CN105305511B - Stacking-type charging system - Google Patents
Stacking-type charging system Download PDFInfo
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- CN105305511B CN105305511B CN201410238538.6A CN201410238538A CN105305511B CN 105305511 B CN105305511 B CN 105305511B CN 201410238538 A CN201410238538 A CN 201410238538A CN 105305511 B CN105305511 B CN 105305511B
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- 238000007600 charging Methods 0.000 title claims abstract description 121
- 230000005611 electricity Effects 0.000 description 14
- 238000010586 diagram Methods 0.000 description 7
- 238000005516 engineering process Methods 0.000 description 3
- 238000009434 installation Methods 0.000 description 3
- 230000009466 transformation Effects 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000001914 filtration Methods 0.000 description 2
- 241000675108 Citrus tangerina Species 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 238000004070 electrodeposition Methods 0.000 description 1
- 230000006698 induction Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
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Classifications
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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
The invention discloses a kind of stacking-type charging system, for making the charge and discharge device of storehouse carry out parallel charging, include multiple charge and discharge devices and a cradle, after each charge and discharge device is stacked over the cradle, the same sex electrode of each charge and discharge device and the cradle is electrically connected to each other, so that the cradle is able to transmit to storehouse these charge and discharge devices thereon from the electric power of external reception, to be charged to the battery module inside these charge and discharge devices simultaneously, and lift overall charge efficiency.
Description
Technical field
The present invention relates to a kind of charging system, more particularly to a kind of stacking-type charging system, for simultaneously to storehouse
Multiple charge and discharge devices carry out parallel charging.
Background technology
With the universalness of high-tech electronic product, such as the portable electronic product such as mobile phone, tablet personal computer, people are allowed to exist
Convenience caused by science and technology can be just enjoyed in life easily.Also, to meet the demand of user, mobile phone, tablet personal computer
Deng portable electronic product target evolution frivolous and powerful towards volume, but also result in its battery durable power deficiency
The problem of, to solve this problem, it will usually carry at least one portable power source device to provide power supply whenever and wherever possible.
Furthermore portable power source device also has the problem of electricity exhausts, and needs to be connected with a commercial power socket to be charged.
If however, there is multiple portable power source devices to need to charge, the limited amount based on commercial power socket, thus can not be simultaneously to multiple shiftings
Dynamic supply unit is charged, and causes the overall charging interval to be elongated.
The content of the invention
To solve the defects of above-mentioned prior art, it is an object of the present invention to multiple charge and discharge devices can be entered simultaneously
Row charging.
For the above-mentioned purpose and other purposes, the present invention provides a kind of stacking-type charging system, for making the charge and discharge of storehouse
Electric installation carries out parallel charging, includes multiple charge and discharge devices and a cradle.Each charge and discharge device be respectively provided with the first face,
The second face above first face and the battery module between first face and second face, set on first face
There are the first positive pole and the first negative pole, the second positive pole and the second negative pole are provided with second face, the battery of the battery module is just
Pole connects first positive pole and second positive pole, and the GND of the battery module connects first negative pole and this is second negative
Pole, wherein in adjacent two charge and discharge device of storehouse, it is stacked over the second face of the charge and discharge device of lower section and is stacked over top
The first face of charge and discharge device be in contact and the electrode of identical polar is electrically connected to each other;And the cradle, set in top surface
There are charging positive pole and charging negative pole, with the first positive pole and first on the first face with the charge and discharge device being positioned on the top surface
Negative pole makees the electrical connection of identical polar, wherein, the cradle passes through the charging positive pole, the charging negative pole and these charge and discharge devices
The connection line of interior each electrode, in these charge and discharge devices of storehouse thereon battery module provide charge power supply with
Carry out parallel charging.
