CN206485298U - Portable vehicle battery charger - Google Patents
Portable vehicle battery charger Download PDFInfo
- Publication number
- CN206485298U CN206485298U CN201621444366.9U CN201621444366U CN206485298U CN 206485298 U CN206485298 U CN 206485298U CN 201621444366 U CN201621444366 U CN 201621444366U CN 206485298 U CN206485298 U CN 206485298U
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- cable
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- portable vehicle
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R16/00—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for
- B60R16/02—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric constitutive elements
- B60R16/03—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric constitutive elements for supply of electrical power to vehicle subsystems or for
- B60R16/033—Electric or fluid circuits specially adapted for vehicles and not otherwise provided for; Arrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric constitutive elements for supply of electrical power to vehicle subsystems or for characterised by the use of electrical cells or batteries
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/42—Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
- H01M10/44—Methods for charging or discharging
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M2220/00—Batteries for particular applications
- H01M2220/20—Batteries in motive systems, e.g. vehicle, ship, plane
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Abstract
Portable vehicle battery charger of the present utility model includes:Rechargeable battery;And "Jumper" cable, the "Jumper" cable is connected in parallel multiple rechargeable batteries, and is connected with the terminal of Vehicular battery.Multiple rechargeable batteries can be together connected, charging capacity and charge efficiency is improved.
Description
Technical field
The utility model is related to portable vehicle battery charger.More specifically, it is related to a kind of including rechargeable battery
And the portable vehicle battery charger of cable.
Background technology
In general, there is the situation discharged by the error of driver in the battery carried in automobile, it is very low in temperature
Winter or when placing vehicle in the very low place of temperature, because discharging naturally and presence can not start the situation of automobile.
When automobile batteries discharges, typically vehicle traction is filled to the automobile maintenance station with other rechargeable battery
Electricity, or will be promptly connected with "Jumper" cable with other automobiles and start automobile, the battery of electric discharge is charged.Therefore, it is actual
Situation is to recharge that excessive time, expense etc. can be produced, and is difficult to deal with when facing emergency.
Now, as intelligent mobile phone battery or smart mobile phone charging battery, using lithium battery, but due to capacity not
Foot, exists with aspect in the charging as high power automobile and limits to.
For example, Ebrean Registered Patent publication the 10-1673468th discloses a kind of intelligence for the complete electric discharge for preventing automobile
Cell apparatus, but do not referred to for being charged after electric discharge.
【Prior art literature】
【Patent document】
Ebrean Registered Patent publication the 10-1673468th (2016.11.01)
Utility model content
Technical problem
A problem of the present utility model be to provide it is a kind of can high efficiency, high power capacity charging portable vehicle battery fill
Electric installation.
Technical scheme
1. a kind of portable vehicle battery charger, including:Rechargeable battery;And "Jumper" cable, the "Jumper" cable
Multiple rechargeable batteries are connected in parallel, and are connected with the terminal of Vehicular battery.
2. according to portable vehicle battery charger above described in 1, wherein, the "Jumper" cable includes:
Anode connecting portion and negative electrode connecting portion;First anode cable and the second plate electricity being connected with the anode connecting portion
Cable;The first cathode cable and the second cathode cable being connected with the negative electrode connecting portion;With the first anode cable and described
The first merging portion that first cathode cable is combined;And combined with the second plate cable and second cathode cable
Two merging portions.
3. according to portable vehicle battery charger above described in 2, wherein, the portable vehicle battery charging dress
Putting also includes:Protrude and be connected respectively with the first anode cable and first cathode cable from the first merging portion
First anode connection terminal and the first cathode connecting terminal;And protruded from the second merging portion and positive with described second respectively
Pole cable and the second plate connection terminal and the second cathode connecting terminal of second cathode cable connection.
4. according to portable vehicle battery charger above described in 3, wherein, the rechargeable battery includes:With it is described
First anode connection terminal and the first rechargeable battery of first cathode connecting terminal connection;And connect with the second plate
Connecting terminal and the second rechargeable battery of second cathode connecting terminal connection.
