacement of battery case body 1 inside; The position of photosensitive sensors 5 and the position of light source 8 fixed relative to one another, and the test side of photosensitive sensors 5 is relative with light source 8.The energy-conservation autonomous type powered battery box of technique scheme design, improve for existing battery pack structure, Intelligent Measurement electric control gear is introduced in design, by the Combination Design of light source 8 and photosensitive sensors 5, make control module 3 with reference to the timing result of timing module 10, the automatically controlled circuit breaker 11 of Based Intelligent Control carries out work, control light source 8 performance period and carry out power taking by the battery in battery case body 1, designed energy-conservation autonomous type powered battery box is made to reach energy-conservation object in the course of work, to avoid affecting in battery case body 1 battery for the normal power supply of connected load, and along with the detection of photosensitive sensors 5 for light source 8 brightness, judge whether the battery in battery case body 1 has electricity, and on this basis, realize Based Intelligent Control for automatically controlled expansion link 6, when dead battery cannot continue as load power, timely controlroof 2 moves, battery is ejected by battery case body 1, the phenomenon of leakage avoiding battery to occur, causes the destruction to battery case body 1, effectively ensure that the useful life of battery case body 1.

On basis based on above-mentioned design energy-conservation autonomous type powered battery box technical scheme, the present invention also devises following optimal technical scheme further: for the Combination Design of light source 8 and photosensitive sensors 5, detector tube 9 is introduced in further design, light source 8 and photosensitive sensors 5 are placed in one, can ensure light that light source 8 sends in time capture by photosensitive sensors 5, effectively improve accuracy and promptness that photosensitive sensors 5 detects for light source 8 brightness, and then ensure that the stability of whole design energy-conservation autonomous type powered battery box in real work; But also for detector tube 9, further design is by its closed at both ends, and in the both ends of the surface that detector tube 9 is closed, through hole is set respectively, the internal diameter of through hole and the external diameter of wire adapt, again described photosensitive sensors 5 and light source 8 are separately positioned on the two ends in detector tube 9, then photosensitive sensors 5 is connected with described control module 3 by the through hole on the wire after testing corresponding one side closed end face of pipe 9, and described light source 8 is connected with the electrode of described battery case body 1 inside by the through hole on the wire after testing corresponding one side closed end face of pipe 9; And for detector tube 9, further design adopts light screening material to make, by above-mentioned optimal technical scheme, can ensure light that light source 8 sends completely and in time capture by photosensitive sensors 5, effectively improve accuracy and promptness that photosensitive sensors 5 detects for light source 8 brightness further, and then more ensure that the stability of whole design energy-conservation autonomous type powered battery box in real work; Also have for automatically controlled expansion link 6, design adopts Mini electric expansion link further, controls the designed volume detected shared by electric control gear to greatest extent, as much as possible ensures the terseness of designed energy-conservation autonomous type powered battery box structure; And for the motor in automatically controlled expansion link 6, further design adopts brushless electric machine, the energy-conservation autonomous type powered battery box that the present invention is designed is in practical work process, quiet work can be realized, both ensure that the real-time measure and control function that designed energy-conservation autonomous type powered battery box has, can ensure that again its course of work does not impact surrounding environment, embodies the human oriented design in design process; Also have for control module 3, design adopts single-chip microcomputer further, and can be applicable to the expansion demand of later stage for energy-conservation autonomous type powered battery box on the one hand, on the other hand, succinct control architecture mode can be convenient to the maintenance in later stage; Moreover, for power supply 4, design adopts button cell further, the use of button cell, effectively can control the designed overall volume detecting electric control gear, while guarantee has designed function, further ensure the terseness of designed energy-conservation autonomous type powered battery box structure.

