CN208209574U - Battery simultaneously connects device - Google Patents
Battery simultaneously connects device Download PDFInfo
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- CN208209574U CN208209574U CN201820678518.4U CN201820678518U CN208209574U CN 208209574 U CN208209574 U CN 208209574U CN 201820678518 U CN201820678518 U CN 201820678518U CN 208209574 U CN208209574 U CN 208209574U
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- battery
- charging
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- discharge
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Abstract
The utility model discloses a kind of battery and connects device, is for by battery powered luminescent system.Battery simultaneously connects device and includes multiple battery lines and connect switching device together.Multiple battery lines are for the one-to-one multiple batteries of connection.And connect switching device and connect multiple battery lines, and the multiple battery lines of synchronism switching are to discharge mode, discharge mode be multiple batteries by multiple battery lines discharge electric energy to and connect switching device.The battery of the utility model and connect device can by multiple battery line elasticity increase and reduce number of batteries, and can by and connect switching device stablize battery discharge voltage and current.
Description
Technical field
The utility model relates to battery powdered devices, particularly relate to a kind of alternative electricity increased and reduce number of batteries
Pond simultaneously connects device.
Background technique
By battery powered luminescent system usually according to preset specifications design battery capacity, for example, luminescent system needs
Four hours are used, usual battery capacity is just using the battery capacity for being enough to discharge four hours, to reach hardware and demand
Most preferable economic benefit.
But after the completion of designing or after the completion of installation, because battery capacity and controller are the designs being mutually matched,
Battery capacity is can not to change, and therefore, the battery capacity of luminescent system is can not to change.
In the same manner, after battery functi on damages, indicate that battery storage function is deteriorated or can not charge, luminescent system
It will be unable to be used, therefore, luminescent system must replace battery and corresponding computer hardware.
In other words, traditional battery powered luminescent system is the quantity that can not selectively increase or decrease battery.
In addition, the combination of battery power supply synchronizations multiple for selection at present, must select cell potential phase in Selection of Battery
Close battery in order to avoid influencing charging and discharging function, but is selected battery similar in ability and is difficult in practice.
Utility model content
In view of the above-mentioned deficiency, expand number of batteries the purpose of this utility model is to provide a kind of alternative and ignore
The battery of cell potential simultaneously connects device, can not selectively expand or reduce number of batteries and by battery energy to solve current luminescent system
The problem of power influences, and improve the stability of battery release electric energy.
To reach above-mentioned purpose, the utility model provides a kind of battery and connects device, is for being shone by battery powered
System.Battery simultaneously connects device and includes multiple battery lines and connect switching device together.Multiple battery lines are more for one-to-one connection
A battery.And it connects switching device and connects multiple battery lines, and the multiple battery lines of synchronism switching are to discharge mode, discharge mode
Multiple batteries by multiple battery lines discharge electric energy to and connect switching device.
Wherein, multiple to refer to two or more.Multiple battery line property of can choose expand or reduce number of batteries.
And connect switching device and can make all batteries synchronous discharge with the multiple batteries of synchronism switching to discharge mode, to reach electric discharge electricity
It presses more stable, and extends discharge time, influence caused by more avoidable percentage of batteries dysfunction.
Wherein, each battery line of multiple battery line includes a discharge diode and a battery connector, this is put
The cathode connection of electric diode should and connect switching device, and the anode of the discharge diode connects the battery.
Wherein, should and the multiple battery line of switching device energy synchronism switching be connect to a charge mode, which is
It is charged by multiple battery line to multiple battery.
Wherein, each battery line of multiple battery line includes a charging diode, the anode of the charging diode
Connection should and connect switching device, and the cathode of the charging diode connects the battery, the charging diode and the discharge diode position
In the different paths of the battery line.
Wherein, should and connect switching device includes a control unit, a switch unit and a current detecting unit, the control list
Member connects the switch unit, and controls the switch unit and switch between the charge mode and the discharge mode, the current detecting
Unit connects the switch unit, and detects current value.
Wherein, which includes that multiple uniaxial double incisions are closed, and each uniaxial double passes of cutting include a common joint, one
Charging contacts and an electric discharge contact, multiple uniaxial double common joints closed that cut are to connect the current detecting unit, multiple
Uniaxial double cathode for cutting the electric discharge contact closed and connecting the discharge diode of multiple battery line, multiple uniaxial double cut are closed
Charging contacts connect multiple battery line charging diode anode.
