CN102956728A - Solar device and use method thereof - Google Patents

Abstract

The invention discloses a solar device and a use method thereof. The solar device comprises at least one solar energy module and a connecting structure. The connecting structure comprises a body and a connecting belt, the body is assembled on the solar energy module and has a recess, the connecting belt has a first end, a second end and a connecting protrusion positioned at the second end, and the first end is connected onto the body. The use method of the solar device includes clamping the connecting protrusion of the solar device on a first recess of another solar device so as to connect the two solar devices together. By the aid of the solar device, multiple solar energy modules and the connecting structure can be spliced and electrically connected together.

Description

Solar energy equipment and using method thereof

[technical field]

The invention relates to a kind of solar energy equipment, and particularly relevant for a kind of solar energy equipment with syndeton.

[background technology]

Environmental consciousness is surging in recent years, for the impact of using fossil energy that environment is brought in response to shortage and the attenuating of fossil energy, alternative energy source and the research and development of the renewable energy resources have just become popular subject under discussion, wherein attract most attention with solar cell (photovoltaic cells) again.Solar cell can be directly changed into electric energy with solar energy, and can not produce the harmful substances such as carbon dioxide or nitride in the power generation process, can be to environment.

Yet, when setting up solar energy equipment, be subject to its Structure of need complexity and a fairly large number of part side and be able to it is erected on the platform now, thereby cause the part that erecting process spends in of solar energy equipment and the cost that manually sets up effectively to reduce.Moreover, existing be all rigid structure in order to set up the support that solar energy equipment adopts, thereby cause and will can be limited on the plane after a plurality of solar energy modules splicings, and can't be for solar energy equipment terrain environment of living in and in addition suitably change.Therefore, how effectively to simplify the member pattern and shorten it when setting up the time, also improve solar energy equipment for the applicability of landform, just be worth the related personnel to be studied.

[summary of the invention]

The invention provides a kind of solar energy equipment and using method thereof, it is by the profile of syndeton with adaptation to the ground.

One embodiment of the invention propose a kind of solar energy equipment, comprise at least one solar energy module and a syndeton.Syndeton comprises a body and a connecting band.Body is assembled to solar energy module, and body has one first recess.Connecting band has a first end, one second end is connected protuberance with the position at one of the second end place, and wherein first end is connected to body.

One embodiment of the invention propose a kind of using method of solar energy equipment, in order to connect a plurality of solar energy equipments.Each solar energy equipment comprises a solar energy module and at least one syndeton assembled thereon.Syndeton comprises a body, a connecting band and an electrode pair, and wherein body has one first recess, and connecting band has a first end, one second end is connected protuberance with the position at one of the second end place, and first end is connected to body.Electrode pair be configured in respectively in the first recess be connected protuberance on and be electrically connected solar energy module.The using method of solar energy equipment comprises, a solar energy equipment wherein connected protuberance be placed in the first recess on another solar energy equipment, so that solar energy equipment is linked together.

In one embodiment of this invention, also comprise an electrode pair, be configured in respectively in the first recess be connected protuberance on, and electric connection solar energy module.

In one embodiment of this invention, also comprise a plurality of solar energy modules and a plurality of syndeton.These syndetons are arranged on the solar energy module, and the connection protuberance that is arranged on the solar energy module wherein is placed in first recess of position on another solar energy module, so that these solar energy modules are electrically connected.

In one embodiment of this invention, above-mentioned body also has one second recess, and above-mentioned the second end removably is embedded in the second recess.

In one embodiment of this invention, above-mentioned the first recess and the relative both sides of the second recess difference position at solar energy module.

In one embodiment of this invention, above-mentioned the first recess position is at a sensitive side of solar energy module.

In one embodiment of this invention, the external form profile of above-mentioned connection protuberance is coincident with the external form profile of the first recess and the external form profile of the second recess.

