CN103929124A - Installation structure for solar cell panel support and photovoltaic cabin - Google Patents

Abstract

The invention discloses an installation structure for a solar cell panel support and a photovoltaic cabin. The photovoltaic cabin comprises a container, at least one through hole, a stand column base, at least one bolt, a stand column and a frame. The through holes are formed in the side face of a lifting hole of the container. The lower portion of the stand column base is inserted into the lifting hole. The middle portion of the stand column base is provided with a base plate which abuts against the outer side of the lifting hole. A cylindrical structure is arranged on the upper portion of the stand column base. The side face of the cylindrical structure is provided with multiple through holes. The bolts penetrate through the through holes of the lifting hole to fix the stand column base into the lifting hole. The stand column is inserted into the cylindrical structure. The multiple bolts penetrate through the multiple through holes of the cylindrical structure and abut against the stand column so as to fix the stand column into the cylindrical structure. The frame is rotatably arranged on the stand column, and a solar cell panel is placed on the frame.

Description

The mounting structure of solar-cell panel support and photovoltaic cabin

Technical field

The present invention relates to solar panel technology field, relate in particular to mounting structure and the photovoltaic cabin of solar-cell panel support.

Background technology

Along with rapid development of economy, increasingly outstanding for the demand of the energy and the high pollution problem brought by it.Solar energy is novel as one, clean energy resource, and development prospect is quite wide, has become the focus that various countries competitively research and develop at present, is when previous important problem and how to obtain efficiently solar energy resources.

Photovoltaic cabin support is a kind of solar bracket being applied on photovoltaic cabin, and existing roof bracket great majority are fixed brackets, when installation, need to built-in fitting be installed on roof.Meanwhile, existing roof photovoltaic bracket, when mounted to artificial having relatively high expectations, needs professional to operate.And, once existing roof photovoltaic bracket install just cannot change, change or repair consuming time and expense is higher.Moreover, this type of support is had relatively high expectations to the bearing capacity on roof, general house design is difficult to reach the designing requirement that solar bracket is installed, and this just needs roof bracket on volume and weight, to do certain restriction, the great like this demand that hinders solar power generation.For above-mentioned reason, roof solar support is difficult to carry out large-scale marketing.

Summary of the invention

The object of the present invention is to provide a kind of mounting structure and photovoltaic cabin of solar-cell panel support, once just cannot change in order to solve the photovoltaic bracket installation of existing roof, it is consuming time and expense is higher that solar panel is changed or repaired, and the design of general house is difficult to reach the problem of the designing requirement that solar bracket is installed.

The mounting structure of a kind of solar-cell panel support of the present invention, this solar-cell panel support is located on a pedestal, comprising: a groove, is opened in this pedestal upper surface; One column, is arranged in this groove; At least one through hole, is opened in the side of this groove; And a framework, rotating being arranged on this column, this framework is used for placing this solar panel; Wherein, at least one bolt, is also fixed on this column in this groove through this through hole.

One embodiment of the mounting structure of solar-cell panel support according to the present invention, wherein, also comprise: a upright post base, insert in this groove the bottom of this upright post base, the outside that the middle part of this upright post base has a base plate and this groove offsets, the top of this upright post base is a tubular structure, and the side opening of this tubular structure is provided with multiple through holes; Wherein, this column inserts in this tubular structure, and the plurality of through hole of this tubular structure is through multiple bolts, and the plurality of bolt and this column offset, so that this column is fixed in this tubular structure; This at least one bolt that passes this through hole of this groove, is fixed on this upright post base in this groove.

One embodiment of the mounting structure of solar-cell panel support according to the present invention, wherein, also comprise: at least one pair of lock sleeve, one by one corresponding being arranged in this through hole of side of this groove, and the axis of this lock sleeve is offered a through hole, the front portion of this lock sleeve becomes taper; At least one bolt, this groove outside is through this lock sleeve certainly; Wherein, the bottom of this upright post base has at least one through hole, and the internal diameter of this through hole expands from inside to outside gradually, and this front portion of the taper of this lock sleeve can just be inserted in this through hole.

One embodiment of the mounting structure of solar-cell panel support according to the present invention, wherein, also comprises: the number of this through hole of this groove is two, is symmetricly set on the two sides of this groove; The number of this through hole of the bottom of this this upright post base is one, two these through holes of its two ends and this groove corresponding; Two these lock sleeves are oppositely arranged in this two through hole of this groove, and a bolt passes the through hole of this two lock sleeve from a side of this groove, pass, and fix by nut from the opposite side of this groove.

