CN204131453U - Thin-film cell photovoltaic support - Google Patents

Abstract

The utility model provides a kind of thin-film cell photovoltaic support, comprising: two columns be symmetrical set, two limit cant beams, two bearing diagonals, two frames, two elastic rubber fittings and two pillar stand tail parts; Wherein, one end and the limit cant beam of column are hinged, and the other end and pillar stand tail part fix on the ground; One end of bearing diagonal is fixed on column, and the other end is fixed on the cant beam of limit; Elastic rubber fitting is embedded in frame; The two ends of a frame are separately fixed at one end of two limit cant beams, and the two ends of another frame are separately fixed at the other end of two limit cant beams.Its advantage is the assembly vibrations that buffering blast that can be flexible under high wind brings, elastic rubber fitting and tightly plug with molten metal frame and synthesize a compliant interface, vacuum air bag is by the vibrations of assembly glass elastic buffer blast, and the thrust effectively alleviating blast improves the stability of support.

Description

Thin-film cell photovoltaic support

Technical field

The utility model relates to a kind of support, particularly a kind of thin-film cell photovoltaic support.

Background technology

At present, in distributed solar energy photovoltaic plant is built, the science of support Design and steadiness are the capital expenditure parts that whole photovoltaic plant builds up rear operation and maintenance expenses, under long-term adverse circumstances, rack-mount assembly is anti-by wind, the situation that frame is torn, glass is shatter is increasingly serious, particularly thin-film cell photovoltaic.Chief reason is that assembly briquetting does not press tightly, and the cool contracting of rising of the heat of metal makes the conjugation between assembly and support inharmonious, adds the boosting of windward, assembly is come off from support, shatter, explosion etc.

Utility model content

The purpose of this utility model aims to provide a kind of frame and tightly plugs with molten metal good, shockproof, anticorrosion, the explosion-proof rigid support of performance, above-mentionedly overcomes existing amorphous silicon module and the inharmonic present situation of support conjugation to overcome.

The utility model provides a kind of thin-film cell photovoltaic support, comprising: two columns be symmetrical set, two limit cant beams, two bearing diagonals, two frames, two elastic rubber fittings and two pillar stand tail parts; Wherein, one end and the limit cant beam of column are hinged, and the other end and pillar stand tail part fix on the ground; One end of bearing diagonal is fixed on column, and the other end is fixed on the cant beam of limit; Elastic rubber fitting is embedded in frame; The two ends of a frame are separately fixed at one end of two limit cant beams, and the two ends of another frame are separately fixed at the other end of two limit cant beams.

Further, the utility model provides a kind of thin-film cell photovoltaic support, can also have such feature: elastic rubber fitting is " C " font.

Further, the utility model provides a kind of thin-film cell photovoltaic support, can also have such feature: have vacuum air bag in elastic rubber fitting.

Further, the utility model provides a kind of thin-film cell photovoltaic support, can also have such feature: frame is " Z " font.

Further, the utility model provides a kind of thin-film cell photovoltaic support, can also have such feature: also comprise cant beam ground, two limits heel piece, together fix on the ground with limit cant beam.

Further, the utility model provides a kind of thin-film cell photovoltaic support, can also have such feature: also comprise middle cant beam, is arranged between two limit cant beams, is fixed on frame.

Further, the utility model provides a kind of thin-film cell photovoltaic support, can also have such feature: also comprise middle cant beam ground heel piece, together fix on the ground with middle cant beam.

The beneficial effect of utility model

In order to overcome existing amorphous silicon module and the inharmonic present situation of support conjugation, the utility model provides a kind of special Z-shaped frame and shockproof, anticorrosion, explosion-proof special C font elastic rubber fitting combination unit tightly pluged with molten metal to realize the rigid support that amorphous silicon module installs.

The assembly vibrations that the utility model provides the buffering blast that a kind of thin-film cell photovoltaic support can be flexible under high wind to bring.Special elastic rubber cushion is embedded in specially tightly plugs with molten metal scuncheon, the glass of C font elastic rubber fitting and amorphous silicon thin-film module produces frictional resistance, allow assembly glass and rubber cushion join into a compliant interface, the internally provided with vacuum air bag of rubber cushion shakes by assembly glass elastic buffer blast.Special Z-shaped frame baffle plate effectively can alleviate the thrust of blast, between assembly and support, form air flow guiding, for support increases deadweight, improves the stability of support.

Accompanying drawing explanation

Fig. 1 is the structural representation of thin-film cell photovoltaic support.

Fig. 2 is the right view of thin-film cell photovoltaic support.

Fig. 3 is the I magnified partial view of Fig. 1.

Fig. 4 is the II magnified partial view of Fig. 1.

Fig. 5 is the III magnified partial view of Fig. 1.

Fig. 6 is the IV magnified partial view of Fig. 1.

Fig. 7 is the part diagram of C font elastic rubber fitting

Fig. 8 is the part diagram of Z-shaped frame

Fig. 9 is the structural map of Z-shaped frame and C font elastic rubber fitting

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is further described.

