CN206117282U - Modularization loose -leaf formula solar charging ware - Google Patents

Abstract

The utility model discloses a modularization loose -leaf formula solar charging ware, power output terminal (3) including a plurality of solar wafer subassembly (1) and the power output, connect and switch on through the mobile dismantlement of loose -leaf connector (2) concatenation between solar wafer subassembly (1), the connection of power output terminal (3) detachable is lieing in the outermost side on solar wafer subassembly (1) side. This utility model structure is simple, and it is convenient to use, and the user can assemble out the charger that has suitable output electric quantity as required, and the maintenance of being convenient for is changed, and resources are saved has stronger practicality.

Description

A kind of modularity loose-leaf system solar charger

Technical field

This utility model belongs to battery group technology field, more particularly, it relates to a kind of modularity loose-leaf system solar energy Charger.

Background technology

With increasing for electrical equipment, energy problem is also increasingly serious, and people increasingly focus on the utilization of solar energy.Too It is positive can charger be to convert solar energy into electrical energy, or be sent in accumulator and store, or promote loaded work piece.It is existing too Positive energy cell panel, will collect the luminous energy in more large area, need to expand battery plate suqare, and larger solar panel heaviness makes With mobile inconvenient, it is not convenient to use；Also the solar panel of some folding storages, but its structure function is single, generally A kind of charger only has single use specification, big using limitation, and keeps in repair replacing inconvenience, high cost, it is impossible to meet people Growing demand.

Utility model content

The purpose of this utility model is to solve the problems, such as prior art, there is provided a kind of simple structure, easy to use Modularity loose-leaf system solar charger, user can as needed assemble the charger with suitable output electricity.

To achieve these goals, the technical scheme that this utility model is taken is：This modularity loose-leaf system for being provided Solar charger, including the power supply outlet terminal of multiple solar battery sheet components and output electric energy, the solaode Connect and turn on by the movable dismounting splicing of loose-leaf adapter between piece component, the power supply outlet terminal removably connects On the outermost solar battery sheet component side.

To make above-mentioned technical proposal more detailed and concrete, this utility model also provides optimization technique further below Scheme, to obtain satisfied practical function：

The loose-leaf adapter includes positive pole blade and negative pole blade, by connecting between the positive pole blade and negative pole blade Connect mandrel to be rotatably connected.

Four attaching plugs that the solar battery sheet component is arranged up and down by solar battery sheet and located at its both sides Composition.

The attaching plug includes the cathode power supply plug and negative power supply plug of correspondence interlaced arrangement, positive electrical during connection The connection corresponding with the negative power supply plug on adjacent solar battery piece of source plug.

The positive pole blade is provided with the positive pole blade power interface that correspondence is plugged on the cathode power supply plug, described Negative pole blade is provided with the negative pole blade power interface that correspondence is plugged on the negative power supply plug.

The connecting mandrel is the conductive mandrel by made by conductive material, is provided with the positive pole leaf in the positive pole blade Piece power interface is connected to the connection circuit I of the connecting mandrel, and the negative pole blade interior is provided with negative pole blade electricity Source interface is connected to the connection circuit II of the connecting mandrel.

The two ends of the connecting mandrel are fixedly connected on the positive pole blade or negative pole blade, in the negative pole of the pairing Blade or positive pole blade are provided with the movable grab being connected on the mandrel.

The power supply outlet terminal includes the interior integrated charge battery for setting, and the power supply outlet terminal medial wall is provided with and institute The power input interface that attaching plug coordinates grafting is stated, the power supply outlet terminal lateral wall is provided with the power supply output of out-put supply Interface.

The solar battery sheet includes cephacoria, caudacoria and located at solaode therebetween, the cephacoria with too Positive can crimping by glue-line between battery and caudacoria and solar battery sheet is adhered, and the solar battery sheet is provided with uniform row Cloth it is multigroup, and between each solaode by connection circuit connection.

The multiple described solar battery sheet component being connected can be stacked, in the outermost solar battery sheet component It is provided with cingulum.

