CN102477790A - Supporting rack using pre-cast concrete - Google Patents

Abstract

The invention relates to a supporting structure using pre-cast concrete, and a building with thin film solar cells. The building comprises a building top and at least one supporting structure, wherein the building top comprises at least one thin film solar cell and a steel frame beam structure for supporting the thin film solar cell, and each supporting structure comprises a supporting column part and a base; the building top can be supported by the supporting column part; and the base is arranged at the bottom end of the supporting column part, and the supporting column part and the base are integrally molded by a concrete material. The supporting rack has the efficacies of low cost, enhancement of building stability, wind damage prevention and the like.

Description

Use the bracing frame of pre-cast concrete

Technical field

The present invention relates to braced structures and building, and particularly relevant for a kind of pre-cast concrete that utilizes as braced structures, and its top has the building of thin-film solar cells.

Background technology

Along with environmental consciousness comes back, the notion of carbon reduction is paid attention to by everybody gradually, and the development and utilization of the renewable energy resource becomes the emphasis that development is actively dropped in countries in the world.In the middle of the renewable energy resource,, and generally can produce unlike other energy (as: fossil energy, nuclear energy) and to pollute the earth because sunshine is available anywhere, thus solar energy with can be star's industry of having an optimistic view of at present with the solar cell that sunshine converts electric energy to.

Solar cell just can produce a large amount of relatively and operational electric energy if can have large-area irradiation area.Therefore there are many manufacturers to hope the notion of energy saving is incorporated in the daily necessities, and utilize solar cell to replace deserted battery, use the pollution that more reduces environment.In addition, also can the notion of " green can the building " be combined with solar cell, promptly tan by the sun the maximum parts of the sun and lay solar cell, and the electric energy that solar cell capable of using produced remedies the spent electric energy of electrical equipment in the building at building.With present, must keep the exquisite agricultural of temperature constant state, the industries such as machine room of communication servomechanism are the most urgently craved for, and hope setting up cost and can enlarging because of output and set up the change of kenel with it and can decrease of solar cell.

Summary of the invention

The objective of the invention is to; A kind of building that uses the bracing frame of pre-cast concrete and have thin-film solar cells is provided; It utilizes pre-cast concrete to make the braced structures in the building, and has effects such as low cost, increase building stability degree and strick precaution disaster caused by a windstorm.

To achieve these goals, according to a kind of braced structures of using pre-cast concrete that the present invention proposes, it includes support column portion and pedestal; Support column portion can the support of buildings top, and top of building then includes at least one thin-film solar cells; Pedestal is arranged at the bottom of support column portion, and the concrete material that is one of the forming of support column portion and pedestal.

The present invention also can adopt following technical measures further to realize.

Aforesaid braced structures, wherein said pedestal can be positioned over place, the face of land, or are embedded under the face of land, use firm this braced structures.

Aforesaid braced structures, the diameter of wherein said pedestal can be 30 centimetres to 60 centimetres, and the diameter length of support column portion then can be 5 centimetres to 20 centimetres.

The present invention proposes a kind of building with thin-film solar cells in addition, and it includes top of building and a plurality of braced structures; Top of building then includes at least one thin-film solar cells, and the steelframe beam structure that can support these thin-film solar cells; And each braced structures all includes support column portion and its pedestal; Support column portion is in order to the support of buildings top, and pedestal then is arranged at the bottom of support column portion; The concrete material that support column portion and pedestal are one of the forming, and can make these braced structuress by the precasting mode in advance, so that transport, be provided with.

The aforesaid building structure scope of application can comprise agricultural greenhouse, top printing opacity building or room, base station etc., and building body top possesses thin-film solar cells is arranged.

Based on above-mentioned, the present invention makes the braced structures of building by pre-cast concrete, and these top of building all possess has thin-film solar cells.With steel frame construction in the past, this kind possesses the building that thin-film solar cells is arranged and more saves cost, and can make being easy in advance and set up.In addition, the pedestal of braced structures can be buried underground under the face of land, and using increases the building stability degree, and can prevent that disaster caused by a windstorm such as typhoon from blowing top of building and fly or prevent that building from overturning.