Thin-film cell photovoltaic support comprises: lower C font elastic rubber fitting 1, lower Z-shaped frame 3, lower Z-shaped frame fixing hole 4, limit cant beam 5, middle cant beam 7, pillar stand tail part 8, bearing diagonal 9, column 10, hinged component 11, cant beam link hole 12 cant beam with hinged component first and link hole 13, upper Z-shaped frame 14, upper C font elastic rubber fitting 15, upper Z-shaped frame fixing hole 16, column and hinged component connecting hole 17, limit cant beam ground heel piece 20 and middle cant beam ground heel piece 21 with hinged component second.

Amorphous silicon module 6 carries out for needing thin-film cell photovoltaic support the article supported.

One end and the limit cant beam 5 of column 10 are hinged.The other end and the pillar stand tail part 9 of column 10 fix on the ground.

One end and the column 10 of limit cant beam 6 are hinged.The other end of limit cant beam 6 and middle cant beam ground heel piece 20 fix on the ground.

One end of bearing diagonal 9 is fixed on column 10.The other end of bearing diagonal 9 to be fixed on the cant beam of limit 5.Column 10, limit cant beam 6 and bearing diagonal 9 form stable triangular form supporting construction.

Middle cant beam 7 is arranged between two limit cant beams 5, places amorphous silicon module 6 for common support lower inclined plane.

In lower C font elastic rubber fitting 1, there is vacuum air bag 2; Certainly, upper C font elastic rubber fitting 15 also has vacuum air bag.Vacuum air bag effectively can reduce the vibrations dynamics of assembly under blast, the tension force of Buffer Unit under blast.

Lower C font elastic rubber fitting 1 is embedded in lower Z-shaped frame 3; Upper C font elastic rubber fitting 15 is embedded in Z-shaped frame 14.The assembly flexible buffer band that C font elastic rubber fitting and Z-shaped frame are combined to form, instead of traditional metallic briquette fastening means simultaneously, effectively decreases the probability that assembly comes off and bursts.

The two ends of lower Z-shaped frame 3 are separately fixed at the lower end of two limit cant beams; The two ends of upper Z-shaped frame 14 are separately fixed at the upper end of two limit cant beams.

The assembling process of thin-film cell photovoltaic support is as follows:

The first step: column 10 and hinged component 11 are penetrated bolted by column and hinged component connecting hole 17.

Second step: limit cant beam 5 is connected with hinged component 11.

3rd step: bolt penetrates fastening by cant beam and hinged component first connecting hole 12 and hinged component second connecting hole 13.

4th step: column 10 pads upper pillar stand ground heel piece 8 and be fixed on concrete pedestal face.

5th step: connect with diagonal brace 9 between column 10 and limit cant beam 5, forms stable triangular form supporting construction.

6th step: limit cant beam 5 pads cant beam ground, top heel piece 20 and be fixed on concrete pedestal face.

7th step: together with lower Z-shaped frame 3 is embedded in lower C font rubber cushion 1, be arranged in triangular support.

8th step: bolt is fixed by lower Z-shaped frame fixing hole 4.

9th step: amorphous silicon module 6 is arranged in the groove with the lower C font rubber cushion 1 of vacuum air bag 2.

Tenth step: place amorphous silicon module 6 at the common support lower inclined plane of middle cant beam 7.

11 step: middle cant beam 7 pads upper cant beam ground heel piece 21 and be fixed on concrete pedestal face.

12 step: together with upper Z-shaped frame 14 is embedded in upper C font rubber cushion 15, be arranged on the top edge of amorphous silicon module 6.

13 step: bolt is fixed by upper Z-shaped frame fixing hole 16, completes the installation of thin-film cell photovoltaic support.

Claims (7)

1. a thin-film cell photovoltaic support, is characterized in that, comprising: two columns be symmetrical set, two limit cant beams, two bearing diagonals, two frames, two elastic rubber fittings and two pillar stand tail parts;

Wherein, one end and the described limit cant beam of described column are hinged, and the other end and described pillar stand tail part fix on the ground;

One end of described bearing diagonal is fixed on described column, and the other end is fixed on the cant beam of described limit;

Described elastic rubber fitting is embedded in described frame;

The two ends of a described frame are separately fixed at one end of two described limit cant beams, and described in another, the two ends of frame are separately fixed at the other end of two described limit cant beams.

2. thin-film cell photovoltaic support according to claim 1, is characterized in that:

Wherein, described elastic rubber fitting is " C " font.

3. thin-film cell photovoltaic support according to claim 1, is characterized in that:

Wherein, in described elastic rubber fitting, there is vacuum air bag.

4. thin-film cell photovoltaic support according to claim 1, is characterized in that:

Wherein, described frame is " Z " font.

5. thin-film cell photovoltaic support as claimed in any of claims 1 to 4, is characterized in that:

Also comprise cant beam ground, two limits heel piece, together fix on the ground with described limit cant beam.

6. thin-film cell photovoltaic support as claimed in any of claims 1 to 4, is characterized in that:

Also comprise middle cant beam, be arranged between two described limit cant beams, be fixed on described frame.

7. thin-film cell photovoltaic support according to claim 6, is characterized in that:

Also comprise middle cant beam ground heel piece, together fix on the ground with described middle cant beam.