In one embodiment of this invention, when above-mentioned connection protuberance is placed in the first recess or the second recess, connect protuberance with respect to the distance of solar energy module, less than body in the end face at the first recess place distance with respect to solar energy module, or less than body in the end face at the second recess place distance with respect to solar energy module.

In one embodiment of this invention, above-mentioned solar energy module has at least one corner angle, and above-mentioned body coats this corner angle.

In one embodiment of this invention, above-mentioned body is made of padded coaming.

In one embodiment of this invention, above-mentioned connecting band has pliability.

In one embodiment of this invention, above-mentioned body also has one second recess.The first recess position is at a sensitive side of solar energy module, and the second recess position is in a backlight side of solar energy module, and the connection protuberance removably is embedded in the second recess.The using method of solar energy equipment also comprises, dismantles the second recess of backlight side from the position connecting protuberance, to be placed in the first recess of another solar energy equipment.

Compared to prior art; in the above embodiment of the present invention; by being configured in the syndeton of solar energy module corner; and solar energy module generation buffering is waited protective effect; and utilize connection protuberance on the connecting band of syndeton and the mutual collocation of the recess on the body; and allow two adjacent solar energy modules link together whereby, and then be able to a plurality of solar energy modules be spliced with this syndeton and be electrically connected.

[description of drawings]

Fig. 1 is the schematic diagram of a kind of solar energy equipment of one embodiment of the invention.

Fig. 2 is that the solar energy equipment of Fig. 1 is in the schematic diagram of opposite side.

Fig. 3 is that the solar energy equipment of Fig. 1 is in the partial enlarged drawing of another state.

Fig. 4 is the schematic diagram of the solar energy equipment of another embodiment of the present invention.

Fig. 5 is the partial enlarged drawing of the solar energy equipment of Fig. 4.

[embodiment]

Fig. 1 is the schematic diagram of a kind of solar energy equipment of one embodiment of the invention.Fig. 2 is that the solar energy equipment of Fig. 1 is in the schematic diagram of opposite side.Fig. 3 is that the solar energy equipment of Fig. 1 is in the partial enlarged drawing of another state.Please also refer to Fig. 1 to Fig. 3, in the present embodiment, solar energy equipment 100 comprises a solar energy module 110 and a plurality of syndetons 120.At this, solar energy module 110 has the profile external form of cuboid, and syndeton 120 is configured in respectively four corners of solar energy module 110, yet in the embodiment that other does not illustrate, the visual demand of solar energy module and different profile external forms is arranged is not limited the quantity of its profile with the syndeton of arranging in pairs or groups at this.

In the present embodiment; syndeton 120 is made with padded coaming (for example rubber); it comprises a body 122 and a connecting band 124; body 122 envelopes the corner angle of solar energy module 110; to reach the effect that solar energy module 110 is produced buffering and protection; that is no matter solar energy module 110 the external form profile why, connecting elements 120 all provides the functions such as solar energy module 110 bufferings, crashproof and foot pad with its body 122.

Connecting band 124 has a first end E1, one second end E2 and is connected protuberance 124a with the position at one of the second end E2 place, and the first end E1 of connecting band 124 is connected to body 122, that is in the manufacturing process of syndeton 120, body 122 can be integrated structure with connecting band 124.At this, solar energy module 110 has a relative sensitive side S1 and a backlight side S2, and body 122 has one first relative recess 122a and one second recess 122b, wherein the first recess 122a position is at the sensitive side S1 of solar energy module 110, the second recess 122b position is at the backlight side S2 of solar energy module 110, and the first end E1 of connecting band 124 is connected to the position at the body 122 at sensitive side S1 place, and the position is by the first recess 122a.When solar energy equipment 100 operates with the state that Fig. 1 was illustrated (solar energy equipment 100 of this moment only comprises a solar energy module 110), connecting band 124 is removably to be entrenched in the second recess 122b, to allow connecting band 124 have consistent surface profile with body 122.Yet the present invention does not limit recess 122a, 122b and connecting band 124 at this and is configured in absolute position on the solar energy module 110.