For letting the above-mentioned feature and advantage of the present invention can be more obviously understandable, hereinafter is special lifts embodiment, and cooperates appended graphic elaborating as follows.

Description of drawings

Fig. 1 is the sketch map of braced structures of the use pre-cast concrete of first embodiment of the invention.

Fig. 2 is the building sketch map with thin-film solar cells of first embodiment of the invention.

Fig. 3 is the building sketch map with thin-film solar cells of second embodiment of the invention.

20,30: building 100: braced structures

110: support column portion 120: substrate

210: top of building 230: thin-film solar cells

220: the steelframe beam structure L1 of thin-film solar cells: light

LN: the diameter length LB of support column portion: the diameter length of substrate

The specific embodiment

Reach technological means and the effect that predetermined goal of the invention is taked for further setting forth the present invention; Below in conjunction with accompanying drawing and preferred embodiment, its specific embodiment of bracing frame, step, structure, characteristic and the effect thereof of the use pre-cast concrete that proposes according to the present invention specified.

Please with reference to Fig. 1, Fig. 1 is the sketch map of braced structures 100 of the use pre-cast concrete of first embodiment of the invention.As shown in Figure 1, braced structures 100 includes support column portion 110 and pedestal 120, and pedestal 120 is arranged at the bottom of support column portion 110.In order to promote soundness, the concrete material that support column portion 110 and pedestal 120 are one of the forming makes it be not easy to receive wind or the influence of other external force and fractures or damage, and can make braced structures 100 by the precasting mode, so that transport and be provided with.

In the present embodiment, support column portion 110 and pedestal 120 are all cylindrical, and the diameter LB of pedestal 120 can be 30 centimetres (centimetres) to 60 centimetres, and the diameter LN of support column portion 110 can be 5 centimetres to 20 centimetres.Should know by inference voluntarily but have the knack of those skilled in the art, in other embodiments, support column portion 110 or pedestal 120 also can be designed to other shapes such as hexagon, square respectively, use to promote attractive in appearance or increase the soundness of its support of buildings.In addition, the diameter LB of pedestal 120 should be greater than the diameter LN of support column portion 110, use the weight that makes pedestal 120 or with the contact area on the face of land enough bear support column portion 110 with and on the weight that is supported object.

In detail, braced structures 10 mainly is used as the support component of the building 20 with thin-film solar cells, more understands spirit of the present invention at this measure one embodiment so that have the knack of those skilled in the art.Please with reference to Fig. 2, Fig. 2 is 20 sketch mapes of the building with thin-film solar cells 230 of first embodiment of the invention.As shown in Figure 2; Building 20 includes top of building 210 and a plurality of braced structures 100; And the scope of application of building 20 can include building or the room, base station of agricultural greenhouse, top light-permeable etc. in the present embodiment, and top 210 of its building body 20 can possess thin-film solar cells 230 spirit all according to the invention is arranged.

Please continue with reference to figure 2, top of building 210 includes at least one thin-film solar cells 230, but and the steelframe beam structure 220 of support film solar cell 230.In the present embodiment; Thin-film solar cells 230 can be printing opacity shape thin-film solar cells; Use when light L1 is sufficient; The light L1 of the wave-length coverage of ruddiness, orange light, gold-tinted and infrared light and so on can be passed to building body 20 inside through thin-film solar cells 230, therefore can supply the usefulness of building 20 intraoral illuminations.In addition; Thin-film solar cells 230 also can absorb the light L1 of green glow, blue light and ultraviolet light equiwavelength scope; And can convert the light L1 of these wave-length coverages into electric energy, to supply power to building 20, use power saving even provide unnecessary electric energy to give Utilities Electric Co. and change and get compensation payment.100 support column portion 110 and its pedestals 120 of all including as shown in Figure 1 of each braced structures.Support column portion 110 is in order to support of buildings top 210.In the present embodiment, the pedestal of braced structures 100 can as shown in Figure 2ly be positioned on the face of land, uses firm support structure 100 and building 20.