5. according to portable vehicle battery charger above described in 1, wherein, the "Jumper" cable includes:
Include the multiple socket for the multiple connection terminals for connecting multiple rechargeable batteries;And prolong from the multiple socket
Long anode cable and cathode cable.
6. according to portable vehicle battery charger above described in 5, wherein, the multiple socket is included optionally
Connect the switch for being connected in series or being connected in parallel of (ON) multiple described rechargeable batteries.
7. according to portable vehicle battery charger above described in 1, wherein, the "Jumper" cable includes:
Anode connecting portion and negative electrode connecting portion;The multiple anode cables being connected with the anode connecting portion;Respectively from described
Many sub- anode cables of multiple anode cable branches;The multiple cathode cables being connected with the negative electrode connecting portion;Respectively from institute
State many sub- cathode cables of multiple cathode cable branches;With a sub- anode cable in the multiple sub- anode cable and institute
State multiple merging portions that a sub- cathode cable in many sub- cathode cables is combined;And respectively from the merging portion protrusion simultaneously
The anode connection terminal and cathode connecting terminal being connected respectively with the sub- anode cable and the sub- cathode cable.
8. according to portable vehicle battery charger above described in 7, wherein, the anode cable includes the first anode
Cable and second plate cable, the cathode cable include the first cathode cable and the second cathode cable.
9. according to portable vehicle battery charger above described in 8, wherein,
The sub- anode cable includes:From the first sub- anode cable and the second sub- anode of the first anode cable branch
Cable, and from the 3rd sub- anode cable and the 4th sub- anode cable of the second plate cable branch,
The sub- cathode cable includes:From the first sub- cathode cable and the second sub- negative electrode of the first cathode cable branch
Cable, and from the 3rd sub- cathode cable and the 4th sub- cathode cable of the second cathode cable branch.
10. according to portable vehicle battery charger above described in 9, wherein, the merging portion includes:With described
The first merging portion that one sub- anode cable and the first sub- cathode cable are combined;With the described second sub- anode cable and described
The second merging portion that two sub- cathode cables are combined;Combined with the 3rd sub- anode cable and the 3rd sub- cathode cable
Three merging portions;And the 4th merging portion combined with the 4th sub- anode cable and the 4th sub- cathode cable.
Utility model effect
It can include multiple rechargeable batteries according to the portable vehicle battery charger of embodiment of the present utility model to connect
The "Jumper" cable of connecting terminal integration.In addition, the "Jumper" cable can also be with that can be connected in parallel answering for multiple rechargeable batteries
The integration of formula socket or connection.Therefore, it is possible to minimum galvanic current, the loss of voltage, and not only can be to dilly electric discharge
Vehicular battery charged, but also the Vehicular battery discharged of diesel vehicle, high power vehicle can be charged.
Brief description of the drawings
Fig. 1 is the skeleton diagram for showing the rechargeable battery according to the utility model embodiment.
Fig. 2 is the skeleton diagram for showing the "Jumper" cable according to the utility model one embodiment.
Fig. 3 is the skeleton diagram that diagram is connected according to the "Jumper" cable of the utility model one embodiment with automobile batteries.
Fig. 4 and Fig. 5 are the skeleton diagrams for showing the "Jumper" cable according to the utility model one embodiment.
Fig. 6 is the skeleton diagram that diagram is connected according to the "Jumper" cable of the utility model one embodiment with rechargeable battery.
Fig. 7 is to show the circuit diagram being connected according to the multiple socket of the utility model one embodiment with rechargeable battery.
Fig. 8 is the skeleton diagram for showing the "Jumper" cable according to the utility model one embodiment.
