CN105656100A - Charging combination, charging device of charging combination and electricity storage device - Google Patents

Abstract

The invention discloses a charging device. The charging device comprises a charging casing, a first charging terminal set comprising more than two first charging terminals, a second charging terminal set comprising more than two second charging terminals corresponding to the first charging terminals in a one-to-one mode, and a charging circuit used for making at least one set of the first charging contact member and the second charging contact member have a voltage difference, wherein the charging casing comprises a charging casing wall at least making the first charging terminal set and the second charging terminal set be exposed out of the charging casing, and the first charging terminal and the second charging terminal in one set correspond to each other in a one-to-one mode on the charging casing. The charging device can rapidly and simultaneously charge multiple electricity storage devices without plugging.

Description

Charging combination and charging device and electric storage device

Technical field

The present invention relates to a kind of charging device, be specifically related to a kind of charging device exempting from plug and electric storage device.

Background technology

Existing charger is when charging, it usually needs is inserted in the receiving space of charger by battery bag and is charged, so not only plugs cumbersome, it is difficult to is directed at but by charge position, loses time; And generally charging terminal is all located at inside receiving space, when occurring that charging is difficult to determine whether that its reliability is difficult to ensure that because the loose contact of charging terminal place time bad. And existing charger be charged to a battery bag, so then needs to charge successively when needs charge to multiple battery bags, loses time.

Summary of the invention

For solving the deficiencies in the prior art, it is an object of the invention to provide a kind of charging device that can be simultaneously charged to multiple electric storage devices.

In order to realize above-mentioned target, the present invention adopts the following technical scheme that:

A kind of charging device, including:

Charging shell;

First charging end subgroup, including plural first charging terminal;

Second charging end subgroup, including two or more and the first charging terminal the second charging terminal one to one;

Charging circuit, can make to produce between corresponding the first charging terminal and the second charging terminal of least one set voltage difference;

Wherein, charging shell includes: charging shell wall, at least makes the first charging end subgroup, the second charging end subgroup expose charging shell;

The first charging terminal one group corresponding and the second charging terminal one_to_one corresponding on charging shell is arranged.

Further, the first charging terminal is in line along the first straight line; Second charging terminal is in line along the second straight line, and the first straight line parallel is in the second straight line

Further, also include:

Charging recognition terminal group, including: more than one charging recognition terminal;

Charging circuit is by first charging terminal corresponding to signal behavior least one set of recognition terminal group of charging and the second charging terminal output electric energy.

Further, charging shell wall at least includes: two or more is along the identification region being parallel to the first rectilinear direction arrangement;

Only corresponding the first charging terminal one group corresponding and the second charging terminal in each identification region;

Each identification region includes: more than one edge is perpendicular to the unit area of the first rectilinear direction distribution, and a charging recognition terminal at least covers a unit area;

One identifies at least have one in region so as to be different from all the other unit areas identifying region.

Further, charging shell wall at least includes: two or more is along the identification region being parallel to the first rectilinear direction arrangement;

Each identification region is respectively provided with different charging recognition terminal.

Further, charging shell wall includes:

Lobe, including all along being parallel to protruding end face and two convex slopes intersected with protruding top surface inclination that the first rectilinear direction extends;

First charging end subgroup and the second charging terminal group are respectively arranged at two convex slope places of lobe, and charging recognition terminal group is arranged at the protruding end face place of lobe, identify that region is positioned at the protruding end face of lobe.

The present invention also proposes a kind of electric storage device, including:

Storage electricity shell;

First electrified terminal, is used for making electric storage device receive electric energy;

Second electrified terminal, is used for making electric storage device receive electric energy;

Battery, stores electric energy when at least can produce voltage difference between the first electrified terminal and the second electrified terminal;

Wherein, the first electrified terminal and the second electrified terminal are exposed independent from storing up electricity shell, the first electrified terminal and the second electrified terminal and arrange along the direction being parallel to the 3rd straight line.

Further, also include:

By electricity recognition terminal, electric storage device can be made when connected to be identified;

Storage electricity shell is exposed at least partly by electricity recognition terminal;

Storage electricity shell includes: storage electricity shell wall; First electrified terminal, the second electrified terminal, be may be contained within storing up electricity shell wall by electricity recognition terminal;

Storage electricity shell wall includes:

Concave part, including all along being perpendicular to groove end face and two the groove inclined-planes intersected with groove top surface inclination that the 3rd rectilinear direction extends;

First electrified terminal and the second electrified terminal are respectively arranged at two groove inclined-planes place, are arranged at groove end face place by electricity recognition terminal group.