Designed by the present invention, energy-conservation autonomous type powered battery box is in the middle of actual application, comprise battery case body 1, the two sides that battery case body 1 is inner corresponding with battery arrange electrode respectively, and electrode is connected with external load through wire, and the upper surface of battery case body 1 opens wide, also comprise top board 2, light source 8, detector tube 9, single-chip microcomputer, and be connected with single-chip microcomputer respectively button cell, photosensitive sensors 5, Mini electric expansion link, timing module 10, automatically controlled circuit breaker 11, button cell is respectively photosensitive sensors 5 through single-chip microcomputer, Mini electric expansion link, timing module 10, automatically controlled circuit breaker 11 are powered, detector tube 9 adopts light screening material to make, the motor of Mini electric expansion link is brushless electric machine, light source 8 to be connected with the electrode of battery case body 1 inside through automatically controlled circuit breaker 11 and to carry out power taking, the bottom of battery case body 1 arranges perforate 7, and the motor of Mini electric expansion link is arranged on the below of battery case body 1, and position is fixed, and it is inner that the expansion link mobile terminal of Mini electric expansion link enters battery case body 1 through the bottom opening 7 of battery case body 1, size bottom the size of top board 2 and battery case body 1 adapts, the lower surface of top board 2 is connected with the expansion link mobile terminal of Mini electric expansion link, and top board 2 with parallel bottom battery case body 1 to be positioned at battery case body 1 inner, top board 2, under the control of Mini electric expansion link, moves up and down in battery case body 1 inside, the expansion link mobile terminal of Mini electric expansion link is more than or equal to the height of battery case body 1 inside in the displacement of battery case body 1 inside, the closed at both ends of detector tube 9, and the both ends of the surface closed of detector tube 9 arrange through hole respectively, the internal diameter of through hole and the external diameter of wire adapt, photosensitive sensors 5 and light source 8 are separately positioned on the two ends in detector tube 9, and the position of the position of photosensitive sensors 5 and light source 8 is fixed relative to one another, the test side of photosensitive sensors 5 is relative with light source 8, photosensitive sensors 5 is connected with described single-chip microcomputer by the through hole on the wire after testing corresponding one side closed end face of pipe 9, and described light source 8 is connected with the electrode of described battery case body 1 inside by the through hole on the wire after testing corresponding one side closed end face of pipe 9.In actual use, it is inner that battery is arranged on battery case body 1, electrode through two ends is that external load is powered, meanwhile, power taking is carried out because light source 8 to be connected with the electrode of battery case body 1 inside through automatically controlled circuit breaker 11, and single-chip microcomputer respectively with timing module 10, automatically controlled circuit breaker 11 is connected, therefore, single-chip microcomputer is according to preset time period, with reference to the real-time timing result of timing module 10, the automatically controlled circuit breaker 11 of periodic Control and photosensitive sensors 5 work Preset Time at preset timed intervals, wherein, when the timing result of timing module 10 reaches preset time period, the automatically controlled circuit breaker 11 of Single-chip Controlling works closed, be communicated with the circuit between light source 8 and battery case body 1 internal electrode, and control photosensitive sensors 5 is started working, then when single-chip microcomputer controls automatically controlled circuit breaker 11 closing time with reference to timing module 10, photosensitive sensors 5 operating time is when reaching Preset Time, single-chip microcomputer again controls automatically controlled circuit breaker 11 and to quit work disconnection, disconnect the circuit between light source 8 and battery case body 1 internal electrode, and control photosensitive sensors 5 quits work, thus, single-chip microcomputer is with reference to above-mentioned control method, according to the timing result of timing module 10, the automatically controlled circuit breaker 11 of periodic Control and photosensitive sensors 5 work, and in the cycling process of automatically controlled circuit breaker 11 and photosensitive sensors 5, because photosensitive sensors 5 and light source 8 are arranged in detector tube 9, and the test side of photosensitive sensors 5 is relative with light source 8, therefore, photosensitive sensors 5 detects for light source 8, and is uploaded in the middle of single-chip microcomputer by testing result, then, single-chip microcomputer carries out analysis for received testing result and judges, operates further, wherein, when single-chip microcomputer is according to the testing result received, judge that light source 8 is working luminescence, then single-chip microcomputer judges that the battery of now battery case body 1 inside has electricity thus further, can continue as load when powering, then single-chip microcomputer does not then do any further operation, otherwise when single-chip microcomputer is according to the testing result received, judge that light source 8 now quits work, then single-chip microcomputer judges that the battery of now battery case body 1 inside does not have electricity thus further, load cannot be continued as when powering, the Mini electric expansion link that then single-chip microcomputer controls to be attached thereto immediately is started working, the work of Mini electric expansion link makes its expansion link extend, because top board 2 is under the control of Mini electric expansion link, move up and down in battery case body 1 inside, and the expansion link mobile terminal of Mini electric expansion link is more than or equal to the height of battery case body 1 inside in the displacement of battery case body 1 inside, therefore, the work of Mini electric expansion link makes its expansion link extend, by top board 2 upwards jack-up, then be placed in the battery of battery case body 1 inside under the effect of top board 2, be ejected battery case body 1, like this, just effectively prevent the phenomenon of leakage that battery may occur, cause the destruction to battery case body 1, ensure that the useful life of battery case body 1.