Reference
50:Rechargeable battery 52:External equipment charging port
53:Charging indicator light 56:Lamp
58:"Jumper" cable connectivity port 58a:Anode connectivity port
58b:Cathode connection terminal mouthful 70:Vehicular battery
100、200、300:"Jumper" cable 110,215,315:Negative electrode connecting portion
120、225、325:Anode connecting portion 112:First cathode cable
112a:First cathode connecting terminal 114:Second cathode cable
114a:Second cathode connecting terminal 122:First anode cable
122a:First anode connection terminal 124:Second plate cable
124a:Second plate connection terminal 130:First merging portion
135:Second merging portion 210:Cathode cable
220:Anode cable 230:Multiple socket
231、233、235:First connection terminal, the second connection terminal and the 3rd connection terminal
241、353:Anode connection terminal 243,351:Cathode connecting terminal
250:Switch
253a、253b:First series-connected switches and the second series-connected switches
255a、255b:First is connected in parallel switch and second is connected in parallel switch
310a、310b、310c、310d:First sub- cathode cable to the 4th sub- cathode cable
315a、315b:First cathode cable and the second cathode cable
320a、320b、320c、320d:First sub- anode cable to the 4th sub- anode cable
325a、325b:First anode cable and second plate cable
330a、330b、330c、330d:First merging portion to the 4th merging portion
Embodiment
Embodiment of the present utility model provides a kind of raising charging capacity and the portable vehicle battery of charge efficiency fills
Electric installation, the portable vehicle battery charger includes:Rechargeable battery, and "Jumper" cable, the "Jumper" cable are in parallel
Multiple rechargeable batteries are connected, and are connected with the terminal of Vehicular battery.
With reference to the accompanying drawings, the utility model is described in detail.Preferred embodiment of the present utility model, but this are prompted below
A little embodiments are not limited appended claims, of the present utility model simply to example of the present utility model
In the range of category and technological thought, various change and revision can be carried out to embodiment, this is to those skilled in the art
Obvious, this deformation and revision fall within appended claims certainly.
Fig. 1 is the skeleton diagram for showing the rechargeable battery according to the utility model embodiment.Fig. 2 is that display is new according to this practicality
The skeleton diagram of the "Jumper" cable of type one embodiment.Fig. 3 be diagram according to the "Jumper" cable of the utility model one embodiment with
The skeleton diagram of the connection of automobile batteries.
According to embodiment of the present utility model, portable vehicle battery charger can include the charging electricity shown in Fig. 1
Pond 50 and "Jumper" cable.Fig. 2 illustrates the "Jumper" cable 100 according to the utility model one embodiment.
Reference picture 1, then rechargeable battery 50 can for example include itself being capable of the secondary cell of charge/discharge.For example, in figure
Enclosure shown in 1 can be built-in with lighium polymer secondary battery.
As shown in figure 1, can expose on the top of rechargeable battery 50 has connectivity port.The connectivity port can include across
Connect cable connection port 58."Jumper" cable connectivity port 58 can include anode connectivity port 58a and cathode connection terminal mouthful 58b,
In order to prevent connection error, anode connectivity port 58a and cathode connection terminal mouthful 58b can be formed as mutually different shape.
The connectivity port can also include USB charging ports 54.For example, USB cable can be connected to domestic power supply,
Computer, onboard charger etc., are connected to the USB charging ports 54 of rechargeable battery 50, to filling when without using rechargeable battery 50
Battery 50 is charged.
In one embodiment, in the sidepiece of rechargeable battery 50, external equipment charging port 52 can also be included.By outer
Portion equipment charge port 52, for example, can connect smart mobile phone and be charged.
Above rechargeable battery 50, charging indicator light 53 can be configured with.By charging indicator light 53, profit can be represented
Connected with "Jumper" cable and the Vehicular battery that discharged in charging charged state.For example, charging indicator light 53 includes 4 lamps,
Thus the charged state of Vehicular battery can be represented by 4 grades.
In one embodiment, on the top of rechargeable battery 50, lamp 56 can be also configured with.For example, when in dark
Place when needing to charge to Vehicular battery, vehicle-surroundings are illuminated by lamp 56, so as to prevent the company of "Jumper" cable
Wrong is missed.
Reference picture 2, "Jumper" cable 100 can include vehicle connecting portion 110,120;Anode cable 122,124, cathode cable
112、114;Merging portion 130,135 and connection terminal 112a, 122a, 114a, 124a.
The merging portion can include the first merging portion 130 and the second merging portion 135.The connection terminal can include the
One cathode connecting terminal 112a, first anode connection terminal 122a, the second cathode connecting terminal 114a and second plate connection end
Sub- 124a.
The vehicle connecting portion can include anode connecting portion 120 and negative electrode connecting portion 110, respectively with nippers shape.