Fig. 4 is the schematic diagram of the solar energy equipment of another embodiment of the present invention.Fig. 5 is the partial enlarged drawing of the solar energy equipment of Fig. 4.Please also refer to Fig. 3 to Fig. 5; in the present embodiment; solar energy equipment 200 comprises a plurality of solar energy modules 110 and a plurality of syndetons 120 that configure on it; that is the syndeton 120 of this moment still can connect a plurality of solar energy modules 110 by its connecting band 124 except generally reaching buffering to solar energy module 110, the protection effect by its body 122 with above-described embodiment.

Specifically, when wish connects any two solar energy modules 110, just need first connecting band 124 to be dismantled (as shown in Figure 3) from the second recess 122b, then will be at chimeric the first recess 122a (as shown in Figure 4) to another solar energy module 110 of the connection protuberance 124a at its second end E2 place.Accordingly, just finish solar energy module 110 in structural connection.In other words, because the external form profile of the connecting band 124 of each syndeton 120 and connection protuberance 124a is coincident with respectively the external form profile of its first recess 122a and the second recess 122b, thereby can connect different syndeton 120 with this characteristic.

Refer again to Fig. 5, for allowing a plurality of solar energy modules 110 can mutually be spliced into as shown in Figure 4 state, therefore on same syndeton 120, the bearing of trend D2 of the bearing of trend D1 of connecting band 124 (i.e. the bearing of trend of the second recess) and the first recess 122a, its orthographic projection on solar energy module 110 residing planes is to be in orthogonal state.This measure allows four adjacent solar energy modules 110 be stitched together by connecting band 124 end to end modes, and constantly increases with this pattern.Right the present invention is not limited to this, and in the embodiment that another does not illustrate, the designer can pass through to change the profile external form of solar energy module and the collocation of syndeton, and in the above described manner a plurality of solar energy modules is linked together.

It is worth mentioning that, in the present embodiment, these solar energy modules 110 after the connection are not connected structure 120 and are confined on the plane, the substitute is, because connecting band 124 has pliability because of its material, so be to be in unsteady state between these solar energy modules 110 after connecting.In other words, spliced solar energy equipment 200 is not to be considered as a rigid structure, otherwise, it can be adapted to various uneven surfaces by the pliability of connecting band 124, that is solar energy equipment 100 of the present invention can be adjusted its high low degree along with its landform of installing, compared to the known solar energy equipment that is assembled into the rigid body support, the present invention thereby have better applicability.

Refer again to Fig. 2, Fig. 3 and Fig. 5, on the other hand, solar energy equipment 200 also comprises a plurality of electrode pairs 130, it for example is the interior positive electrode of the first recess 122a that is configured in syndeton 120, with be configured in the negative electrode that is connected in the protuberance 124a, and this electrode pair 130 is electrically connected with the solar energy module 110 that syndeton 120 configures.Thus, when a syndeton 120 that is configured on the solar energy module 110 wherein, by the connection protuberance 124a of its connecting band 124 chimeric to the position when the first recess 122a of the syndeton 120 of another solar energy module 110, be connected to each other with electrode pair 130 in being connected protuberance 124a at the first recess 122a by upper rheme, just can reach the effect that a plurality of solar energy modules 110 are electrically connected.

In addition, because solar energy equipment 200 normal configurations of the present invention on the ground, therefore when connection protuberance 124a is placed in the first recess 122a or the second recess 122b, connect protuberance 124a with respect to the distance of solar energy module 110, less than body 122 in the end face at the first recess 122a place distance with respect to solar energy module 110, or less than body 122 in the end face at the second recess 122B place distance with respect to solar energy module 110.For instance, refer again to Fig. 1, protuberance 124 is chimeric to the second recess 122b when connecting, solar energy equipment 100 place present on the ground the first recess 122a upper and the second recess 122b under state, to allow solar energy module 110 accept light with sensitive side S1.At this moment, because the position can contact with ground with its end face T2 at the body 120 of backlight side S2, therefore need make the end face T1 of chimeric connection protuberance 124a to body 120 be lower than the end face T2 of body 122, allow whereby be configured in connect protuberance 124a can be away from ground, with the harmful effect of reduction moisture to electrode pair 130 with the electrode pair 130 in the first recess 122a.In shown in Figure 5, also there be the architectural feature identical with Fig. 1 when connecting when protuberance 124a is entrenched in the second recess 122b in addition, just repeat no more at this.