In one embodiment of stacking-type charging system of the present invention, in each charge and discharge device, in the first face and second
Two electrodes are wherein respectively configured as the two electrode retaining collar junction surfaces that annularly arrange by face in one side, and in the first face and the second face
Another side on by two electrode configurations be two convex convex portions, two convex portion engagement corresponding with the two electrode retaining collars junction surface
Positive pole and negative pole are respective to be electrically connected to be formed, and the two electrode retaining collars junction surface is in recess with the corresponding convex portion for accommodating two electrode;
In another embodiment, the charging positive pole and the charging negative pole of the cradle top surface are configured to two electrode retaining collars annularly arranged
Junction surface is configured to two convex convex portions, is connect with corresponding with the electrode on the first face being placed on the cradle
Close;In another embodiment, on each charge and discharge device and the cradle, in being configured with the face at two electrode retaining collar junction surfaces, phase
Different electrode engagement of loops portion configures with concentric annular and away from the different distance in the center of circle.
In one embodiment of stacking-type charging system of the present invention, the first positive pole on each face of charge and discharge device first with
First negative pole annularly arranges and forms two bottom electrode engagement of loops portions, the second positive pole and second on each face of charge and discharge device second
Negative pole also annularly arranges and forms two upper electrode rings junction surfaces, passes through upper and bottom electrode interannular junction surface between each charge and discharge device
Engagement and storehouse, the charging positive pole and the charging negative pole of the cradle top surface annularly arrangement and form two charging electrode rings
Junction surface, the two charging electrodes engagement of loops portion respectively with two bottom electrodes on the face of charge and discharge device first that is positioned on the top surface
Engagement of loops portion accordingly engages;In another embodiment, the shape configuration at these upper electrode rings junction surfaces is convex portion or recess, with
Fixation is engaged with the bottom electrode engagement of loops portion of the shape corresponding recess of presentation or convex portion, the shape in the charging electrode engagement of loops portion
Shape is also configured to convex portion or recess so that this of recess or convex portion bottom electrode engagement of loops portion corresponding to shape presentation engage fixation;
In another embodiment, these bottom electrodes in these charging electrode engagement of loops portions and each charge and discharge device on the cradle
In engagement of loops portion and these upper electrode rings junction surfaces, the different electrode retaining collar junction surface on the same face with concentric annular and away from the center of circle not
With distance configure.
In one embodiment of stacking-type charging system of the present invention, in addition to battery module status display unit, electricity
Property connects the battery module, to show the state of charge of the battery module, the wherein battery module status display unit
For light emitting diode.
In one embodiment of stacking-type charging system of the present invention, each charge and discharge device is wireless charge and discharge device, also
Including wireless discharge module and the control of discharge module of the wireless discharge module is connected, the wherein wireless discharge module connects the storage
Battery module.
In one embodiment of stacking-type charging system of the present invention, in addition to wireless discharge module status display unit,
The wireless discharge module is electrically connected with, to show the wireless discharge module as the state that is turned on and off, the wherein battery module
Status display unit is light emitting diode.
Whereby, stacking-type charging system of the invention is that multiple charge and discharge devices are stacked on the cradle, by this
The connection line that cradle passes through each electrode in the charging positive pole, the charging negative pole and these charge and discharge devices so that multiple
After storehouse, the battery module in these charge and discharge devices is able to be charged simultaneously charge and discharge device, and then is lifted whole
The charge efficiency of body.
Brief description of the drawings
Fig. 1 is the storehouse schematic perspective view of the stacking-type charging system of one embodiment of the invention.
Fig. 2 is the storehouse schematic side view of the stacking-type charging system of one embodiment of the invention.
Fig. 3 is the functional block diagram of the stacking-type charging system of one embodiment of the invention.
Fig. 4 is the three-dimensional signal of the two charge and discharge devices not yet storehouse of the stacking-type charging system of one embodiment of the invention
Figure.
Fig. 5 is two charge and discharge devices of the stacking-type charging system of one embodiment of the invention and standing for cradle not yet storehouse
Body schematic diagram.
Fig. 6 is the functional block diagram of the stacking-type charging system of another embodiment of the present invention.
