CN106998097A

CN106998097A - A kind of technology of two battery packs mutual circulation input and output

Info

Publication number: CN106998097A
Application number: CN201610040768.0A
Authority: CN
Inventors: 吉好依轨
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-01-22
Filing date: 2016-01-22
Publication date: 2017-08-01

Abstract

This new technique is main to be completed by two Battery packs mutually switch output and inputted, its method is when the battery pack (101) in two groups is enabled to outside out-put supply, then input current charges another battery pack (102), another battery pack (102) is switched to during etc. battery pack (101) electric quantity consumption to the low battery value set as to outside out-put supply, and battery pack (101) is then changed into input current charging, thus cyclic switching input and output.

Description

A kind of technology of two battery packs mutual circulation input and output

Technical field

The present invention relates to a kind of technology of two battery packs mutual circulation input and output, between more particularly two pairs batteries The technology exported according to its electric quantity signal mutual circulation control input.

Technical background

Now current battery supply power supply technique can not be with battery, wait after charging complete could be after when being all charging Continuous to use, electric automobile is not always the case and other stand-by power supply occasion batteries are not always the case.

The content of the invention

The problem of to solve the above, it is mainly completed by two Battery packs mutually switch output and inputted.Two kinds of realizations Mode, one of which is to realize that intelligent input is defeated after isolation two normally closed self-lockings of control by battery electric quantity signal The method gone out, second is that the input and output to two groups of mutual circulation batteries are completed with mutual lock core chip.

Its method is another group when the one of which in two battery packs is enabled to outside and motor out-put supply Then input current charges battery, is switched to when waiting the electric quantity consumption of the battery pack outwards exported to the low battery value set Another battery pack is output, and previous battery pack is then changed into input current and charged, thus cyclic switching input and output, The electric power detection chip of main two Battery pack detects signal to control to switch between whole switch in the process.

Brief description of the drawings

Accompanying drawing 1 is the schematic diagram of two battery pack mutual circulation input and output.

101. battery pack in figure, 102. battery packs, 103. electric power detection chips, 104. electricity course chips, 105. light coupling relay, 106. normally closed light coupling relays, 107. solid-state relays, 108. solid-state relays, 109. solid-state relay, 110. solid-state relays, 111. power supplys altogether, 112. light coupling relays, 113. normally closed light Coupling relay, 114. solid-state relays, 115. solid-state relays, 116. solid-state relays, 117. solid-state relays Device, 118. voltage-stablizers, 119. charger modules, 120. charging sockets, 121. charging plugs, 122. solar-electricities The power supply of pond plate 123., 124. change, 125. interfaces, 126. voltage-stablizers, 127. voltage-stablizers, 128. rectifier bridges 129. engine, 130. interfaces, boost plate, 132. speed regulators, 133. motor, 134. electric machine controllers, 135.T13050 chips (135), the pin sequence number of 136.T13050 chips, 137. normally closed optocoupler control transitions, 138.T13050 chip controls states, 139. chip structure schematic diagrames, 140. diodes, 141. positive sources, 142. adjustable resistance 50K 3296W, 143.7.5K resistance, 144. battery packs, 145.20K resistance, 146. decompressions Module, 147. power cathodes, 148. negative signals are quoted, and 149. positive poles are quoted, 150. signal off-states, 151. signal conduction states, 152. electricity display chip LM3914N-1,153.LM3914N-1 pin schematic diagrames.

Specific implementation method

The validity of this method is briefly described with reference to accompanying drawing 1, its something in common quotes identical sequence number, accompanying drawing and explanation Book content does not do any restriction to this method.

This new technique is main to be completed by two Battery packs mutually switch output and inputted, and its method is when in two groups Battery pack (101) to outside out-put supply enable when, another battery pack (102) then input current charge, etc. battery pack (101) electric quantity consumption to the low battery value set when be switched to another battery pack (102) as to outside out-put supply, and Battery pack (101) is then changed into input current charging, and thus cyclic switching input and output are main by battery in the process The signal of the electric power detection chip (103) of group (101) and the electric power detection chip (104) of battery pack (102) comes to switch Between switch after complete, its can by the signal of high electricity is come controlling switch, also can the signal of low battery control out Close, this method lists its two methods in fig. 1, divide normally closed optocoupler control transition in fig. 1 at it (136) schematic diagram and the schematic diagram of T13050 chip controls state (137).