This utility model compared with prior art, with advantages below：This utility model modularity loose-leaf system solar charging Electrical equipment, can be easy to plant produced, management, also allow for using carrying；User can be assembled with suitable defeated according to the needs of oneself Go out the solar charger of electricity；The structure of detachable assembling, can also be easy to maintenance, use occur if any part for a long time Failure, only need to buy subassembly and be replaced, without discarding entirely because certain cell piece breaks down or circuit breaks down Solar charger, reduces the wasting of resources, with stronger practicality.

Description of the drawings

The content and the labelling in figure expressed by the accompanying drawing of this specification is briefly described below：

Fig. 1 is this utility model solar charger deployed configuration schematic diagram；

Fig. 2 is solar battery sheet structural representation；

Fig. 3 is solaode lamellar structure schematic diagram；

Fig. 4 is flexible jumper structural representation；

Fig. 5 is power supply outlet terminal attachment structure schematic diagram；

Fig. 6 is this utility model solar charger foldable structure schematic diagram；

Fig. 7 is the structural representation of this utility model solar charger another kind attachment structure.

It is labeled as in figure：1st, solar battery sheet component, 11, solar battery sheet, 111, cephacoria, 112, glue-line, 113, Solaode, 114, connection circuit, 115, caudacoria, 12, attaching plug, 121, cathode power supply plug, 122, negative power supply inserts Head, 2, loose-leaf adapter, 21, positive pole blade, 211, positive pole blade power interface, 212, connect circuit I, 22, negative pole blade, 221st, negative pole blade power interface, 222, connect circuit II, 23, connecting mandrel, 3, power supply outlet terminal, 31, power supply output connects Mouthful, 32, power input interface, 33, integrated charge battery, 4, cingulum.

Specific embodiment

Below against accompanying drawing, by the description to embodiment, specific embodiment of the present utility model is made further in detail Thin explanation.

This utility model modularity loose-leaf system solar charger, as shown in figure 1, including multiple solar battery sheet components 1 and output electric energy power supply outlet terminal 3.Connected by loose-leaf adapter 2 between solar battery sheet component 1, being connected as can Activity dismounting splicing connection, and mutual conduction.Power supply outlet terminal 3 is removably attachable to be located at outermost solar-electricity On the side of pond piece component 1.It is spliced to connect assembling, by multiple solar battery sheet components connection turn on each other, by increase or Reduce the energy-absorbing area of cell piece, to control photoelectric conversion rate.This modularity loose-leaf system solar charger, can be easy to user As needed assembling splicing, suitably to be exported electricity, is usable in various electrical equipments, and the suitability is wider；And just In maintenance, resources costss have been saved.

This utility model modularity loose-leaf system solar charger, as shown in figure 4, wherein loose-leaf adapter 2 includes positive pole Blade 21 and negative pole blade 22, are rotatably connected between positive pole blade 21 and negative pole blade 22 by connecting mandrel 23.Adjacent The connection and conducting between both positive and negative polarity, the knot being rotatably connected are realized by loose-leaf adapter 2 between solar battery sheet component 1 Structure reduces space hold to facilitate when not in use by its folding storage, is easy to carry and uses.

In this utility model, as shown in Figure 2, solar battery sheet component 1 by solar battery sheet 11 and located at its two Four attaching plugs 12 that side is arranged up and down are constituted.Wherein attaching plug 12 includes the cathode power supply plug of correspondence interlaced arrangement 121 and negative power supply plug 122.I.e. one solar battery sheet 11 is correspondingly provided with two cathode power supply plugs 121 and two negative Pole attaching plug 122, and positive and negative interlaced arrangement, to ensure in connection, cathode power supply plug 121 and adjacent solar battery piece The correspondence of negative power supply plug 122 on 11 connects, the cathode power supply on negative power supply plug 122 and adjacent solar battery piece 11 Plug 121.