Critical piece reference:
1000 stacking-type charging systems
1000 ' stacking-type charging systems
100 charge and discharge devices
Charge and discharge device under 100a
The upper charge and discharge devices of 100b
110 first faces
111 first positive poles
112 first negative poles
120 second faces
121 second positive poles
122 second negative poles
130 battery modules
131 anodes
132 GNDs
140 battery module status display units
150 wireless discharge modules
160 wireless control of discharge modules
170 wireless discharge module status display units
200 cradles
210 top surfaces
211 charging positive poles
212 charging negative poles
220 charging circuits
221 electric power output positive poles
222 electric power output negative poles
Electric power of the E from outside
Embodiment
To be fully understood by the purpose of the present invention, feature and technique effect, hereby by following specific embodiments, and with reference to accompanying drawing,
The present invention is elaborated, is described as follows:
Referring initially to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5.Fig. 1 is the stacking-type charging system of one embodiment of the invention
1000 storehouse schematic perspective view, Fig. 2 are the storehouse schematic side view of the stacking-type charging system 1000 of one embodiment of the invention,
Fig. 3 is the functional block diagram of the stacking-type charging system 1000 of one embodiment of the invention, and Fig. 4 is the storehouse of one embodiment of the invention
The schematic perspective view of two charge and discharge device 100a, 100b not yet storehouses of formula charging system 1000, Fig. 5 is one embodiment of the invention
Two charge and discharge device 100a, 100b of stacking-type charging system 1000 and the schematic perspective view of the not yet storehouse of cradle 200.Should
Stacking-type charging system 1000, include multiple charge and discharge devices 100 and a cradle 200, the stacking-type charging system 1000
Charge and discharge device 100 for making to be stacked on the cradle 200 carries out parallel charging, wherein these charge and discharge devices 100
It can be portable power source device.
As shown in Fig. 2 each charge and discharge device 100 has the first face 110, the second face 120 above first face 110
And the battery module 130 between first face 110 and second face 120, the first positive pole is provided with first face 110
111 and first negative pole 112, the second positive pole 121 and the second negative pole 122, the battery module 130 are provided with second face 120
Anode 131 connect first positive pole 111 and second positive pole 121, the GND 132 of the battery module 130 and connect
First negative pole 112 and second negative pole 122 are connect, the wherein battery module 130 may include that a voltage stabilizing current-limiting circuit (is schemed not
Show) and battery (not shown), in another embodiment, each charge and discharge device 100 also includes battery module status display list
Member 140, is electrically connected with the battery module 130, to show the state of charge of the battery module 130, the wherein battery mould
Bulk state display unit 140 can be light emitting diode, and the battery module status display unit 140 is to should battery module
The mode that 130 state of charge is showed is illustrated as follows, when the state of charge of the battery module 130 is low battery state
When (such as electricity is less than the 25% of total electricity), the cresset of the diode displaying is red light;When the battery module 130
When state of charge is middle state of charge (such as electricity is between the 25% of total electricity and 50%), the diode displaying
Cresset is tangerine lamp;When the battery module 130 state of charge for high state of charge (such as electricity between total electricity 50% with
Between 75%) when, the cresset of the diode displaying is blue lamp;When the state of charge of the battery module 130 is full of shape
During state (such as electricity reaches the 100% of total electricity), the cresset of the diode displaying is green light.Above-mentioned light emitting diode pair
Should the state of battery module 130 color change and its mode showed be only illustrate, however it is not limited to this.It is described above to be
The explanation of the internal structure of one charge and discharge device 100.
Then, multiple charge and discharge devices 100 will be illustrated when stack states, the annexation of its intraware and action side
Formula, and for convenience of description, only will be illustrated with the storehouse of two charge and discharge devices 100, and please in combination with Fig. 4:It is stacked over
Charge and discharge Denso of second face 120 of the charge and discharge device 100 (hereinafter referred to as descending charge and discharge device 100a) of lower section with being stacked over top
The first face 110 for putting 100 (hereinafter referred to as upper charge and discharge device 100b) is in contact, and the electrode of identical polar is electrically connected to each other,
More specifically, for positive pole, second positive pole 121 in the second face 120 of the lower charge and discharge device 100a electrically connects to be filled on this
First positive pole 111 in electric discharge device 100b the first face 110;And for negative pole, the second of the lower charge and discharge device 100a
Second negative pole 122 in face 120 electrically connects first negative pole 112 in charge and discharge device 100b the first face 110 on this.
That is, when two charge and discharge devices 100 are in stack states, the lower charge and discharge device 100a and charge and discharge device on this
Electrical connection inside 100b is electrically connected to each other for the electrode of identical polar, and causes the storage of the lower charge and discharge device 100a
Battery module 130 and charge and discharge device 100b battery module 130 turns into parallel relationship on this.