In sum; in the above embodiment of the present invention; by being configured in the syndeton of solar energy module corner; and solar energy module generation buffering is waited protective effect; and utilize connection protuberance on the connecting band of syndeton and the mutual collocation of the recess on the body; and allow two adjacent solar energy modules link together whereby, and then be able to a plurality of solar energy modules be spliced with this syndeton and be electrically connected.

Claims (13)

1. a solar energy equipment is characterized in that, comprising:

At least one solar energy module;

One syndeton comprises:

One body is assembled to this solar energy module, and this body has one first recess; And

One connecting band has a first end, one second end and is connected protuberance with the position at one of this second end place, and wherein this first end is connected to this body.

2. solar energy equipment as claimed in claim 1 is characterized in that, also comprises:

One electrode pair is configured in respectively and is connected on the protuberance with this in this first recess, and is electrically connected this solar energy module.

3. solar energy equipment as claimed in claim 2 is characterized in that, also comprises:

A plurality of solar energy modules; And

A plurality of syndetons are arranged on those solar energy modules, and this connection protuberance that is arranged on the solar energy module wherein is placed in position this first recess on another solar energy module, so that those solar energy modules are electrically connected.

4. solar energy equipment as claimed in claim 1 is characterized in that, this body also has one second recess, and this second end is connected protuberance and removably is embedded in this second recess with this.

5. solar energy equipment as claimed in claim 4 is characterized in that, this first recess and the relative both sides of this second recess difference position at this solar energy module.

6. solar energy equipment as claimed in claim 5 is characterized in that, this first recess position is at a sensitive side of this solar energy module.

7. solar energy equipment as claimed in claim 4 is characterized in that, the external form profile of this connection protuberance is coincident with respectively the external form profile of this first recess and the external form profile of this second recess.

8. solar energy equipment as claimed in claim 4, it is characterized in that, when this connection protuberance is placed in this first recess or this second recess, this connects protuberance with respect to the distance of this solar energy module, less than this body in the end face at this first recess place distance with respect to this solar energy module, or less than this body in the end face at this second recess place distance with respect to this solar energy module.

9. solar energy equipment as claimed in claim 1 is characterized in that, this solar energy module has at least one corner angle, and this body coats this corner angle.

10. solar energy equipment as claimed in claim 9 is characterized in that, this body is made of padded coaming.

11. solar energy equipment as claimed in claim 10 is characterized in that, this connecting band has pliability.

12. the using method of a solar energy equipment, in order to connect a plurality of solar energy equipments, respectively this solar energy equipment comprises a solar energy module and at least one syndeton assembled thereon, and this syndeton comprises a body, one connecting band and an electrode pair, wherein this body has one first recess, connecting band has a first end, one second end is connected protuberance with the position at one of this second end place, and this first end is connected to this body, this electrode pair is configured in respectively and is connected on the protuberance with this in this first recess and is electrically connected this solar energy module, it is characterized in that, the using method of this solar energy equipment comprises:

A solar energy equipment is wherein connected protuberance be placed in this first recess on another solar energy equipment, so that those solar energy equipments are linked together.

13. the using method of solar energy equipment as claimed in claim 12, it is characterized in that, this body also has one second recess, this the first recess position is at a sensitive side of this solar energy module, this the second recess position is in a backlight side of this solar energy module, and this connection protuberance removably is embedded in this second recess, and the using method of this solar energy equipment also comprises:

This connection protuberance is dismantled this second recess of this backlight side from the position, to be placed in this first recess of another solar energy equipment.

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