CN204424955U - A kind of split type energy storage device and current transfer device and energy storage device - Google Patents

Abstract

The utility model provides a kind of split type energy storage device, it comprises a current transfer device and an energy storage device, this current transfer device and energy storage device are that split is arranged, this current transfer device comprises one first docking adapter, it is arranged at the splicing of current transfer device and energy storage device on the surface, this energy storage device comprises one second docking adapter, be arranged at the splicing of energy storage device and current transfer device on the surface its corresponding first docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.The utility model also provides a kind of current transfer device, and the splicing surface of this current transfer device is provided with one first docking adapter.The utility model also provides a kind of energy storage device, and the splicing surface correspondence of this energy storage device is provided with one second docking adapter.This split type energy storage device and current transfer device and energy storage device have and split simple, dock stable advantage.

Description

A kind of split type energy storage device and current transfer device and energy storage device

[technical field]

The utility model relates to the field of energy storage device, and especially one can change battery capacity, moveable split type energy storage device and current transfer device and energy storage device.

[background technology]

Along with the raising of quality of the life, increasing people like the activities such as self-driving travel.Tourism outside, will inevitably with oneself with many electronic products and electrical equipment, because the limited battery capacity of many electronic products, or some electrical equipment is not equipped with storage battery, and the moveable energy storage device of a kind of Large Copacity at this moment will be needed to power to these products.And many energy storage devices of commercial type are integrated design or split design is unreasonable, after electricity exhausts, must charge and could continue to use, and battery capacity can not be changed according to the demand of self, or prepare polylith battery back up, make troubles to user.

[utility model content]

Can not change the technical problem of battery capacity for overcoming existing energy storage device, the utility model provides a kind of structure simple, the split type energy storage device of replaceable battery capacity and current transfer device and energy storage device.

The utility model provides a kind of split type energy storage device, it comprises a current transfer device and an energy storage device, this current transfer device and energy storage device are that split is arranged, this current transfer device comprises one first docking adapter, it is arranged at the splicing of current transfer device and energy storage device on the surface, this energy storage device comprises one second docking adapter, be arranged at the splicing of energy storage device and current transfer device on the surface its corresponding first docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.

Preferably, dock up and down when this first docking adapter and the splicing of the second docking adapter.

Preferably, the splicing of this current transfer device is symmetrical parallel is on the surface provided with two gib blocks, the length of this gib block is more than or equal to the half of splicing length surface, the arranged outside of this gib block has a location notch, and the splicing surface correspondence of this energy storage device is provided with a gathering sill, and the length of this gathering sill is matched with gib block, a positioning strip is provided with in this gathering sill, when current transfer device and energy storage device splicing, gib block from top to down inserts gathering sill, location notch and the engaging of positioning strip correspondence.

Preferably, this current transfer device comprises a buckle slot further, and it is arranged on the first docking adapter of current transfer device, and this current transfer device comprises a buckle further, and its correspondence is arranged on energy storage device, and during splicing, buckle is stuck in buckle slot.

Preferably, this current transfer device comprises a groove further, and this groove is located at the top of Mosaic face.

Preferably, comprise leader and/or a braces further, this handle is arranged at the top of electric supply installation, and this braces is arranged at the two ends of handle or is symmetricly set in a side of energy storage device.

Preferably, this current transfer device inside comprises an inverter further, one transformer, one of one rectifier or its combination in any, this split type energy storage device comprises a solar energy input interface further, one vehicle-mounted interface, one of one commercial power charged interface or its combination in any, it is arranged at a side of current transfer device, this split type energy storage device comprises an alternating current output interface further, one direct current output interface, one of USB output interface or its combination in any, it is arranged at the another side of current transfer device.

Preferably, this split type energy storage device length is 200mm-300mm, and width is 200mm-400mm, is highly 300mm-500mm.

The utility model also provides a kind of current transfer device, it uses for splicing with a kind of energy storage device, the splicing surface of this energy storage device is provided with one second docking adapter, the splicing surface of this current transfer device is provided with one first docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.

The utility model also provides a kind of energy storage device, it uses for splicing with a kind of current transfer device, the splicing surface of this current transfer device is provided with one first docking adapter, the splicing surface correspondence of this energy storage device is provided with one second docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.

Compared with prior art, the utility model has the following advantages:

1. the current transfer device of split type energy storage device of the present utility model and energy storage device rely on detachable structure to be fixed on one piece, and current transfer device is provided with one first docking adapter, this energy storage device is provided with the second docking adapter.This first docking adapter and the second docking adapter are a big current pluggable terminals, during use, the first connector is connected with the second connector plugging, due to the weight of split type energy storage device of the present utility model and overall dimension larger, if current transfer device and energy storage device adopt general contact to be connected, both easily loose contacts, cause split type energy storage device to operate unstable, this design ensure that the reliability that split type energy storage device firmly connects and uses.