If in addition, consider two or more 100 situation when stack states of charge and discharge device, these charge and discharge devices 100
Internal electrical connection can analogize according to above-mentioned explanation, therefore be not repeated here.
Whereby, two charge and discharge devices 100 of storehouse can be by the first face 110 of the lower charge and discharge device 100a each other
First positive pole 111 and the first negative pole 112 form power cycles to receive electric power, then profit with external device (ED) (cradle as be described hereinafter)
With the electrical connection of these 100 electrodes of charge and discharge device, you can with the battery module to these charge and discharge devices 100
130 carry out parallel charging.
The cradle 200 is provided with charging positive pole 211 and charging negative pole 212 in its top surface 210, with being positioned over the top surface
The first positive pole 111 and the first negative pole 112 on first face 110 of the charge and discharge device 100 on 210 make being electrically connected for identical polar
Connect, wherein, the cradle 200 passes through each electricity in the charging positive pole 211, the charging negative pole 212 and these charge and discharge devices 100
The connection line of pole, charge power supply is provided to the battery module 130 in these charge and discharge devices 100 of storehouse thereon to enter
The parallel charging of row.Wherein, the charge power supply of the cradle 200 is internally provided with charging circuit 220 by the cradle 200
And be provided, more specifically, an electric power output positive pole 221 of the charging circuit 220 connects the charging positive pole 211, the charging
One electric power output negative pole 222 of circuit 220 connects the charging negative pole 212, and by the charging circuit 220 from external reception one
After electric power E, electric power E is able to after changing (such as transformation, rectification or filtering) to the charging electricity as the cradle 200
Source, and the charge power supply can be provided to outside by the charging positive pole 211 and the charging negative pole 212.It is described above to be filled for this
The explanation of the internal structure of electric seat 200.
Then, will illustrate when multiple charge and discharge devices 100 are stacked over the state of top surface 210 of the cradle 200, in it
The annexation and manner of execution of parts, and for convenience of description, the discharge and recharge only will be stacked over two charge and discharge devices 100
Device 100 illustrates, and please in combination with Fig. 5:The of the top surface 210 of the cradle 200 and the lower charge and discharge device 100a
Simultaneously 110 it is in contact, and the second face 120 and the first face of charge and discharge device 100b on this of the lower charge and discharge device 100a
110 are in contact, and the electrode of identical polar is electrically connected to each other, more specifically, for positive pole, the top surface of the cradle 200
210 charging positive pole 211 electrically connects first positive pole 111 in the first face 110 of the lower charge and discharge device 100a, and the lower discharge and recharge
Second positive pole 121 in device 100a the second face 120 electrically connects first positive pole in charge and discharge device 100b the first face 110 on this
111;And for negative pole, the charging negative pole 212 of the top surface 210 of the cradle 200 electrically connects the lower charge and discharge device 100a
The first face 110 the first negative pole 112, and the second face 120 of the lower charge and discharge device 100a the second negative pole 122 electrical connection should
First negative pole 112 in upper charge and discharge device 100b the first face 110.
That is, when two charge and discharge devices 100 (i.e. the lower charge and discharge device 100a and charge and discharge device 100b on this) storehouse
When the state of the top surface 210 of the cradle 200, the electric connection inside these charge and discharge devices 100 and the cradle 200 is closed
It is to be electrically connected to each other for the electrode of identical polar, and causes the battery mould of the cradle 200 and the lower charge and discharge device 100a
Block 130 and charge and discharge device 100b battery module 130 turns into parallel relationship on this.
If in addition, consider situation when two or more charge and discharge device 100 is stacked over the state of the cradle 200, these
Electrical connection inside charge and discharge device 100 and the cradle 200 can analogize according to above-mentioned explanation, therefore no longer be subject to
Repeat.
Whereby, the cradle 200 can be by the charging circuit 220 from after external reception electric power E, then by the cradle
The electrical connection of electrode between 200 and these charge and discharge devices 100, and can be to the battery module 130 of these charge and discharge devices 100
Charging.In the present embodiment, the charging circuit 220 is available to be connected with a commercial power socket, and is received the commercial power socket and provided
Electric main, then via these discharge and recharges to storehouse thereon of output after the transformation of the charging circuit 220, rectification and filtering
Device 100, and then the battery module 130 of these charge and discharge devices 100 is charged.