Among figure T13050 chip controls state (138) is the battery pack (101) and battery pack (102) of low battery thereon Signal controls the solid-state relay (107) between it, solid-state relay after T13050 chips (135) interlocking (108), solid-state relay (109), solid-state relay (110), solid-state relay (114), solid-state relay (115), solid-state relay (116), the output of the input of solid-state relay (117).

The normally closed optocoupler control transition (137) of its figure below is letter among the battery pack (101) and battery pack (102) of high electricity Controlled after interlocking number by normally closed light coupling relay (106) and normally closed light coupling relay (113) solid-state between it after Electrical equipment (107), solid-state relay (108), solid-state relay (109), solid-state relay (110), solid-state relay (114), solid-state relay (115), solid-state relay (116), the output of the input of solid-state relay (117).

T13050 chips (135) in upper figure are a kind of multifunction switch, the pin sequence number of its T13050 chip (136) 1 pin and 14 pin in are function control ends, and its 1 pin 14 pin of ground connection are interlocking when hanging, and its 4 pin is chip power Positive pole, 11 pin are chip power negative pole, and its 2 and 3 pin is input control end, and its control end low level and negative pole have Effect, its 12 and 13 pin is output end, and it is output as high level, the output of its 2 pin input 13 pin of correspondence, the input of its 3 pin The output of 12 pin of correspondence, after 2 pin low levels input the height output of 13 pin of conducting, its 13 pin enters self-locking state, its Unlocked after the height output for turning on 12 pin must be inputted by 3 pin low levels, its 12 pin enters self-locking state, it is necessary to low by 2 pin Level input conducting 13 pin height output after unlock, thus circulation interlocking, its by other similar functions interlocking IC cores Piece SOP14 is replaced.

The chip of the electric power detection chip (103) and electric power detection chip (104) of battery pack (101) and battery pack (102) It is LM3914N-1, the 2nd pin in its LM3914N-1 pins schematic diagram (153) connects negative pole, and the 3rd pin and the 9th pin connect just Pole, the 4th pin connects 20K resistance (145) and reconnects negative pole, and the 6th and the 7th pin connects a 7.5K resistance (143) together and connect again Ground, the 5th pin meets adjustable resistance 50K 3296W (142), for adjusting electricity display chip LM3914N-1's (152) 1st pin and the 10th to the 18th pin comparator output signal and battery electric quantity ratio contrast, adjustable resistance 50K's 3296W (142) the 1st pin connects negative pole, and the 2nd pin connects electricity display chip LM3914N-1 (152) the 5th pin, the 3rd pin Positive source is connect, the 1st pin drawn from electricity display chip LM3914N-1 (152) adds the 10th to the 18th pin A total of 10 leg signal passages are added up, the passage of each leg signal represents the 10% of battery electric quantity, and 10 are drawn Pin signalling channel represents electricity from 0% to 100%, therefore the dump energy of battery is very clear, in use, by battery After fully charged, with adjustable resistance 50K 3296W (142) by the conducting of 10 pin signals, LED all lights, after enable Battery electric quantity progressively declines with than regular meeting from the 10th pin to the order of 18 pins, and the 1st pin is that most bottom level represents battery Electricity residue 10%

Its content includes battery pack (102), electric power detection chip (103), electricity course chip (104), optocoupler relay Device (105), normally closed light coupling relay (106), solid-state relay (107), solid-state relay (108), solid-state relay Device (109), solid-state relay (110), power supply altogether (111), light coupling relay (112), normally closed light coupling relay (113), solid-state relay (114), solid-state relay (115), solid-state relay (116), solid-state relay (117), voltage-stablizer (118), charger module (119), charging socket (120), charging plug (121), the sun Can cell panel (122), power supply (123), replacing (124), interface (125), voltage-stablizer (126), voltage-stablizer (127), rectifier bridge (128), generator (129), interface (130), boosting plate (131), speed regulator (132), electricity Motivation (133), electric machine controller (134) is completed after T13050 chips (135) combination.