2. this current transfer device and energy storage device rely on a snap-in structure to be fixed on one piece, the splicing of this current transfer device is symmetrical parallel is on the surface provided with two gib blocks, the length of this gib block is more than or equal to the half of splicing length surface, the arranged outside of this gib block has a location notch, the splicing surface correspondence of this energy storage device is provided with a gathering sill, the length of this gathering sill is matched with gib block, a positioning strip is provided with in this gathering sill, when current transfer device and energy storage device splicing, gib block from top to down inserts gathering sill, location notch and the engaging of positioning strip correspondence, the engaging of this snap-in structure is stable, current transfer device and energy storage device not easily separate.

3. this current transfer device and energy storage device rely on detachable structure to be fixed on one piece, the energy storage device of different capabilities can be changed according to demand, make need not carry multiple energy storage device with the user of TV university, only need carry a current transfer device and multiple energy storage device, alternatively use, or user can select the energy storage device of different capabilities according to self-demand, greatly reduce the space that energy storage device occupies, and decrease the expense expenditure with the user of TV university.

4. split type energy storage device of the present utility model has multiple charging input interface and output interface, makes it to utilize charging in many ways to carry out charging and this equipment can supply multiple electrical equipment, and mobile device uses, and facilitates user widely, improves user's impression.

5. current transfer device of the present utility model comprises a groove, and this groove is located at the top of Mosaic face.The geomery of this groove is matched with the size of general staff, and when splitting current transfer device and energy storage device, the hand being convenient to user is placed and force.

6. a kind of split type energy storage device of the utility model is provided with handle and braces and facilitates user widely and move this equipment, and user experiences better.

7. the internal structure height of a kind of split type energy storage device of the present utility model is integrated, its size is less than the energy storage device of general equal battery capacity, no matter user adopts hand-held, take on across, the modes such as the shoulder back of the body move this split type energy storage device, this size, the split type energy storage device of weight can move more easily, this split type energy storage device mobility can't be reduced because of size or weight issue.

[accompanying drawing explanation]

Fig. 1 is the perspective view at a kind of visual angle of a kind of split type energy storage device of the utility model first embodiment, and it comprises a current transfer device and an energy storage device.

Fig. 2 is the perspective view at the another kind of visual angle of a kind of split type energy storage device of the utility model first embodiment, and it comprises a current transfer device and an energy storage device.

Fig. 3 is the perspective view of the current transfer device of the utility model first embodiment.

Fig. 4 is the perspective view of the energy storage device of the utility model first embodiment.

Fig. 5 is the perspective view of the energy storage device of the utility model first embodiment.

Fig. 6 is the perspective view of the energy storage device of the utility model first embodiment.

Fig. 7 is the scheme of installation of a kind of split type energy storage device of the utility model first embodiment.

[embodiment]

In order to make the purpose of this utility model, technical scheme and advantage are clearly understood, below in conjunction with accompanying drawing and embodiment, are further elaborated to the utility model.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1 and Fig. 2, the utility model first embodiment provides a kind of split type energy storage device 1, and this split type energy storage device 1 comprises current transfer device 2 and an energy storage device 4, and this energy storage device 4 is detachably fixed on current transfer device 2.

The bottom of current transfer device 2 and energy storage device 4 is a plane, the center of gravity of current transfer device 2 and energy storage device 4 is all in the plane of themselves bottom, therefore, when whole split type energy storage device 1 is split as current transfer device 2 and energy storage device 4, two devices all can uprightly be positioned on smooth ground, are convenient to the split and assembling of split type energy storage device 1.

Current transfer device 2 comprises a current converter (not shown), multiple input interface 21 and multiple output interface 23.This current converter is built in current transfer device 2, the integrated inverter of this current converter height, one transformer, one rectifier, inverter is that direct current is transformed into alternating current, the converting electric energy in energy storage device is become alternating current, exports to general household appliances, as computer, TV, washing machine, smoke exhaust ventilator, refrigerator, video tape recorder, massager, fan, illumination use.Rectifier, after alternating current is transformed into direct current, charges to energy storage device.Transformer is by the alternating current of output or direct current step-down or boosts to supply electrical equipment use to be charged.