In short, in the charging positive pole 211 of the above-mentioned cradle 200, charging negative pole 212 and these charge and discharge devices 100
Each electrode connection line, i.e. the battery module 130 of these charge and discharge devices 100 is connected to the charging in parallel
Seat 200, therefore, the cradle 200, can be simultaneously to the batteries of these charge and discharge devices 100 from after external reception electric power E
Module 130 charges, and then lifts overall charge efficiency.
Again referring to Fig. 3, with the functional block diagram of signal come show the stacking-type charging system 1000 in charging when electric power
The state of transmission.That is, the charging circuit 220 of the cradle 200 will pass through transformation, rectification and filter from external reception electric power E
Electric power E after ripple is transmitted to the battery module 130 of these charge and discharge devices 100, to be charged to these battery modules 130.
Then Fig. 4 and Fig. 5 is referred to.First face 110 of these charge and discharge devices 100 and the second face 120 and the charging
The top surface 210 of seat 200 is all provided with electrode (comprising positive pole and negative pole), to be used as these charge and discharge devices 100 and the cradle
The bridge of power transmission between 200.
First, as shown in figure 4, each charge and discharge device 100 (the i.e. lower charge and discharge device 100a and charge and discharge device on this
100b) in positive and negative two electrode (i.e. first positive pole 111 and first negative pole 112) can be configured on first face 110 to be in convex
Rise shape two convex portions, on second face 120 can will positive and negative two electrode (i.e. second positive pole 121 and second negative pole 122) divide
Two electrode retaining collar junction surfaces of annular arrangement are not configured to, and two convex portion is corresponding with the two electrode retaining collars junction surface to be engaged to be formed just
Pole with negative pole is respective electrically connects, the two electrode retaining collars junction surface is in recess with the corresponding convex portion for accommodating two electrode.
In conjunction with shown in Fig. 5, the charging positive pole 211 and the charging negative pole 212 of the top surface 210 of cradle 200 are configured to
The two electrode retaining collar junction surfaces annularly arranged, with each charge and discharge device 100 being placed on the top surface 210 of the cradle 200
The first face 110 on the corresponding engagement of electrode.
However, the configuration mode of the first 110 liang of electrodes in face of above-mentioned each charge and discharge device 100,120 liang of the second face electrode
The configuration mode of 210 liang of electrodes of top surface of configuration mode and the cradle 200 is not limited thereto.For example, in another reality
Apply in example, 120 liang of the second face electrode of each charge and discharge device 100 can be configured to two convex convex portions, each charge and discharge device
100 110 liang of the first face electrode can be each configured to two electrode retaining collar junction surfaces of annular arrangement, the top surface 210 of cradle 200
The charging positive pole 211 and the charging negative pole 212 can be configured to two convex convex portions.
By the difference of these charge and discharge devices 100 and positive and negative two kinds of electrode positions of the cradle 200 so that these
Charge and discharge device 100 and the cradle 200 when storehouse each other, there is fool proof and can avoid positive pole be connected to negative pole,
Or negative pole is connected to the situation of positive pole.
In another embodiment, the first positive pole 111 on each face 110 of charge and discharge device 100 first is in the first negative pole 112
Annular arrangement and form two bottom electrode engagement of loops portions, the second positive pole 121 and the second negative pole on each the second face of charge and discharge device 120
122 also annularly arrange and form two upper electrode rings junction surfaces, pass through upper and bottom electrode interannular between each charge and discharge device 100 and engage
The engagement in portion and storehouse;Charging positive pole 211 and the charging negative pole 212 of the top surface 210 of cradle 200 annularly arrange and shape
Into two charging electrode engagement of loops portions, the two charging electrodes engagement of loops portion charge and discharge device with being positioned on the top surface 210 respectively
Two bottom electrode engagement of loops portions on 100 first faces 110 accordingly engage.More specifically, the shape at these upper electrode rings junction surfaces
Shape is configured to convex portion or recess, and fixation is engaged so that the bottom electrode engagement of loops portion of corresponding recess or convex portion to be presented with shape,
The shape in the charging electrode engagement of loops portion is also configured to convex portion or recess under this of recess or convex portion corresponding to shape presentation
Electrode retaining collar junction surface engages fixation.In brief, the configuration side of two electrodes of each charge and discharge device 100 and the cradle 200
Formula is all annular arrangement and forms electrode retaining collar junction surface respectively, and by mutual electrode engagement of loops portion in structure each angle it is mutual
Fasten, and then lift these charge and discharge devices 100 and the stability of the cradle 200 when storehouse each other.