The present invention also proposes a kind of charging combination, and it includes the electric storage device of above-described charging device sum; Wherein:

Wherein, electric storage device at least has two or more and can make to produce between the first electrified terminal and the second electrified terminal the charge position of voltage difference on charging shell wall.

Further, the charging shell wall of charging device at least can place plural electric storage device.

The invention have benefit that: the charging device of the present invention enables to electric storage device placed thereon and can be charged, it is not necessary to plug, and can be charged to multiple electric storage devices simultaneously, save the charging interval.

Accompanying drawing explanation

Fig. 1 show the three-dimensional structure diagram of the charging combination of the present invention, and wherein charging device is charged to two electric storage devices simultaneously;

Fig. 2 show the three-dimensional structure diagram of the charging combination of the present invention, and wherein charging device is charged to an electric storage device;

The three-dimensional structure diagram of the charging device that Fig. 3 show in Fig. 1;

The top view of the charging device that Fig. 4 show in Fig. 3;

Fig. 5 show the three-dimensional structure diagram of the electric storage device of the present invention;

The floor map of the charging device that Fig. 6 show in Fig. 3;

Fig. 7 show the floor map that electric storage device is positioned on charging device, and now the first electrified terminal in electric storage device only contacts with first charging terminal;

Fig. 8 show the floor map that electric storage device is positioned on charging device, and now the first electrified terminal in electric storage device contacts with two the first charging terminals simultaneously;

Fig. 9 show the floor map that two electric storage devices are positioned on charging device;

The floor map of another implementation of the charging device that Figure 10 show in Fig. 3;

The floor map of the another embodiment of the charging device that Figure 11 show in Fig. 3.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention done concrete introduction.

The present invention proposes a kind of charging device, electric storage device and has the charging combination of this charging device and electric storage device, and this charging device can be charged to multiple electric storage devices simultaneously.

Fig. 1 show the three-dimensional structure diagram of the charging combination of the present invention, and wherein charging device is charged to two electric storage devices simultaneously; Fig. 2 show the three-dimensional structure diagram of the charging combination of the present invention, and wherein charging device is charged to an electric storage device. Please with reference to Fig. 1 and Fig. 2, the charging combination 1 of the present invention includes: charging device 100 and electric storage device 200, by in figure it can be seen that the charging device 100 of the present invention can be only an electric storage device 200 is charged, it is also possible to be charged to two electric storage devices 200 simultaneously. Certainly, charging device 100 is arranged according to its concrete structure, it is also possible to be charged for plural electric storage device 200 simultaneously, and its number simultaneously can charged is not limited thereto, but can be at least that two electric storage devices 200 are charged simultaneously. The electric storage device 200 on any one position that simultaneously charging device 100 in the present invention enables to be located thereon in multiple position all can realize charging.

Introduce the charging device 100 in charging combination 1 in detail below how to realize can being charged and enable to electric storage device 200 to multiple electric storage devices 200 simultaneously and can any one position in multiple positions all can realize charging.

The three-dimensional structure diagram of the charging device that Fig. 3 show in Fig. 1; The top view of the charging device that Fig. 4 show in Fig. 3. Please with reference to Fig. 1 to Fig. 4, charging device 100 for charging to electric storage device 200, its can be therein can energy storage charger baby or can also be can convert the alternating current in the utility grid of outside to can be accepted by electric storage device 200 charger or adapter. In the present embodiment, this charging device 100 includes: charging shell the 11, first charging end subgroup the 12, second charging end subgroup 13, charging circuit (not shown) and charging recognition terminal group 14.