As shown in figure 4, solar battery sheet component 1 is connected by loose-leaf adapter, in the positive pole blade 21 of loose-leaf adapter 2 The positive pole blade power interface 211 that correspondence is plugged on cathode power supply plug 121 is provided with, negative pole blade 22 is provided with correspondence and inserts The negative pole blade power interface 221 being connected on negative power supply plug 122.Connecting mandrel 23 is the conductive core by made by conductive material The connection circuit I 212 that positive pole blade power interface 211 is connected to connecting mandrel 23, negative pole leaf are provided with axle, positive pole blade 21 The connection circuit II 222 that negative pole blade power interface 221 is connected to connecting mandrel 23 is provided with inside piece 22.When using, pass through Positive pole blade 21 is plugged on cathode power supply plug 121, negative pole blade 22 is plugged on negative pole blade power interface 221, then Conducting is realized by the connection of both positive and negative polarity blade and connecting mandrel 23.

As shown in figure 4, the two ends of connecting mandrel 23 are fixedly connected on positive pole blade 21 or negative pole blade 22, in pairing Negative pole blade 22 or positive pole blade 21 are provided with the grab that movable clamping is connected on mandrel 23.It is of the present utility model a kind of real Mode is applied, the two ends of connecting mandrel 23 are fixedly connected on negative pole blade 22, inside set connection positive pole blade power interface 211 and be connected The connection circuit I 212 of mandrel 23；Grab is on corresponding negative pole blade 22.Connecting mandrel 23 can be connected to by grab card On, realize the splicing connection of solar battery sheet component 1.This kind of connected mode is convenient and fast connection, strong applicability.

This utility model modularity loose-leaf system solar charger, as shown in figure 5, its power supply outlet terminal 3 includes interior setting Integrated charge battery 33, the medial wall of power supply outlet terminal 3 be provided with attaching plug 12 coordinate grafting power input interface 32, The lateral wall of power supply outlet terminal 3 is provided with the power output interface 31 of out-put supply.Power supply outlet terminal 3 can easily splice connection On solar battery sheet component 1, realize connection, solar energy Jing solar battery sheets component 1 be converted into electric energy output store to In integrated charge battery 33, the external electrical equipment of power output interface 31 carries out transmission of electricity and uses.

As shown in figure 3, the Rotating fields of solar battery sheet 11 include cephacoria 111, caudacoria 115 and located at therebetween too Positive energy battery 113, is pressed between cephacoria 111 and solaode 113 and caudacoria 115 and solaode 113 by glue-line 112 Connect and be adhered, solaode 113 is provided with the multigroup of uniform arrangement, and is connected by connection circuit 114 between each solaode 113 Connect.Cephacoria 111 is transparent weathering layer, and caudacoria 115 is waterproof layer, and the solar battery sheet 11 is flexible material, is easy to folding to take Band.

As shown in fig. 6, the multiple solar battery sheet components 1 being connected can be stacked, in outermost solar battery sheet Component 1 is provided with cingulum 4.Cingulum 4 can select magnetic clasp band, with magnetic, produces with cell piece and makes a concerted effort, when not in use, will Each solar battery sheet component 1 is folded around connecting mandrel 23, and cell piece component is fastened as into a parcel with magnetic clasp band after folding , folding storage is efficient and convenient, is easy to carry.

This utility model modularity loose-leaf system solar charger, loose-leaf adapter, with rotating shaft function, loose-leaf two panels can To rotate around middle connecting mandrel 23.The interface being connected with plug is designed with each movable sheet, by two modular batteries Piece component is linked together by loose-leaf adapter, and circuit is also turned on therefrom.Solar energy is turned by solar battery sheet 11 Turn to electric energy.Side power supply outlet terminal 3, it is located at the side of the battery component for entirely assembling, and is integrated with charging circuit, Mu balanced circuit and rechargeable battery are integrated, and rechargeable battery is energy-storage battery, and sidepiece can be provided with the power supply output of multiple optional formulas and connect Mouthful, the suitable power output interface of connection can be selected according to electrical equipment.

As shown in Figure 7, solar battery sheet component 1 of the present utility model laterally or longitudinally can side by side connect and use, and lead to Cross and change the size of power supply outlet terminal 3 and be connected realization conducting, various splicing connection effects are obtained, driven more with meeting The electrical equipment of many different size power.