In preferred embodiment, on each charge and discharge device 100 and the cradle 200, connect in being configured with two electrode retaining collars
On the face in conjunction portion, different electrode retaining collar junction surface configures with concentric annular and away from the different distance in the center of circle.
Accordingly, by the top surface 210 of cradle 200 concentric ring-shaped electrode setting so that storehouse thereon under
Charge and discharge device 100a can be combined with the cradle 200 at any angle;And lower second faces of charge and discharge device 100a 120
The setting of concentric ring-shaped electrode so that the upper charge and discharge device 100b of storehouse thereon can at any angle with the lower discharge and recharge
Device 100a is combined, and enters to improve the efficiency of storehouse.
Again referring to Fig. 6, it is the functional block diagram of the stacking-type charging system 1000 ' of another embodiment of the present invention.Fig. 6
Stacking-type charging system 1000 ' and Fig. 3 shown in difference be in the charge and discharge device of the stacking-type charging system 1000 '
100 can also include wireless discharge module 150 and connect the wireless control of discharge module 160 of the wireless discharge module 150.
As shown in fig. 6, passed with the functional block diagram of signal to show the stacking-type charging system 1000 ' electric power when charging
Defeated state.
In detailed illustration, this is wireless, and discharge module 150 may include mu balanced circuit (not shown), PM (PWM)
Power supply circuit (not shown) and induction coil (not shown), and the wireless discharge module 150 can be by the first wireless electric discharge control
The control of molding block 160, come be opposite to the top of charge and discharge device 100 with the wireless discharge module 150 with wireless charging
The charge and discharge device or electronic installation (such as mobile phone) of Electricity Functional carry out wireless charging, and as the shifting with wireless charging function
Dynamic supply unit;In another embodiment, this is wireless, and discharge module 150 also includes wireless discharge module status display unit 170,
The wireless discharge module 150 is electrically connected with, to show the wireless discharge module 150 to be turned on and off state.For example, when
This is wireless, and discharge module 150 is opening, i.e., when the wireless discharge module 150 is discharged, the diode displaying
Cresset is bright light;When the wireless discharge module 150 is closed mode, i.e., the wireless discharge module 150 stops electric discharge, this is luminous
The cresset that diode is shown is concealed light.Above-mentioned light emitting diode to should wirelessly the state of discharge module 150 bright dark state only
For example, however it is not limited to this.
In summary, the stacking-type charging system is by after the cradle and multiple charge and discharge device storehouses, is filled by this
Electrode between electric seat and these charge and discharge devices contacts so that the cradle is able to same to the battery module of charge and discharge device
Shi Jinhang charges, and lifts overall charge efficiency;Along with the concentric ring-shaped of these charge and discharge devices or cradle electricity
The setting of pole so that when these charge and discharge devices are stacked on the cradle, obtain storehouse at any angle, and lift the effect of storehouse
Rate;Arrange in pairs or groups again the technology of wireless discharge and recharge so that these charge and discharge devices must be carried out to other charge and discharge devices or electronic installation
Wireless charging.
The present invention has hereinbefore been disclosed with preferred embodiment, but it will be understood by those skilled in the art that the implementation
Example is only used for describing the present invention, and is not construed as limiting the scope of the present invention.It is it should be noted that every equivalent with the embodiment
Change and displacement, be regarded as being covered by scope of the invention.Therefore, protection scope of the present invention is when with claims
The content limited is defined.