Charging shell 11 is for forming the profile of charging device 100, and charging shell 11 is internally formed the receiving space for housing the devices such as circuit board. Charging shell 11 includes: charging shell wall 111, and charging shell wall 111 is used for placing electric storage device 200. First charging end subgroup the 12, second charging end subgroup 13 and charging recognition terminal group 14 are arranged on charging shell wall 111, and first charging end subgroup the 12, second charging end subgroup 13 and charging recognition terminal group 14 be exposed independent from charging shell 11, so can be placed on charging shell wall 111 on electric storage device 200 directly contact. It should be noted that, first charging end subgroup 12 mentioned here is exposed charging shell 11 and is referred to, the outer surface of charging shell 11 is provided with the through hole that the first charging end subgroup 12 can be made to spill charging shell 11, thus electric storage device 200 be positioned on charging shell 11 can corresponding contact to the first charging end subgroup 12, such as, make the outer surface of the first charging end subgroup 12 and the flush with outer surface of charging shell 11, and the outer surface being not required for the first charging end subgroup 12 protrudes from the outer surface of charging shell 11, protrusion slightly can make contact better certainly.

Preferably, charging shell wall 111 also including lobe 112, this lobe 112 includes: protruding end face 112a and two convex slope 112b.Wherein, protruding end face 112a extends along the first straight line L direction, and two convex slope 112b lay respectively at the both sides of protruding end face 112a, and tilt to intersect with protruding end face 112a. First charging end subgroup 12 is positioned in one of them of two convex slope 112b, and the second charging end subgroup 13 is arranged on another of two convex slope 112b, and charging recognition terminal group 14 is positioned on protruding end face 112a. This lobe 112 can match with the counter structure on electric storage device 200 so that electric storage device 200 can slide along the first straight line L direction and will not be subjected to displacement on vertical first straight line L direction.

First charging end subgroup 12 includes plural first charging terminal 121, and the second charging end subgroup 13 includes plural second charging terminal 131. Wherein, each second charging terminal 131 and the first charging terminal 121 one_to_one corresponding, and the first charging terminal 121 is in line along the first straight line L, the second charging terminal 131 is in line along the second straight line M, and the first straight line L is parallel to the second straight line M. So, one group of first charging terminal 121 and the second charging terminal 131 are correspondingly arranged on the direction being parallel to the first straight line L one to one, thus the one of correspondence group of first charging terminal 121 and the second charging terminal 131 respectively as two lead-out terminals for exporting electric energy of charging device 100, can correspond to positive and negative output terminal respectively.

It is internal that charging circuit is arranged at charging shell 11, for contacting with first charging terminal 121 and the second charging terminal 131 respectively, make to produce between the two voltage difference, thus being charged to the electric storage device 200 constituting loop with the first charging terminal 121 and the second charging terminal 131.

Charging recognition terminal group 14 includes: at least one recognition terminal 141 of charging, for identifying the position that electric storage device 200 is positioned on charging shell wall 111, thus it is that electric storage device 200 is charged that charging circuit exports electric energy by one group of first charging terminal 121 corresponding to signal behavior of recognition terminal group 14 of charging and the second charging terminal 131.

Fig. 5 show the three-dimensional structure diagram of the electric storage device of the present invention. Refer to Fig. 5, the electric storage device 200 of the present invention is used for storing electric energy, for instance be how battery bag. Concrete, the electric storage device 200 of the present invention includes: stores up electricity shell 21, battery (not shown), first electrified terminal the 22, second electrified terminal 23 and is subject to electricity recognition terminal 24.

Storage electricity shell 21 is for forming the profile of electric storage device 200, and it is internally formed the receiving space for housing the devices such as battery. Concrete, charging shell 11 also includes storing up electricity shell wall 211, first electrified terminal 22, second electrified terminal 23 and be may be contained within storing up on the storage electricity shell wall 211 of electricity shell 21 by electricity recognition terminal 24, this storage electricity shell wall 211 be the wall that electric storage device 200 contacts with the shell wall 111 that charges when being positioned on charging shell 11. Battery is for contacting with the first electrified terminal 22 and the second electrified terminal 23 respectively, and produces storage electric energy during voltage difference between the first electrified terminal 22 and the second electrified terminal 23.