Compare with existing known techniques; The building that in the past possessed the top 210 that thin-film solar cells 230 is arranged all with materials such as steelframes as its braced structures; Therefore the steelframe beam column of its main support will be difficult to adapt to landform or the weather that strong wind takes place once in a while owing to problems such as weight, soundness, external force resistance degree, for example attacks or idol has the steel frame building thing that ground such as littoral zone set up of strong wind will be often impaired and damage when strong typhoon.In addition; The material cost of steelframe materials for support structure will be far above the pre-cast concrete material; And the weight of the braced structures 100 that pre-cast concrete constituted and antidetonation, wind resistance, external force resistance degree all are higher than the braced structures of steelframe material; Therefore the present embodiment braced structures 100 of utilizing pre-cast concrete to constitute is set up cost as the main support structure of building 200 to save it, and can promote the soundness of building 200.

Please with reference to Fig. 3, Fig. 3 is the sketch map of the building with thin-film solar cells 230 30 of second embodiment of the invention.Present embodiment is similar with above-mentioned first embodiment, and therefore identical declarative description repeats no more at this.Its difference is; The pedestal of the braced structures 100 of present embodiment can be embedded in (shown in dotted line among Fig. 3) under the face of land; And let the support column portion of braced structures 100 be located at top, the face of land with support of buildings top 210; Make braced structures 100 more firmly with support of buildings 30, make its influence that is difficult to receive wind-force or other external force and impaired or topple over.

In sum, the embodiment of the invention is made the braced structures of building by pre-cast concrete, and these top of building all possess has thin-film solar cells.With steel frame construction in the past, this kind possesses the building that thin-film solar cells is arranged and more saves cost, and can make being easy in advance and set up.In addition, the pedestal of braced structures can be buried underground under the face of land, and using increases the building stability degree, and can prevent that disaster caused by a windstorm such as typhoon from blowing top of building and fly or prevent that building from overturning.

Though the present invention discloses as above with preferred embodiment, so be not the scope of implementing in order to qualification the present invention, the simple equivalent of doing according to claims of the present invention and description changes and modification, still belongs in the scope of technical scheme of the present invention.

Claims (10)

1. braced structures of using pre-cast concrete is characterized in that comprising:

One support column portion, in order to supporting a top of building, and this top of building comprises at least one thin-film solar cells; And

One pedestal is arranged at the bottom of this support column portion, wherein the concrete material that is one of the forming of this support column portion and this pedestal.

2. braced structures as claimed in claim 1 is characterized in that wherein said pedestal is embedded under the face of land with firm this braced structures.

3. braced structures as claimed in claim 1 is characterized in that wherein said pedestal is positioned over the face of land and sentences firm this braced structures.

4. braced structures as claimed in claim 1, the diameter that it is characterized in that wherein said pedestal are 30 centimetres to 60 centimetres.

5. braced structures as claimed in claim 1 is characterized in that the diameter of wherein said support column portion is 5 centimetres to 20 centimetres.

6. building with thin-film solar cells is characterized in that comprising:

One top of building comprises that at least one thin-film solar cells reaches in order to support a steelframe beam structure of said thin-film solar cells; And

At least one braced structures, each braced structures comprises:

One support column portion is in order to support this top of building; And

One pedestal is arranged at the bottom of this support column portion, wherein the concrete material that is one of the forming of this support column portion and this pedestal.

7. the building with thin-film solar cells as claimed in claim 6 is characterized in that wherein said building comprises agricultural greenhouse, top printing opacity building or room, base station.

8. the building with thin-film solar cells as claimed in claim 6 is characterized in that wherein said pedestal is embedded under the face of land with firm this building.

9. the building with thin-film solar cells as claimed in claim 6, the diameter that it is characterized in that wherein said pedestal are 30 centimetres to 60 centimetres.

10. the building with thin-film solar cells as claimed in claim 6 is characterized in that the diameter of wherein said support column portion is 5 centimetres to 20 centimetres.

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