Wherein, should and connect switching device further includes multiple sudden-wave absorbing units, and each battery line respectively includes a charging
Sudden-wave absorbing unit and an electric discharge sudden-wave absorbing unit, the charging sudden-wave absorbing unit connect connecing jointly for the double incision passes of the single shaft
Point and charging contacts, the electric discharge sudden-wave absorbing unit connect the double common joints for cutting pass of the single shaft and electric discharge contact.
Wherein, which includes the resistor and a capacitor being connected in series, which inhales
Receiving unit includes the resistor and a capacitor being connected in series.
Wherein, which has a current circuit to connect the switch unit, which detects the electricity
The current value of Flow Line.
In relation to battery provided by the utility model and detailed configuration, feature, assembling or the usage mode of device are connect, it will be in rear
Continuous embodiment is described by with reference to the drawings and specific embodiments in being described in detail.However, having in the utility model field
Usually intellectual should be able to understand, and specific embodiment cited by the equal detailed description and implementation the utility model is only used for
Illustrate the utility model, not to limit the scope of the patents of the utility model.
Detailed description of the invention
Fig. 1 is the battery of the utility model and connects the block schematic diagram that device is applied to luminescent system.
Fig. 2 is battery and to connect the circuit diagram of device and battery in Fig. 1.
Wherein, appended drawing reference:
10 batteries simultaneously connect 11 battery line of device
111 discharge diode, 113 charging diode
13 and connect 131 control unit of switching device
1311 channel linear voltage regulator 1313P metal-oxide half field effect transistors
1315 diode, 1317 resistor
1319 capacitor, 133 switch unit
1331 uniaxial double cut close 1333 common joints
1335 charging contacts 1337 electric discharge contact
135 current detecting unit, 1351 current circuit
1353 electric current induction amplifier, 1355 resistor
1357 capacitors 137 charging sudden-wave absorbing unit
139 electric discharge 30 luminescent systems of sudden-wave absorbing unit
31 controller, 33 light emitting source
50 battery, 70 charging system
R resistor C capacitor
Specific embodiment
Hereinafter, hereby cooperating each schema to enumerate corresponding preferred embodiment come the battery to the utility model and connecing the composition of device
Component and reach effect to explain.It battery and connects component, size and the appearance of device in right each schema and is only used to illustrate that this is practical
Novel technical characteristic, rather than the utility model is construed as limiting.
As shown in Figure 1, the battery of the utility model and connecing device 10 and connecting battery powered luminescent system 30 and four batteries
50, battery 50 can be the battery of rechargeable batteries or not reproducible charging.In other embodiments, 50 quantity of battery can
With more or less, less situation is two or three, more then may be greater than four.
Luminescent system 30 such as indicator light, street lamp, Landscape Lamp, street pedlar's lamp, commercial light other pass through battery powered system
System.In addition, luminescent system 30 is in combination with charging system 70, such as solar power system, wind generator system or other energy hairs
The system of electricity, charging system 70, which can pass through the controller 31 and battery of luminescent system 30 and connect device 10, charges to battery 50.At it
In its embodiment, charging system 70 can be omitted.
Also, the battery of the utility model and connect device 10 can controller 31 to luminescent system 30 electric energy is provided so that control
Device 31 can drive the light emitting source 33 of luminescent system 30 to generate light.Light emitting source 33 can be various light bulbs or solid-state light emitting element
(such as light emitting diode, organic luminous semiconductor or polymer LED etc.), light emitting source 33 can be it is single or
Multiple compositions.Because the battery of the utility model simultaneously connects device 10 and can connect two or more batteries 50, therefore, this reality
With novel battery and connect device 10 can be changed by the quantity of battery 50 generate light time, and improve generate light it is steady
It is qualitative.
As shown in Fig. 2, the battery of the utility model and connecing device 10 and including four battery lines 11 and connect switching device together
13.Four batteries and four batteries 50 of one-to-one connection of link 11.