First electrified terminal 22 and the second electrified terminal 23 are used for making electric storage device 200 receive electric energy, it is used for making electric storage device 200 identified thus being charged by electricity recognition terminal 24, and three is exposed independent from storing up electricity shell 21, the first electrified terminal 22 and the second electrified terminal 23 and arranges along the direction being parallel to the 3rd straight line Y. 3rd straight line Y mentioned here refers to electric storage device 200 when being positioned on charging device 100, direction that can be vertical for straight line L with first, when so making electric storage device 200 be positioned on the charging shell 11 of charging device 100, first electrified terminal 22 and the second electrified terminal 23 can be corresponding with corresponding one group of first charging terminal 121 and the second charging terminal 131 position, thus the first electrified terminal 22 can directly contact the first charging terminal 121, second electrified terminal 23 can directly contact second charging terminal 131 corresponding with the first charging terminal 121, so that electric storage device 200 is positioned on charging shell 11 can realize charging.

Preferably, storage electricity shell wall 211 also includes concave part 212, and this concave part 212 includes a groove end face 212a and two groove inclined-plane 212b. groove end face 212a extends along being perpendicular to the 3rd straight line Y-direction, two groove inclined-plane 212b are respectively arranged at the both sides of groove end face 212a, first electrified terminal 22 and the second electrified terminal 23 are respectively arranged on two groove inclined-plane 212b, and charging recognition terminal 141 is arranged on groove end face 212a. the size of concave part 212 can be corresponding with the lobe 112 in charging device 100, so under the mating reaction of concave part 212 and lobe 112, electric storage device 200 can slide along the first straight line L direction on charging device 100 and can not move along the direction being perpendicular to the first straight line L, thus the first electrified terminal 22 being positioned on groove inclined-plane 212b accurately can contact with the first charging terminal 121 being positioned on convex slope 112b, will occur dislocation that the situation that can not contact occurs in the direction being perpendicular to the first straight line L, same, it is positioned at the second electrified terminal 23 on groove inclined-plane 212b to contact with the second charging terminal 131 being positioned on convex slope 112b, and it is positioned at can be contacted by electricity recognition terminal 24 on groove end face 212a with the charging recognition terminal 141 being positioned on protruding end face 112a, thus realizing charging.

Contact with by electric recognition terminal 24 and can detect, in order to realize charging recognition terminal 141, the particular location that electric storage device 200 is positioned on charging device 100, so that the first charging terminal 121 and the second charging terminal 131 on the charging device 100 of correspondence export electric energy, being provided that of the charging recognition terminal 141 of charging recognition terminal group 14

As shown in Figure 6 and Figure 7, the present embodiment includes three the first charging terminals 121 with the first charging end subgroup 12 in charging device 100, second charging end subgroup 13 includes three the second charging terminals 131, charging recognition terminal group 14 includes two charging recognition terminal 141, corresponding, it is example that electric storage device 200 includes two by electricity recognition terminal 24:

As shown in Figure 6, charging shell wall 111 includes the identification region 15 corresponding with the first charging terminal 121 number, identify that region 15 is positioned on the protruding end face 112a of lobe 112, and be arranged in order along the first straight line L direction, corresponding one group of first charging terminal 121 in each identification region 15 and the second charging terminal 131. In the present embodiment, each identification region 15 also includes two edges and is perpendicular to the unit area 151 of the first straight line L directional spreding, each unit area 151 can have charging recognition terminal 141, can also not charge recognition terminal 141, and make each identification region 15 has different charging recognition terminal 141, so that each identification region 15 has at least the unit area 151 in not all the other identification regions 15, a region, thus having different identification signals, corresponding identifies the first different charging terminal 121 and the second charging terminals 131.

In order to the particular location being how to identify electric storage device 200 is clearly described in the application, thus trigger correspondence one group of first charging terminal 121 and the second charging terminal 131 export electric energy, we specify unit area 151 has recognition terminal 141 of not charging for coding 0, the region having charging recognition terminal 141 is coding 1. So, we come each identification region 15 of corresponding differentiation with 0,1 two codings.Such as, in the identification region 15 that the first charging terminal A1 and second are corresponding for charging terminal A2, the result of recognition coding should be 10 from top to bottom; And in the identification region 15 that the first charging terminal B1 and second are corresponding for charging terminal B2, the result of recognition coding should be 11 from top to bottom; In the identification region 15 that the first charging terminal C1 and second are corresponding for charging terminal C2, the result of recognition coding should be 01 from top to bottom. So difference according to recognition coding, produces different identification signals, so correspondence distinguish the first different charging terminals 121 and the second charging terminal 131 exports electric energy. Additionally as shown in Figure 10, recognition coding can also be 00, that is to say and does not comprise any charging recognition terminal 141 in this identification region 15.