Input interface 21 is arranged at the side of current transfer device 2, and this input interface 21 is for accessing current charges, and this input interface 21 is electrical connected with rectifier.Input interface 21 comprises the vehicle-mounted interface of a solar energy input interface 211, one 213 and a commercial power charged interface 215, and the energy that solar energy electroplax is collected, for accessing external solar energy electroplax, inputs in energy storage device 4 by this solar energy input interface 211; The electric energy of on-vehicle battery, for being electrical connected with vehicle-mounted charge mouth, inputs in the middle of energy storage device 4 by this vehicle-mounted interface 213; This commercial power charged interface 215, for accessing civil power, charges to energy storage device with civil power.Charging input interface 21 includes multiple charging input mode, and this facilitates user widely from charging input mode corresponding to main separation, can't limit to single charging modes.

Output interface 23 is arranged at the opposite side of current transfer device 2, and this output interface 23 is for exporting the electric energy in the middle of energy storage device 4, and itself and inverter and transformer are electrical connected.This output interface 23 comprises alternating current output interface 231, direct current output interface 233 and a USB output interface 235.This alternating current output interface 231 output AC electricity, supply household electrical appliance use, as washing machine, refrigerator, microwave oven etc.This direct current output interface 233 exports direct current, and supply compact electric apparatus uses, as video camera, and electron telescope etc.This USB output interface 235 exports direct current, and supply mobile device uses, as mobile phone, and panel computer etc.Output interface 23 comprises the multiple way of output, meets user widely to different electrical equipment, the charge requirement of mobile device.

Refer to Fig. 3, current transfer device 2 comprises two gib blocks, 61, two location notchs 63 further, and these two gib blocks 61 are symmetricly set in the splicing of current transfer device 2 and energy storage device 4 on the surface, the length direction of this gib block 61 is perpendicular to horizontal plane, and its projected direction is towards energy storage device 4.This location notch 63 is arranged at the outside of gib block 61, and its length direction is equally perpendicular to horizontal plane, and its opening direction is perpendicular to the projected direction of gib block 61.

Current transfer device 2 comprises one first docking adapter 81 further, and this first docking adapter 81 is arranged at the top on the splicing surface of current transfer device 2 and energy storage device 4, and it is by power supply changeover device and input interface 21, and output interface 23 is electrical connected.The top of this first docking adapter 81 is provided with a buckle slot 91, this buckle slot 91 for a buckling component of energy storage device 4 with the use of.

Current transfer device 2 comprises a groove 95 further, and this groove 95 is arranged at the top of current transfer device 2 Mosaic face.The geomery of this groove 95 is matched with the size of general staff, and when splitting current transfer device 2 and energy storage device 4, the hand being convenient to user is placed and force.

Refer to Fig. 4, energy storage device 4 comprises two gathering sills 65 and two positioning strips 67, and these two gathering sills 65 are arranged at the splicing of energy storage device 4 on the surface, and it is corresponding with gib block 61 is arranged.This positioning strip 67 is arranged in the opening of gathering sill 65, and it is corresponding with location notch 63 is arranged.Gathering sill 65 and gib block 61, positioning strip 67 and location notch 63 form a snap-in structure.

Energy storage device 4 is provided with one second docking adapter 83 and a battery (not shown) further, this battery is built in energy storage and arranges in 4, be electrical connected with current converter, this battery is used for store electrical energy, this battery can be replaced the battery of the same race of different capabilities, therefore in use, this energy storage device 4 has different Capacity Selection.

This second docking adapter 83 is arranged at the middle part of energy storage device 4 towards the one side of current transfer device 2, and this second docking adapter 83 is electrical connected with battery, and its top is corresponding with the bottom of the first docking adapter 81.When current transfer device 2 and energy storage device 4 are assembled, the first docking adapter 81 and the second docking adapter 83 electrically conduct, and form a power supply docking structure.This power supply docking structure is a big current pluggable terminals, and during use, the first connector 81 is connected with the second connector 83 plug, and this design ensure that split type energy storage device 1 firmly connects and dependability.

Energy storage device 4 is provided with a buckle 93 further, and the corresponding buckle slot 91 of this buckle 93 is arranged at the top of energy storage device 4 towards the one side of current transfer device 2.This buckle 93 can snap in buckle slot 91 by elastic telescopic, forms a fastening structure with buckle slot 91.

Refer to Fig. 5, energy storage device 4 comprises a braces 43 and leader 41.

This handle 41 is arranged at the top of energy storage device 4, and person easy to use is portable to move energy storage device 4.The set-up mode of this braces 43 has two kinds, and one is shoulder straddle type, and this braces 43 is fixedly installed on the two ends of handle 41, and whole split type energy storage device 1 can move by user on shoulder.Refer to Fig. 6, the second is that two braces 43 are symmetricly set in the one side that energy storage device 4 differs from current transfer device 2, and user can by the whole back of the body of split type energy storage device 1 piggyback, be the movement of person easy to use to energy storage device 4 equally.