In order to prevent connection error, each connecting portion can be made into different colours, including identification marking.
The anode cable can include first anode cable 122 and second plate cable 124.First anode cable 122
It can be connected by the first merging portion 130 with first anode connection terminal 122a.Second plate cable 124 can pass through second
Merging portion 135 and be connected with second plate connection terminal 124a.
The cathode cable can include the first cathode cable 112 and the second cathode cable 114.First cathode cable 112
It can be connected by the first merging portion 130 with the first cathode connecting terminal 112a.Second cathode cable 114 can pass through second
Merging portion 135 and be connected with the second cathode connecting terminal 114a.
As shown in figure 3, being together connected in parallel multiple rechargeable batteries by the first merging portion 130 and the second merging portion 135
50, so as to be charged to Vehicular battery 70.Therefore, not only can be to gasoline vehicle or small-sized by "Jumper" cable 100
Vehicle is charged, and diesel vehicle or oversize vehicle can also be charged.
For example, the first anode connection terminal 122a and the first cathode connection terminal that will can be combined with the first merging portion 130
Sub- 112a respectively in connection with or be inserted in the first rechargeable battery 50a anode connectivity port 58a and cathode connection terminal mouthful 58b.In addition,
Can by the second plate connection terminal 124a combined with the second merging portion 135 and the second cathode terminal 114a respectively in connection with or insert
Enter the second rechargeable battery 50b anode connectivity port 58a and cathode connection terminal mouthfuls of 58b.
In addition, by with the magnitude of current that will respectively be supplied to (+) terminal and (-) terminal of Vehicular battery 70 with two cables
Carry out scattered and be connected to behind the both sides of vehicle connecting portion of pliers form, be designed in each terminal by worthwhile mode,
So as to reduce the loss amount of voltage, electric current.
In one embodiment, as shown in Fig. 2 (for example, in the middle of cathode cable 112,114) can be combined between in the cable
There is operation instruction unit 140.Running instruction unit 140 includes indicator lamp, can include lamp, the lamp is when charging beginning or cable connects
Wrong, which is mistaken, to be lit.
As set forth above, it is possible to which anode cable and cathode cable are connected to one by one by multiple merging portions respectively
Connecting terminal.The multiple merging portion can be utilized respectively and carry out multiple rechargeable batteries in parallel.Furthermore it is possible to by anode cable and negative electrode
Cable is incorporated into anode connecting portion and negative electrode connecting portion, so as to be respectively connecting to (+) terminal of the terminal of vehicle battery
And (-) terminal.
It is thereby achieved that multiple rechargeable batteries are connected, so as to expand the car discharged including high power vehicle
Chargeable range.
For example, when the chargeable magnitude of current of each rechargeable battery 50 is 5400mA, by the "Jumper" cable shown in Fig. 2,
Can to the decentralized supply 10800mA of Vehicular battery 70 the magnitude of current.
Fig. 4 and Fig. 5 are the skeleton diagrams for showing the "Jumper" cable according to the utility model one embodiment.Fig. 6 is diagram institute
State the skeleton diagram that "Jumper" cable is connected with rechargeable battery.Fig. 7 is to show to be inserted according to the compound of the utility model one embodiment
The circuit diagram that seat is connected with rechargeable battery.
Reference picture 4, the "Jumper" cable 200 of the utility model one embodiment can include multiple socket 230.Anode cable
220 and cathode cable 210 can extend from multiple socket 230, and be connected respectively to anode connecting portion 225 and negative electrode connecting portion
215。
Multiple socket 230 can be designed in the way of it can be connected in parallel multiple rechargeable batteries 50.Multiple socket 230 can be with
Including multiple connection terminals.As shown in figure 4, multiple socket 230 can include the first connection terminal to the 3rd connection terminal 231,
233rd, 235, each connection terminal can include anode connection terminal 241 and cathode connecting terminal 243.
The number of connection terminal shown in Fig. 4 is the facility for explanation and graphical representation of exemplary, is not particularly limited to
Property.For example, multiple socket 230 can include 2 to 100 connection terminals.