Battery line 11 includes discharge diode 111 and charging diode 113.The cathode connection of discharge diode 111 is simultaneously
Connect switching device 13, the anode connection battery 50 of discharge diode 111.The anode of charging diode 113 connects and connects switch dress
13 are set, the cathode of charging diode 113 connects battery 50.Wherein, discharge diode 111 and charging diode 113 are in battery
The different paths of route 11, discharge diode 111 and charging diode 113 are all one direction diodes.
And connect switching device 13 and connect four battery lines 11, and switch simultaneously four battery lines 11 to discharge mode or
Charge mode.Discharge mode be four batteries 50 by four battery lines 11 discharge electric energy to and connect switching device 13.Charging
Mode is to be charged by four battery lines 11 to four batteries 50, and above-mentioned charging system can be used in charging modes.Other realities
It applies in example, charge mode can also be omitted.
And connecing switching device 13 includes control unit 131, switch unit 133, current detecting unit 135.Control unit 131
Switch between charge mode and discharge mode to control switch unit 133.In the present embodiment, control unit 131 is to pass through
Linear voltage regulator (LM7812) 1311, P channel metal-oxide half field effect transistor (MOSFET) 1313, diode 1315, resistor
1317 and the composition of capacitor 1319 carry out control switch unit 133.
Running of the control unit 131 to control switch unit 133, the usual skill in this field can understand control unit
131 be the various circuits or element that can control switch unit 133, and carrys out control switch unit 133 according to special parameter condition
Switching, special parameter condition such as cell voltage, default or it is other manually set parameter, therefore the group of control unit 131
At not being depicted as limiting with the present embodiment.
Switch unit 133 includes that the double incisions of four single shafts close 1331, and each uniaxial double passes 1331 of cutting include common joint
1333, charging contacts 1335 and electric discharge contact 1337.Double cut of four single shafts closes 1331 common joints 1333 connection current detecting
Unit 135.Four single shafts are double to cut the negative of the discharge diode 111 for closing 1331 electric discharge four battery lines 11 of connection of contacts 1337
Pole.Four single shafts are double to cut the anode for closing the charging diode 113 that 1331 charging contacts 1335 connect four battery lines 11.Such as
This, control unit 131 can selectively switch road by the double runnings for cutting pass 1331 of four single shafts of control switch unit 133
Diameter, that is, charge mode or discharge mode.
In other embodiments, the double quantity for cutting pass 1331 of the single shaft of switch unit 133 can also be more or less, but most
It is two or three less, at most can be four or more.
And connecing the single device 13 of switch includes charging sudden-wave absorbing unit 137 and electric discharge sudden-wave absorbing unit 139, charge surging
Absorptive unit 137 connects uniaxial double common joints 1333 and charging contacts 1335 for cutting pass 1331.Discharge sudden-wave absorbing unit
The uniaxial double common joints 1333 for cutting pass 1331 of 139 connections and electric discharge contact 1337.In the present embodiment, charge sudden-wave absorbing list
Member 137 and electric discharge sudden-wave absorbing unit 139 are identical compositions, and composition has the resistor R and capacitor C of series connection respectively.
In this way, the abrupt voltage wave or current spikes that generate when uniaxial double 1331 switchings of incision pass can be by the sudden-wave absorbing units that charges
137 and electric discharge sudden-wave absorbing unit 139 protect, damaged to avoid electronic component or circuit.In other embodiments, voltage is prominent
Wave or current spikes can also be combined by other electron component or electronic component.
135 connection switch unit 133 of current detecting unit, in the present embodiment, current detecting unit 135 has a current circuit
The 1351 double common joints 1333 for cutting pass 1331 of four single shafts of connection, current detecting unit 135 detect current circuit 1351
Current value, in this way, the available total charging current value of current detecting unit 135 or total discharge current value, total charging current value are
For charging system to the charging current of four batteries, total discharge current value is the current value that four batteries discharge current circuit.
In the present embodiment, current detecting unit 135 is by electric current induction amplifier (INA199) 1353, resistor 1355
And the equal electronic components composition of capacitor 1357, and the current value to detect current circuit 1351.In other embodiments, electric current inspection
The circuit that unit 135 is also possible to other electronic component compositions is surveyed, or selects the current sensor of other models, without with this reality
It applies and is limited described in example.