Claims (9)
1. a kind of stacking-type charging system, it is characterised in that the charge and discharge device for making storehouse carries out parallel charging, bag
Contain:
Multiple charge and discharge devices, be respectively provided with the first face, the second face above first face and located at first face and this
Battery module between two faces, the first positive pole and the first negative pole are provided with first face, second is being provided with just on second face
Pole and the second negative pole, the anode of the battery module connect first positive pole and second positive pole, the battery module
GND connects first negative pole and second negative pole, wherein in adjacent two charge and discharge device of storehouse, is stacked over lower section
The first face of charge and discharge device of second face with being stacked over top of charge and discharge device be in contact and make the electrode of identical polar
It is electrically connected to each other;And
One cradle, in top surface be provided with charging positive pole and charging negative pole, with the charge and discharge device being positioned on the top surface
The first face on the first positive pole and the first negative pole make the electrical connection of identical polar, wherein, the cradle by the charging positive pole,
The connection line of each electrode in the charging negative pole and these charge and discharge devices, in these charge and discharge devices of storehouse thereon
Battery module provide charge power supply to carry out parallel charging;
Wherein in each charge and discharge device, in the first face and the second face wherein two electrodes are respectively configured as annularly in one side
Two electrode retaining collar junction surfaces of arrangement, and on the another side in the first face and the second face that two electrode configurations are convex for convex two
Portion, positive pole and negative pole are respective to be electrically connected to be formed for two convex portion engagement corresponding with the two electrode retaining collars junction surface, two electrode
Engagement of loops portion is in recess with the corresponding convex portion for accommodating two electrode.
2. stacking-type charging system as claimed in claim 1, it is characterised in that the charging positive pole of the cradle top surface and should
Charging negative pole is configured to the two electrode retaining collar junction surfaces annularly arranged or is configured to two convex convex portions, with being placed in this
The corresponding engagement of electrode on the first face on cradle.
3. stacking-type charging system as claimed in claim 2, it is characterised in that on each charge and discharge device and the cradle,
On the face at two electrode retaining collar junction surfaces is configured with, different electrode retaining collar junction surface is matched somebody with somebody with concentric annular and away from the different distance in the center of circle
Put.
4. stacking-type charging system as claimed in claim 1, it is characterised in that on each face of charge and discharge device first first just
Pole annularly arranges with the first negative pole and forms two bottom electrode engagement of loops portions, passes through upper and bottom electrode interannular between each charge and discharge device
The engagement at junction surface and storehouse, the charging positive pole and the charging negative pole of the cradle top surface annularly arrangement and form two chargings
Electrode retaining collar junction surface, the two charging electrodes engagement of loops portion respectively with two on the face of charge and discharge device first that is positioned on the top surface
Bottom electrode engagement of loops portion accordingly engages.
5. stacking-type charging system as claimed in claim 4, it is characterised in that the shape configuration at upper electrode rings junction surface is convex
Portion or recess, fixation is engaged so that the bottom electrode engagement of loops portion of corresponding recess or convex portion to be presented with shape, the charging electrode
The shape in engagement of loops portion is also configured to convex portion or recess for this of recess or convex portion bottom electrode engagement of loops corresponding to shape presentation
Portion engages fixation.
6. stacking-type charging system as claimed in claim 5, it is characterised in that these charging electrode rings on the cradle
In these bottom electrode engagement of loops portions and these upper electrode rings junction surfaces on junction surface and each charge and discharge device, the phase on the same face
Different electrode engagement of loops portion configures with concentric annular and away from the different distance in the center of circle.
7. stacking-type charging system as claimed in claim 1, it is characterised in that also including battery module status display list
Member, the battery module is electrically connected with, to show the state of charge of the battery module.
8. the stacking-type charging system as any one of claim 1 to 7, it is characterised in that each charge and discharge device is nothing
Micro USB electric discharge device, in addition to wireless discharge module and the control of discharge module for connecting the wireless discharge module, wherein this is wireless
Discharge module connects the battery module.
9. stacking-type charging system as claimed in claim 8, it is characterised in that also including wireless discharge module status display list
Member, the wireless discharge module is electrically connected with, to show the wireless discharge module to be turned on and off state.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201410238538.6A CN105305511B (en) | 2014-05-30 | 2014-05-30 | Stacking-type charging system |
Applications Claiming Priority (1)
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