Reference picture 5, then 2 anode cables and cathode cable can also extend respectively from multiple socket 230, be connected with anode
Portion 225 and negative electrode connecting portion 215 are combined.For example, the first cathode cable and second cathode cable 210a, 210b can be inserted from compound
Seat 230 extends, and is attached to the two ends of negative electrode connecting portion 215.In addition, first anode cable and second plate cable 220a, 220b
It can extend from multiple socket 230, be attached to the two ends of anode connecting portion 225.
In one embodiment, for example, in anode cable 220a, 220b centre, collection portion 227 can be configured with, from
And cable can be passed through.Collection portion 227 can also perform the function of the operation instruction unit 140 shown in Fig. 2.
Reference picture 6, for example, multiple socket 230 can include 5 connection terminals, therefore, 5 rechargeable battery 50a~50e
Each connection terminal can be combined or be inserted in, so that 5 rechargeable battery 50a~50e are in parallel even by means of multiple socket 230
Connect.Now, for example can be by "Jumper" cable 200, supplying the 27000mA magnitudes of current to the Vehicular battery 70 discharged, (one is filled
The electric battery supplied 5400mA magnitudes of current).
As set forth above, it is possible to which using multiple socket 230, the rechargeable battery that can be connected in parallel is expanded with easier structure
50 number.
Reference picture 7, then in a part of embodiment, multiple socket 230 can include that the string of rechargeable battery 50 can be carried out
The switch 250 of connection/parallel connection conversion.4 rechargeable battery 50a~50d are in parallel in multiple socket 230 as example illustration by Fig. 7
The situation of connection.
In switch 250, it can include being connected in parallel switch 255a, 255b and series-connected switches 253a, 253b.
It is described be connected in parallel switch for example can include respectively with cathode circuit (being represented with solid line) and anode circuit
The first of (being represented with dotted line) connection is connected in parallel switch 255a and second and is connected in parallel switch 255b.It is described to be connected in series
Switch can include the first series-connected switches 253a and the second series-connected switches 253b.
Switch can be designed in the way of being connected in parallel switch and series-connected switches described in can selectively turning on
250.When unlatching is connected in parallel switch 255a, 255b, (OFF) series-connected switches 253a, 253b can be disconnected.Now, may be used
To be connected in parallel with each other 4 rechargeable battery 50a~50d.When each rechargeable battery is 12V, 5400mA specification, it can supply altogether
The 21600mA magnitude of current.
When opening series-connected switches 253a, 253b, it can disconnect and be connected in parallel switch 255a, 255b.For example, by
In the first series-connected switches 253a, with the first rechargeable battery 50a and the second rechargeable battery 50b anode circuit being connected and with
3rd rechargeable battery 50c and the cathode circuit of the 4th rechargeable battery 50d connections can be connected with each other.In addition, by means of the second string
Join connecting valve 253b, be connected to the first rechargeable battery 50a and the second rechargeable battery 50b cathode circuit and be connected to the 3rd
Rechargeable battery 50c and the 4th rechargeable battery 50d anode circuit can be connected with each other.At this point it is possible to obtain 24V, 10800mA
Voltage, electric current.
Can utilize described switch 50, power, the capacity of the vehicle charged as needed, suitably selection series connection or simultaneously
Connection connection, so as to improve charge efficiency.
Fig. 8 is the skeleton diagram for showing the "Jumper" cable according to the utility model one embodiment.Fig. 8 illustrates that show need not
Multiple socket can also such as 4 rechargeable batteries parallel with one another "Jumper" cable structure embodiment.
Reference picture 8, then "Jumper" cable 300 can include vehicle connecting portion 315,325;Anode cable 325a, 325b;Son
(sub) anode cable 320a, 320b, 320c, 320d;Cathode cable 315a, 315b;Sub- cathode cable 310a, 310b, 310c,
310d;Merging portion 330a, 330b, 330c, 330d and connection terminal 351,353.
The anode cable can include first anode cable 325a and second plate cable 325b.First anode cable
325a and second plate cable 325b can be connected with the anode connecting portion 325 in the vehicle connecting portion.