In discharge mode, the battery of the utility model simultaneously connects device four battery synchronous discharges of permission, therefore, when four batteries
In have one or two cell potential weaker, but the preferable battery of other abilities can stablize total release current, so that luminescent system
Normal operation without being influenced by the weaker battery of ability, and can stablize output electric current and voltage.In the same manner, in charge mode,
The battery of the utility model simultaneously connects device and can receive charging current, and charging current can respectively charge to all batteries, so that all
Battery is filled full.
Finally it is to be emphasized again that composition element of the utility model disclosed by preceding taking off in embodiment, by way of example only,
Not it is used to limit the scope of the utility model, the substitution or variation of other equivalence elements also should be the utility model patent model
It encloses and is covered.
Certainly, the utility model can also have other various embodiments, without departing substantially from the spirit of the present invention and its essence
In the case of, those skilled in the art can make various corresponding changes and modifications, but these phases according to the utility model
The change and modification answered all should belong to the protection scope of the utility model claims.
Claims (9)
1. a kind of battery simultaneously connects device, for passing through a battery powered luminescent system, which is characterized in that and include:
Multiple battery lines, for the one-to-one multiple batteries of connection;And
Switching device is connect together, connects multiple battery line, and the multiple battery line of synchronism switching is somebody's turn to do to a discharge mode
Discharge mode is that multiple battery is extremely somebody's turn to do by multiple battery line release electric energy and connects switching device.
2. battery according to claim 1 simultaneously connects device, which is characterized in that each battery line packet of multiple battery line
A discharge diode and a battery connector are included, the cathode connection of the discharge diode should and connect switching device, two pole of electric discharge
The anode of pipe connects the battery.
3. battery according to claim 2 simultaneously connects device, which is characterized in that it is multiple should and to connect switching device energy synchronism switching
For battery line to a charge mode, which is to be charged by multiple battery line to multiple battery.
4. battery according to claim 3 simultaneously connects device, which is characterized in that each battery line packet of multiple battery line
A charging diode is included, the anode connection of the charging diode should and connect switching device, and the cathode connection of the charging diode should
Battery, the charging diode is from the discharge diode position in the different paths of the battery line.
5. battery according to claim 4 simultaneously connects device, which is characterized in that should and connect switching device include a control unit,
One switch unit and a current detecting unit, the control unit connect the switch unit, and control the switch unit in the charging
Switch between mode and the discharge mode, which connects the switch unit, and detects current value.
6. battery according to claim 5 simultaneously connects device, which is characterized in that the switch unit includes multiple uniaxial double incisions
Pass, each uniaxial double passes of cutting include a common joint, a charging contacts and an electric discharge contact, multiple uniaxial double incision passes
Common joint is to connect the current detecting unit, and multiple uniaxial double electric discharge contacts closed that cut connect multiple battery line
The cathode of discharge diode, multiple uniaxial double charging contacts for cutting pass connect the charging diode of multiple battery line
Anode.
7. battery according to claim 6 simultaneously connects device, which is characterized in that should and connect switching device further includes that multiple surgings are inhaled
Unit is received, each battery line respectively includes a charging sudden-wave absorbing unit and an electric discharge sudden-wave absorbing unit, the charging surging
Absorptive unit connects the double common joints and charging contacts for cutting pass of the single shaft, and it is double which connects the single shaft
Cut the common joint closed and electric discharge contact.
8. battery according to claim 7 simultaneously connects device, which is characterized in that the charging sudden-wave absorbing unit includes being connected in series
A resistor and a capacitor, the electric discharge sudden-wave absorbing unit include be connected in series a resistor and a capacitor.
9. battery according to claim 5 simultaneously connects device, which is characterized in that the current detecting unit has current circuit connection
The switch unit, the current detecting unit detect the current value of the current circuit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820678518.4U CN208209574U (en) | 2018-05-08 | 2018-05-08 | Battery simultaneously connects device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820678518.4U CN208209574U (en) | 2018-05-08 | 2018-05-08 | Battery simultaneously connects device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208209574U true CN208209574U (en) | 2018-12-07 |
Family
ID=64519148
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820678518.4U Active CN208209574U (en) | 2018-05-08 | 2018-05-08 | Battery simultaneously connects device |
Country Status (1)
Country | Link |
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CN (1) | CN208209574U (en) |
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2018
- 2018-05-08 CN CN201820678518.4U patent/CN208209574U/en active Active
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