Be explained in detail for embodiments of the present invention in conjunction with Figure of description above, but the present invention is not limited to above-mentioned execution mode, in the ken that those of ordinary skill in the art possess, can also make a variety of changes under the prerequisite not departing from present inventive concept.

Claims

1. an energy-conservation autonomous type powered battery box, comprises battery case body (1), and the two sides that battery case body (1) is inner corresponding with battery arrange electrode respectively, and electrode is connected with external load through wire, and the upper surface of battery case body (1) opens wide; It is characterized in that: also comprise top board (2), light source (8), control module (3), and be connected with control module (3) respectively power supply (4), photosensitive sensors (5), automatically controlled expansion link (6), timing module (10), automatically controlled circuit breaker (11); Power supply (4) is respectively photosensitive sensors (5) through control module (3), automatically controlled expansion link (6), timing module (10), automatically controlled circuit breaker (11) are powered; Light source (8) is connected through the electrode that automatically controlled circuit breaker (11) is inner with battery case body (1) and carries out power taking; The bottom of battery case body (1) arranges perforate (7), the motor of automatically controlled expansion link (6) is arranged on the below of battery case body (1), and position is fixed, it is inner that the expansion link mobile terminal of automatically controlled expansion link (6) enters battery case body (1) through the bottom opening (7) of battery case body (1); The size of the size of top board (2) and battery case body (1) bottom adapts, the lower surface of top board (2) is connected with the expansion link mobile terminal of automatically controlled expansion link (6), and top board (2) and battery case body (1) bottom parallel to be positioned at battery case body (1) inner, top board (2), under the control of automatically controlled expansion link (6), moves up and down in battery case body (1) inside; The expansion link mobile terminal of automatically controlled expansion link (6) is more than or equal to the inner height of battery case body (1) in the displacement that battery case body (1) is inner; The position of photosensitive sensors (5) and the position of light source (8) fixed relative to one another, and the test side of photosensitive sensors (5) is relative with light source (8).

2. a kind of energy-conservation autonomous type powered battery box according to claim 1, it is characterized in that: also comprise detector tube (9), described photosensitive sensors (5) and light source (8) are arranged in detector tube (9).

3. a kind of energy-conservation autonomous type powered battery box according to claim 2, it is characterized in that: the closed at both ends of described detector tube (9), and detector tube (9) close both ends of the surface on through hole is set respectively, the internal diameter of through hole and the external diameter of wire adapt, described photosensitive sensors (5) and light source (8) are separately positioned on the two ends in detector tube (9), and the through hole that photosensitive sensors (5) is managed on (9) corresponding one side closed end face after testing by wire is connected with described control module (3), and the through hole that described light source (8) is managed on (9) corresponding one side closed end face after testing by wire is connected with the electrode of described battery case body (1) inside.

4. a kind of energy-conservation autonomous type powered battery box according to Claims 2 or 3, is characterized in that: described detector tube (9) adopts light screening material to make.

5. a kind of energy-conservation autonomous type powered battery box according to claim 1, is characterized in that: described automatically controlled expansion link (6) is Mini electric expansion link.

6. a kind of energy-conservation autonomous type powered battery box according to claim 1, is characterized in that: the motor of described automatically controlled expansion link (6) is brushless electric machine.

7. a kind of energy-conservation autonomous type powered battery box according to claim 1, is characterized in that: described control module (3) is single-chip microcomputer.

8. a kind of energy-conservation autonomous type powered battery box according to claim 1, is characterized in that: described power supply (4) is button cell.