Claims

1. a kind of technology of two battery packs mutual circulation input and output, it is characterised in that this new technique is main by two Battery pack, which mutually switches output and inputted, to be completed, its method be its method be when the one of which in two battery packs to When outside and motor out-put supply is enabled, then input current charges another Battery pack, waits the battery outwards exported Another battery pack is switched to when the electric quantity consumption of group is to the low battery value set as output, and previous battery pack is then changed into Input current charges, the electric power detection chip of thus cyclic switching input and output, in the process main two Battery pack Detect signal to control to switch between whole switch, it there are two kinds of control methods, the first is with the battery of high electricity Interlocking of the group electric quantity signal Jing Guo two normally closed light coupling relays controlled all switches later, used low battery second Battery electric quantity signal interlocked by a mutual lock core chip and controlled all switches later.

2. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described Two battery packs in a kind of technology of two battery packs mutual circulation input and output, it distinguishes two independent battery packs, often The battery of individual battery pack can be connected or be composed in parallel by multiple batteries, and it can also be made up of single battery.

3. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described This new technique is main by two Battery packs mutually switch output and input come the mutual switching in completing, and it mutually switches By eight relay groups into, open four patterns closed with four and alternate switching, its switching signal have two interlocking optocouplers Control or interlocking chip controls.

4. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described Deng the battery pack outwards exported electric quantity consumption to the low battery value set when be switched to another battery pack as output in The low battery value of setting, its charge value can as needed in the ratio of percentage preset after quote this method in.

5. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described The electric power detection chip of main two Battery pack detects signal come in controlling to switch between entirely switching in the process Detection chip detects signal, and it can be detected from any methods during percentage result refers to this method.

6. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described The first interlocking with the battery electric quantity signal of high electricity Jing Guo two normally closed light coupling relays controlled all later The interlocking of normally closed light coupling relay in switch, it is characterised in that the principle phase turned on normally closed relay no signal Interlocking is realized after mutual cross-over control.

7. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described The first interlocking with the battery electric quantity signal of high electricity Jing Guo two normally closed light coupling relays controlled all later The battery electric quantity signal of high electricity in switch, it passes through for the battery pack signal conduction light coupling relay of high electricity All switches are controlled after the interlocking of normally closed light coupling relay.

8. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described The second battery electric quantity signal with low battery was controlled in all switches later by a mutual lock core chip interlocking Normally closed light coupling relay interlocking, it is characterised in that its interlocking signal by battery electric quantity signal control, can use Switch in any interlocking chip controls this method.

9. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that described The second battery electric quantity signal with low battery was controlled in all switches later by a mutual lock core chip interlocking Low battery battery electric quantity signal, its for low battery the normally closed light coupling relay of battery pack non-mandrel roller so as to Conducting control power supply controls all switches after chip is interlocked again.

10. according to a kind of technology of two battery packs mutual circulation input and output of claim 1, it is characterised in that institute State that this new technique is main to be completed by two Battery packs mutually switch output and inputted, its method is that its method is when two One of which in battery pack to outside and motor out-put supply enable when, then input current fills another Battery pack Electricity, another battery pack is switched to be defeated when waiting the electric quantity consumption of the battery pack outwards exported to the low battery value set Go out, and previous battery pack is then changed into input current and charged, thus cyclic switching input and output, in the process mainly The electric power detection chip of two Battery packs detects signal to control to switch between whole switch, and it has two kinds of controlling parties Method, the first interlocking with the battery electric quantity signal of high electricity Jing Guo two normally closed light coupling relays controlled institute later Some switches, second of battery electric quantity signal with low battery is all by a mutual lock core chip interlocking control later Switch, its be integrally-built composition and methods.