2 sub- anode cables can be branched out from each anode cable.In the exemplary embodiment, can be from the first sun
Pole cable 325a branches out the first sub- sub- anode cable 320b of anode cable 320a and second.Furthermore it is possible to electric from second plate
Cable 325b branches out the 3rd sub- sub- anode cable 320d of anode cable 320c and the 4th.In one embodiment, first anode electricity
Cable 325a end can be combined with the first branch 342 and branch out the first sub- sub- anode cables of anode cable 320a and second
320b.Second plate cable 325b can be combined with the second branch 344 and be branched out the 3rd sub- anode cable 320c and the 4th
Sub- anode cable 320d.
The cathode cable can include the first cathode cable 315a and the second cathode cable 315b.First cathode cable
315a and the second cathode cable 315b can be connected with the negative electrode connecting portion 315 in the vehicle connecting portion.
2 sub- cathode cables can be branched out from each cathode cable.In the exemplary embodiment, can be cloudy from first
Pole cable 315a branches out the first sub- sub- cathode cable 310b of cathode cable 310a and second.Furthermore it is possible to electric from the second negative electrode
Cable 315b branches out the 3rd sub- sub- cathode cable 310d of cathode cable 310c and the 4th.
The merging portion can include the first merging portion to the 4th merging portion 330a, 330b, 330c, 330d, from each conjunction
And portion is protruding with anode connection terminal 353 and cathode connecting terminal 351.
By the first merging portion 330a, the first sub- sub- anode cable 320a of cathode cable 310a and first can respectively with the moon
Pole connection terminal 351 and anode connection terminal 353 are connected.Pass through the second merging portion 330b, the second sub- cathode cable 310b and
Two sub- anode cable 320b can be connected with cathode connecting terminal 351 and anode connection terminal 353 respectively.Pass through the 3rd merging portion
330c, the 3rd sub- sub- anode cable 320c of cathode cable 310c and the 3rd can connect with cathode connecting terminal 351 and anode respectively
Connecting terminal 353 is connected.By the 4th merging portion 330d, the 4th sub- sub- anode cable 320d of cathode cable 310d and the 4th can divide
It is not connected with cathode connecting terminal 351 and anode connection terminal 353.
, can be with the rechargeable battery 50 shown in connection figure 1 by the connection terminal protruded from each merging portion.For example, each
The cathode connecting terminal 351 and anode connection terminal 353 in merging portion can insert or be incorporated into respectively the negative electrode of rechargeable battery 50
Connectivity port 58b and anode connectivity port 58a.
Therefore, in the embodiment shown in fig. 8,4 rechargeable batteries can be for example connected, and increase charged electrical flow, and
After the magnitude of current from each rechargeable battery is disperseed by sub- cable, it can be merged by cable and vehicle connecting portion.
According to the portable vehicle battery charger of the exemplary embodiment, can be used in including gasoline automobile,
The charging of diesel car, the discharge battery of the passenger vehicle of hybrid vehicle.Alternatively, it is also possible to be used in including truck,
The various vehicles of ship, motorcycle, black box, agricultural machinery etc. and the charging of appurtenances.
Claims (10)
1. a kind of portable vehicle battery charger, including:
Rechargeable battery;And
"Jumper" cable, the "Jumper" cable is connected in parallel multiple rechargeable batteries, and is connected with the terminal of Vehicular battery.
2. portable vehicle battery charger according to claim 1, wherein,
The "Jumper" cable includes:
Anode connecting portion and negative electrode connecting portion;
The first anode cable and second plate cable being connected with the anode connecting portion;
The first cathode cable and the second cathode cable being connected with the negative electrode connecting portion;
The the first merging portion combined with the first anode cable and first cathode cable;And
The the second merging portion combined with the second plate cable and second cathode cable.
3. portable vehicle battery charger according to claim 2, wherein,
The portable vehicle battery charger also includes:
First for protruding and being connected respectively with the first anode cable and first cathode cable from the first merging portion
Anode connection terminal and the first cathode connecting terminal;And
Second for protruding and being connected respectively with the second plate cable and second cathode cable from the second merging portion
Anode connection terminal and the second cathode connecting terminal.