Concrete, shown in accompanying drawing 7, when electric storage device 200 is positioned on the charging shell wall 111 of charging device 100, and first electrified terminal 22 only contact with the first charging terminal A1, when second electrified terminal 23 only contacts with the second charging terminal A2, at this moment the electricity recognition terminal 24 that is subject on electric storage device 200 is positioned at the identification region 15 corresponding to the first charging terminal A1 and the second charging terminal A2, now recognition coding is 10, thus the triggering device of charger internal triggers the first charging terminal A1 and the second charging terminal A2 and exports electric energy to electric storage device 200. Again as shown in Figure 8, when electric storage device 200 is positioned on the charging shell wall 111 of charging device 100, and contact with the first charging terminal A1 and B1 while of the first electrified terminal 22, when second electrified terminal 23 contacts with the second charging terminal A2 and B2 simultaneously, at this moment the electricity recognition terminal 24 that is subject on electric storage device 200 is positioned at the identification region 15 corresponding to the first charging terminal B1 and the second charging terminal B2, now recognition coding is 11, thus the triggering device of charger internal triggers the first charging terminal B1 and the second charging terminal B2 and exports electric energy to electric storage device 200. As long as it should be noted that here each by electricity recognition terminal 24 some touch charging recognition terminal 141 time, recognition coding is 1.

In the present embodiment, because, only have three group of first charging terminal 121 and the second charging terminal 131, therefore the first charging terminal 121 and the second charging terminal 131 that can namely be capable of identify that and trigger correspondence only by charging circuit export electric energy, and when the first charging terminal 121 and the second charging terminal 131 number are more, circuit complexity in order to avoid charging circuit identification, one code identification device can be set in charging device 100, this code identification device can include MCU controller or dsp chip etc.

Certainly; understandable; as shown in figure 11; the first charging terminal 121 in the first charging end subgroup 12 in the present invention can not also arrange along the first straight line L, as long as the first charging terminal 121 and the second corresponding charging terminal 131 and charging recognition terminal 141 are positioned at the position one_to_one corresponding on charging shell wall 111 all in protection scope of the present invention.

Charging device 100 in the present invention can also make electric storage device 200 make the first charged charging terminal 121 and the second charging terminal 131 will not expose outside electric storage device 200 when charging and being charged on shell wall 111, thus avoiding the Danger Electric shock risk caused because operator encounter the first charged charging terminal 121 and the second charging terminal 131 by mistake. So, charging device 100 and electric storage device 200 need to meet following relation:

D+d/2��W/2;

2*D+p��W;

Wherein, W refers to the electric storage device 200 width along the first straight line L direction; D refers in electric storage device 200 first electrified terminal 22 and the second electrified terminal 23 along the length in the first straight line L direction; D refers in charging device 100 first charging terminal 121 and the second charging terminal 131 along the length in the first straight line L direction; P refers to the length between adjacent two the first charging terminal 121 or two adjacent the second charging terminals 131. Separately, the unit of dimensions above is all for millimeter, lower same.

The charging device 100 of the present invention can also ensure that when being charged first charging terminal 121 and the first electrified terminal 22 to electric storage device 200 at least have the contact length of more than 5mm, and second charging terminal 131 and the second electrified terminal 23 at least there is the contact length of more than 5mm, thus ensureing the optimum of contact, it is ensured that charge stability. So, charging device 100 and electric storage device 200 need to meet following relation:

(d-p)/2��5��

As shown in Figure 9, the charging device 100 of the present invention can also make the first electrified terminal 22 in adjacent two electric storage device 200 contact with the first different charging terminals 121 respectively when being charged to two electric storage devices 200, that is to say that the first electrified terminal 22 in adjacent two electric storage device 200 will not contact with same first charging terminal 121. So, charging device 100 and electric storage device 200 need to meet following relation:

2*(W/2-d/2)>D��

It addition, the charging device 100 of the present invention can also make electric storage device 200 be positioned at charging device 100 charging shell wall 111 border time still can be charged for electric storage device 200. So, charging device 100 and electric storage device 200 need to meet following relation:

M��(W-d)/2+ (d-5);

Wherein, M refers to the distance identifying region 15 near the edge of one end distance charging shell wall 111 of charging shell wall 111.