This utility model modularity loose-leaf system solar charger, can be easy to plant produced, management, also allow for using and take Band；User can assemble the solar charger with suitable output electricity according to the needs of oneself；The structure of detachable assembling, Also maintenance can be easy to, is used for a long time if any component failure, only need to be bought subassembly and be replaced, without Whole solar charger is discarded because certain cell piece breaks down or circuit breaks down, the wasting of resources is reduced, with stronger reality The property used.

This utility model is exemplarily described above in conjunction with accompanying drawing, but this utility model be not limited to it is above-mentioned Mode, as long as the improvement of the various unsubstantialities carried out using method of the present utility model design and technical scheme or directly application In other occasions, all fall within protection domain of the present utility model.

Claims (10)

1. a kind of modularity loose-leaf system solar charger, it is characterised in that：Including multiple solar battery sheet components (1) and defeated Go out the power supply outlet terminal (3) of electric energy, tear open by the way that loose-leaf adapter (2) is movable between the solar battery sheet component (1) Unload splicing to connect and turn on, the power supply outlet terminal (3) is removably attachable to be located at the outermost solaode On piece component (1) side.

2. according to the modularity loose-leaf system solar charger described in claim 1, it is characterised in that：The loose-leaf adapter (2) including positive pole blade (21) and negative pole blade (22), by being connected between the positive pole blade (21) and negative pole blade (22) Mandrel (23) is rotatably connected.

3. according to the modularity loose-leaf system solar charger described in claim 2, it is characterised in that：The solar battery sheet Four attaching plugs (12) that component (1) is arranged up and down by solar battery sheet (11) and located at its both sides constitute.

4. according to the modularity loose-leaf system solar charger described in claim 3, it is characterised in that：The attaching plug (12) Including the cathode power supply plug (121) and negative power supply plug (122) of correspondence interlaced arrangement, cathode power supply plug during connection (121) connection corresponding with the negative power supply plug (122) on adjacent solar battery piece (11).

5. according to the modularity loose-leaf system solar charger described in claim 4, it is characterised in that：The positive pole blade (21) It is provided with positive pole blade power interface (211) that correspondence is plugged on the cathode power supply plug (121), the negative pole blade (22) it is provided with negative pole blade power interface (221) that correspondence is plugged on the negative power supply plug (122).

6. according to the modularity loose-leaf system solar charger described in claim 5, it is characterised in that：The connecting mandrel (23) It is the conductive mandrel by made by conductive material, is provided with the positive pole blade power interface (211) in the positive pole blade (21) The connection circuit I (212) of the connecting mandrel (23) is connected to, is provided with the negative pole blade inside the negative pole blade (22) Power interface (221) is connected to the connection circuit II (222) of the connecting mandrel (23).

7. according to the modularity loose-leaf system solar charger described in claim 2, it is characterised in that：The connecting mandrel (23) Two ends be fixedly connected on the positive pole blade (21) or negative pole blade (22), in the negative pole blade (22) or just of the pairing Pole blade (21) is provided with the movable grab being connected on the mandrel (23).

8. according to the modularity loose-leaf system solar charger described in claim 3, it is characterised in that：The power supply outlet terminal (3) including the interior integrated charge battery (33) for setting, power supply outlet terminal (3) medial wall is provided with and the attaching plug (12) The power input interface (32) of grafting, power supply outlet terminal (3) lateral wall is coordinated to be provided with the power supply output of out-put supply and connect Mouth (31).

9. according to the modularity loose-leaf system solar charger described in claim 1, it is characterised in that：The solar battery sheet (11) including cephacoria (111), caudacoria (115) and located at solaode (113) therebetween, the cephacoria (111) with too Positive can crimping by glue-line (112) between battery (113) and caudacoria (115) and solaode (113) is adhered, the sun Energy battery (113) is provided with the multigroup of uniform arrangement, and is connected by connection circuit (114) between each solaode (113).

10. according to the modularity loose-leaf system solar charger described in any one of claim 1 to 9, it is characterised in that：It is connected Multiple described solar battery sheet component (1) can stack, be provided with the outermost solar battery sheet component (1) and buckle Band (4).