The internal structure height of a kind of split type energy storage device 1 of the present utility model is integrated, its size is less than the energy storage device of general equal battery capacity, length is 200mm-300mm, width is 200mm-400mm, be highly 300mm-500mm, preferred size is length 280mm, width 310mm, high 420mm, its weight is less than or equal to 22kg, no matter user adopts hand-held, take on across, the modes such as the shoulder back of the body move this split type energy storage device 1, this size, the split type energy storage device 1 of weight can move more easily, this split type energy storage device 1 mobility can't be reduced because of size or weight issue.

Refer to Fig. 7, split type energy storage device 1 of the present utility model can according to demand, and change the energy storage device 4 of different capabilities, the process of replacing is as follows:

Press the top of buckle 93, make it to exit from buckle slot 91, from bottom to up current transfer device 2 is withdrawn in the gathering sill 65 of snap-in structure 6.By the top of the gathering sill 65 of energy storage device 4 to be replaced for the bottom alignment of the gib block 61 of current transfer device 2, press buckle 93, current transfer device 2 is fastened togather along gathering sill 65 from top to down, and the first docking adapter 81 is connected with the second docking adapter 83, engages successfully.

The utility model has the second embodiment, this split type energy storage device 1 comprises one second energy storage device (not shown) further, this second energy storage device is built-in with one second battery, wherein a side is provided with second gathering sill corresponding with the gib block 61 of current transfer device 2 and location notch 63 and the second positioning strip, it forms snap-in structure with it, this side arranges three docking adapter corresponding with the first docking adapter 81 further, and it forms with it power supply docking structure.Another side is provided with second gib block corresponding with the gathering sill 65 of energy storage device 4 and positioning strip 67 and the second location notch, same and energy storage device 4 forms snap-in structure, this another side arranges four docking adapter corresponding with the second docking adapter 83 further, and it forms with it power supply docking mechanism.This second energy storage device is arranged between current transfer device 2 and energy storage device 4, and it utilizes power supply docking structure and current transfer device 2 and energy storage device 4 electrically to connect, and it can reach the stored energy capacitance increasing split type energy storage device.

The utility model has the current transfer device (not shown) of a kind of split type energy storage device of the 3rd embodiment, the current transfer device of this kind of split type energy storage device is the current transfer device 2 in a kind of split type energy storage device 1 of the utility model first embodiment, and the current transfer device of this kind of split type energy storage device coordinates energy storage device to use.

The utility model has the energy storage device (not shown) of a kind of split type energy storage device of the 4th embodiment, the energy storage device of this kind of split type energy storage device is the energy storage device 4 in a kind of split type energy storage device 1 of the utility model first embodiment, and the energy storage device of this kind of split type energy storage device can coordinate current transfer device to be used alone.

The split type energy storage device 1 of the utility model is relative to prior art, and advantage is:

1. the current transfer device 2 of split type energy storage device 1 of the present utility model and energy storage device 4 rely on detachable structure to be fixed on one piece, and current transfer device 2 is provided with one first docking adapter 81, this energy storage device 4 is provided with the second docking adapter 83.This first docking adapter 81 and the second docking adapter 83 are a big current pluggable terminals, during use, the first connector 81 is connected with the second connector 83 plug, due to the weight of split type energy storage device 1 of the present utility model and overall dimension larger, if current transfer device 2 and energy storage device 4 adopt general contact to be connected, both easily loose contacts, cause split type energy storage device 1 to operate instability, this design ensure that the reliability that split type energy storage device 1 firmly connects and uses.

2. this current transfer device 2 and energy storage device 4 rely on a snap-in structure to be fixed on one piece, the splicing of this current transfer device 2 is symmetrical parallel is on the surface provided with two gib blocks 61, the length of this gib block 61 is more than or equal to the half of splicing length surface, the arranged outside of this gib block 61 has a location notch 63, the splicing surface correspondence of this energy storage device 4 is provided with a gathering sill 65, the length of this gathering sill 65 is matched with gib block 61, a positioning strip 67 is provided with in this gathering sill 62, when current transfer device 2 and energy storage device 4 splice, gib block 61 from top to down inserts gathering sill 65, location notch 65 and the engaging of positioning strip 67 correspondence, the engaging of this snap-in structure is stable, current transfer device 2 and energy storage device 4 not easily separate.