4. portable vehicle battery charger according to claim 3, wherein,
The rechargeable battery includes:
The first rechargeable battery being connected with the first anode connection terminal and first cathode connecting terminal;And
The second rechargeable battery being connected with the second plate connection terminal and second cathode connecting terminal.
5. portable vehicle battery charger according to claim 1, wherein,
The "Jumper" cable includes:
Include the multiple socket for the multiple connection terminals for connecting multiple rechargeable batteries;And
The anode cable and cathode cable extended from the multiple socket.
6. portable vehicle battery charger according to claim 5, wherein,
The multiple socket includes the switch for being connected in series or being connected in parallel for selectivelying switch on multiple rechargeable batteries.
7. portable vehicle battery charger according to claim 1, wherein,
The "Jumper" cable includes:
Anode connecting portion and negative electrode connecting portion;
The multiple anode cables being connected with the anode connecting portion;
Respectively from many sub- anode cables of the multiple anode cable branch;
The multiple cathode cables being connected with the negative electrode connecting portion;
Respectively from many sub- cathode cables of the multiple cathode cable branch;
With a sub- negative electrode in the sub- anode cable and the multiple sub- cathode cable in the multiple sub- anode cable
Multiple merging portions that cable is combined;And
The anode connection protruded and be connected respectively with the sub- anode cable and the sub- cathode cable from the merging portion respectively
Terminal and cathode connecting terminal.
8. portable vehicle battery charger according to claim 7, wherein,
The anode cable include first anode cable and second plate cable, the cathode cable include the first cathode cable and
Second cathode cable.
9. portable vehicle battery charger according to claim 8, wherein,
The sub- anode cable includes:From the first sub- anode cable of the first anode cable branch and the second sub- anode electricity
Cable, and from the 3rd sub- anode cable and the 4th sub- anode cable of the second plate cable branch,
The sub- cathode cable includes:From the first sub- cathode cable of the first cathode cable branch and the second sub- negative electrode electricity
Cable, and from the 3rd sub- cathode cable and the 4th sub- cathode cable of the second cathode cable branch.
10. portable vehicle battery charger according to claim 9, wherein,
The merging portion includes:
The the first merging portion combined with the described first sub- anode cable and the first sub- cathode cable;
The the second merging portion combined with the described second sub- anode cable and the second sub- cathode cable;
The 3rd merging portion combined with the 3rd sub- anode cable and the 3rd sub- cathode cable;And
The 4th merging portion combined with the 4th sub- anode cable and the 4th sub- cathode cable.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR20160007011 | 2016-12-02 | ||
KR20-2016-0007011 | 2016-12-02 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206485298U true CN206485298U (en) | 2017-09-12 |
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ID=59770219
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621444366.9U Active CN206485298U (en) | 2016-12-02 | 2016-12-27 | Portable vehicle battery charger |
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KR (1) | KR200488314Y1 (en) |
CN (1) | CN206485298U (en) |
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US20220266782A1 (en) * | 2019-10-25 | 2022-08-25 | Sea Clear Power Inc. | Systems and methods for distribution of power in a marine vessel, atvs, and vehicles |
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JPWO2007105612A1 (en) * | 2006-03-15 | 2009-07-30 | 日本電気株式会社 | Charging device and charging / discharging device |
KR20080032528A (en) * | 2006-10-10 | 2008-04-15 | 현대에너셀 주식회사 | Power cable coupling device of battery |
KR101673468B1 (en) | 2015-05-18 | 2016-11-07 | 주식회사 아이거텍 | A smart battery device for preventing the full discharge of the car |
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2016
- 2016-12-27 CN CN201621444366.9U patent/CN206485298U/en active Active
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20220266782A1 (en) * | 2019-10-25 | 2022-08-25 | Sea Clear Power Inc. | Systems and methods for distribution of power in a marine vessel, atvs, and vehicles |
US11491935B2 (en) | 2019-10-25 | 2022-11-08 | Sea Clear Power Inc. | Systems and methods for distribution of power in a marine vessel, ATVS, and vehicles |
US11577675B2 (en) * | 2019-10-25 | 2023-02-14 | Sea Clear Power Inc. | Systems and methods for distribution of power in a marine vessel, ATVS, and vehicles |
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KR20180001743U (en) | 2018-06-12 |
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