In the present embodiment, as shown in Figure 6, a charging recognition terminal 141 at least covers two unit areas 151. It will of course be understood that, charging recognition terminal 141 can also be only positioned in a unit area 151, as shown in Figure 10. The ultimate principle of the present invention, principal character and advantage have more than been shown and described. Skilled person will appreciate that of the industry, above-described embodiment does not limit the present invention in any form, and all employings are equal to the technical scheme that the mode of replacement or equivalent transformation obtains, and all fall within protection scope of the present invention.

Claims (10)

1. a charging device, it is characterised in that including:

Charging shell;

First charging end subgroup, including plural first charging terminal;

Second charging end subgroup, including two or more and described first charging terminal the second charging terminal one to one;

Charging circuit, can make to produce between corresponding described first charging terminal and described second charging terminal of least one set voltage difference;

Wherein, described charging shell includes: charging shell wall, at least makes described first charging end subgroup, described second charging end subgroup expose described charging shell;

Described first charging terminal one group corresponding and described second charging terminal one_to_one corresponding on described charging shell is arranged.

2. charging device according to claim 1, it is characterised in that described first charging terminal is in line along the first straight line; Described second charging terminal is in line along the second straight line, and described first straight line parallel is in described second straight line.

3. charging device according to claim 2, it is characterised in that also include:

Charging recognition terminal group, including: more than one charging recognition terminal;

Described charging circuit is by described first charging terminal corresponding to the signal behavior least one set of described charging recognition terminal group and described second charging terminal output electric energy.

4. charging device according to claim 3, it is characterised in that described charging shell wall at least includes: two or more is along the identification region being parallel to described first rectilinear direction arrangement;

Only corresponding described first charging terminal one group corresponding and described second charging terminal in each described identification region;

Each described identification region includes: more than one edge is perpendicular to the unit area of described first rectilinear direction distribution, and a described charging recognition terminal at least covers a described unit area;

One described identification region at least has one so as to be different from the unit area in all the other described identification regions.

5. charging device according to claim 3, it is characterised in that described charging shell wall at least includes: two or more is along the identification region being parallel to described first rectilinear direction arrangement;

Each described identification region is respectively provided with different described charging recognition terminal.

6. charging device according to claim 3, it is characterised in that described charging shell wall includes:

Lobe, including all along being parallel to protruding end face and two convex slopes intersected with described protruding top surface inclination that the first rectilinear direction extends;

Described first charging end subgroup and described second charging terminal group are respectively arranged at two described convex slope places of described lobe, described charging recognition terminal group is arranged at the described protruding end face place of described lobe, and described identification region is positioned at the described protruding end face of described lobe.

7. an electric storage device, it is characterised in that including:

Storage electricity shell;

First electrified terminal, is used for making described electric storage device receive electric energy;

Second electrified terminal, is used for making described electric storage device receive electric energy;

Battery, stores electric energy when at least can produce voltage difference between described first electrified terminal and described second electrified terminal;

Wherein, described first electrified terminal and described second electrified terminal be exposed independent from described storage electricity shell, described first electrified terminal and described second electrified terminal along be parallel to the 3rd straight line direction arrange.

8. electric storage device according to claim 7, it is characterised in that also include:

By electricity recognition terminal, described electric storage device can be made when connected to be identified;

Described by electricity recognition terminal expose at least partly described storage electricity shell;

Described storage electricity shell includes: storage electricity shell wall; Described first electrified terminal, described second electrified terminal, described by electricity recognition terminal may be contained within described storage electricity shell wall;

Described storage electricity shell wall includes:

Concave part, including all along being perpendicular to groove end face and two the groove inclined-planes intersected with described groove top surface inclination that the 3rd rectilinear direction extends;

Described first electrified terminal and described second electrified terminal are respectively arranged at two described groove inclined-planes place, described are arranged at described groove end face place by electricity recognition terminal group.

9. a charging combination, it is characterised in that including:

Charging device as described in claim 1 to 6 any one, and the electric storage device as described in claim 7 to 8 any one;

Wherein, described electric storage device at least has two or more on described charging shell wall and can make to produce between described first electrified terminal and described second electrified terminal the charge position of voltage difference.

10. charging combination according to claim 9, it is characterised in that the charging shell wall of described charging device at least can place plural described electric storage device.