3. this current transfer device 2 and energy storage device 4 rely on detachable structure to be fixed on one piece, the energy storage device 4 of different capabilities can be changed according to demand, make need not carry multiple energy storage device with the user of TV university, only need carry a current transfer device 2 and multiple energy storage device 4, alternatively use, or user can select the energy storage device 4 of different capabilities according to self-demand, greatly reduce the space that energy storage device occupies, and decrease the expense expenditure with the user of TV university.

4. split type energy storage device 1 of the present utility model has multiple charging input interface 21 and output interface 23, make it to utilize charging in many ways to carry out charging and this equipment can supply multiple electrical equipment, mobile device uses, and facilitates user widely, improves user's impression.

5. current transfer device of the present utility model comprises a groove 95, and this groove 95 is located at the top of Mosaic face.The geomery of this groove 95 is matched with the size of general staff, and when splitting current transfer device 2 and energy storage device 4, the hand being convenient to user is placed and force.

6. a kind of split type energy storage device 1 of the utility model is provided with handle 41 and braces 43 and facilitates user widely and move this equipment, and user experiences better.

7. the internal structure height of a kind of split type energy storage device 1 of the present utility model is integrated, its size is less than the energy storage device of general equal battery capacity, no matter user adopts hand-held, take on across, the modes such as the shoulder back of the body move this split type energy storage device 1, this size, the split type energy storage device 1 of weight can move more easily, this split type energy storage device 1 mobility can't be reduced because of size or weight issue.

The foregoing is only the utility model preferred embodiment, not in order to limit the present invention, all any amendments done within the utility model principle, equivalent replacement and improvement etc. all should comprise within protection range of the present utility model.

Claims (10)

1. a split type energy storage device, it comprises a current transfer device and an energy storage device, this current transfer device and energy storage device are that split is arranged, it is characterized in that: this current transfer device comprises one first docking adapter, it is arranged at the splicing of current transfer device and energy storage device on the surface, this energy storage device comprises one second docking adapter, be arranged at the splicing of energy storage device and current transfer device on the surface its corresponding first docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.

2. a kind of split type energy storage device as claimed in claim 1, is characterized in that: dock up and down when this first docking adapter and the splicing of the second docking adapter.

3. a kind of split type energy storage device as claimed in claim 1, it is characterized in that: the splicing of this current transfer device is symmetrical parallel is on the surface provided with two gib blocks, the length of this gib block is more than or equal to the half of splicing length surface, the arranged outside of this gib block has a location notch, the splicing surface correspondence of this energy storage device is provided with a gathering sill, the length of this gathering sill is matched with gib block, a positioning strip is provided with in this gathering sill, when current transfer device and energy storage device splicing, gib block from top to down inserts gathering sill, location notch and the engaging of positioning strip correspondence.

4. a kind of split type energy storage device as claimed in claim 1, it is characterized in that: this current transfer device comprises a buckle slot further, it is arranged on the first docking adapter of current transfer device, this current transfer device comprises a buckle further, its correspondence is arranged on energy storage device, during splicing, buckle is stuck in buckle slot.

5. a kind of split type energy storage device as claimed in claim 1, it is characterized in that: this current transfer device comprises a groove further, this groove is located at the top of Mosaic face.

6. a kind of split type energy storage device as claimed in claim 1, is characterized in that: comprise leader and/or a braces further, this handle is arranged at the top of electric supply installation, this braces is arranged at the two ends of handle or is symmetricly set in a side of energy storage device.

7. a kind of split type energy storage device as claimed in claim 1, it is characterized in that: this current transfer device inside comprises an inverter further, one transformer, one of one rectifier or its combination in any, this split type energy storage device comprises a solar energy input interface further, one vehicle-mounted interface, one of one commercial power charged interface or its combination in any, it is arranged at a side of current transfer device, this split type energy storage device comprises an alternating current output interface further, one direct current output interface, one of one USB output interface or its combination in any, it is arranged at the another side of current transfer device.

8. a kind of split type energy storage device as claimed in claim 1, is characterized in that: this split type energy storage device length is 200mm-300mm, and width is 200mm-400mm, is highly 300mm-500mm.

9. a current transfer device, it uses for splicing with a kind of energy storage device, the splicing surface of this energy storage device is provided with one second docking adapter, it is characterized in that: the splicing surface of this current transfer device is provided with one first docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.

10. an energy storage device, it uses for splicing with a kind of current transfer device, the splicing surface of this current transfer device is provided with one first docking adapter, it is characterized in that: the splicing surface correspondence of this energy storage device is provided with one second docking adapter, during splicing, the first docking adapter and the second docking adapter are electrically conducted by a pluggable terminals.