One embodiment of the mounting structure of solar-cell panel support according to the present invention, wherein, also comprises: two fixed blocks, fix in the bilateral symmetry of this column, and on this two fixed block, be respectively arranged with a through hole; One angular adjustment frame, comprise two fanning strips, this column symmetry relatively, and with the upper end pivot joint of this column, make this two fanning strip can relative level face vertical rotation, the arc-shaped edges symmetry of this two fanning strip offers multiple through holes, the through hole of this two fixed block is corresponding with multiple through holes of this fanning strip respectively, and wear by alignment pin, make turning to after diverse location of this two fanning strip, this this two fanning strips be separately fixed at different angles; This two fanning strip and this framework are fixed, and make this two fanning strip can drive this framework to rotate.

One embodiment of the mounting structure of solar-cell panel support according to the present invention, wherein, this framework comprises: many crossbeams that are parallel to each other and many longerons that are parallel to each other, these many crossbeams and this many longerons interfix; On the crossbeam of this upside and downside, be respectively arranged with multiple junction buttons.

The invention also discloses a kind of photovoltaic cabin, wherein, comprising: a container; At least one through hole, is opened in the side of the hole for hoist of this container; One upright post base, insert in this hole for hoist the bottom of this upright post base, and the outside that the middle part of this upright post base has a base plate and this hole for hoist offsets, and the top of this upright post base is a tubular structure, and the side opening of this tubular structure is provided with multiple through holes; At least one bolt, through this through hole of this hole for hoist, is fixed on this upright post base in this hole for hoist; One column, this column inserts in this tubular structure, and the plurality of through hole of this tubular structure is through multiple bolts, and the plurality of bolt and this column offset, so that this column is fixed in this tubular structure; One framework, rotating being arranged on this column, this framework is used for placing this solar panel.

One embodiment of photovoltaic cabin according to the present invention, wherein, also comprises: at least one lock sleeve, and corresponding being arranged in this through hole of side of this groove, and the axis of this lock sleeve one by one offered a through hole, and the front portion of this lock sleeve becomes taper; At least one bolt, this hole for hoist outside is through this lock sleeve certainly; Wherein, the bottom of this upright post base has at least one through hole, and the internal diameter of this through hole expands from inside to outside gradually, and this front portion of the taper of this lock sleeve can just be inserted in this through hole.

One embodiment of photovoltaic cabin according to the present invention, wherein, also comprises: two fixed blocks, fix in the bilateral symmetry of this column, and on this two fixed block, be respectively arranged with a through hole; One angular adjustment frame, comprise two fanning strips, this column symmetry relatively, and with the upper end pivot joint of this column, make this two fanning strip can relative level face vertical rotation, the arc-shaped edges symmetry of this two fanning strip offers multiple through holes, the through hole of this two fixed block is corresponding with multiple through holes of this fanning strip respectively, and wear by alignment pin, make turning to after diverse location of this two fanning strip, this this two fanning strips be separately fixed at different angles; This two fanning strip and this framework are fixed, and make this two fanning strip can drive this framework to rotate.

One embodiment of photovoltaic cabin according to the present invention, wherein, this framework comprises: many crossbeams that are parallel to each other and many longerons that are parallel to each other, these many crossbeams and this many longerons interfix; On the crossbeam of this upside and downside, be respectively arranged with multiple junction buttons.

In sum, the present invention has utilized container designs photovoltaic cabin, simple in structure, be convenient to installation and removal, be convenient to replacing and the repairing of solar panel, and fastening structure.Can realize the tracking of sunlight being carried out in North and South direction to 20 ° to 60 °, conveniently install according to different needs.

Brief description of the drawings

Figure 1 shows that the end view of the mounting structure of solar-cell panel support of the present invention;

Figure 2 shows that the front view of the mounting structure of solar-cell panel support of the present invention;

Figure 3 shows that the rearview of the mounting structure of solar-cell panel support of the present invention;

Fig. 4 is an end view of upright post base;

Figure 5 shows that the opposite side view of stand base.

Embodiment

Figure 1 shows that the schematic diagram of the mounting structure of solar-cell panel support of the present invention, as shown in Figure 1, the solar-cell panel support of the present embodiment for example can be located on a pedestal, and solar-cell panel support comprises: a column 4, upright post base 3, framework 8 and angular adjustment frame 7.

With further reference to Fig. 1 and Fig. 2, container can be transformed using as photovoltaic cabin, for example pedestal is a container, the upper side of container generally has multiple holes for hoist (mostly being four), in Fig. 1 and Fig. 2 only taking a hole for hoist 10 as example, for upright post base is fixed on container, generally can transform hole for hoist 10, offer multiple for fixing stand base plate through holes 19 in the inside of hole for hoist 10.

In conjunction with the mounting structure of Fig. 1-3 summary solar-cell panel support, upright post base 3 is fixed in hole for hoist 10, column 4 is fixed on upright post base 3, the upper end pivot joint of angular adjustment frame 7 and column 4, framework 8 is fixing with angular adjustment frame 7, and carries out angle adjustment by angular adjustment frame 7.Framework 8 is for placing solar panel 9.

Fig. 4 is an end view of upright post base, Figure 5 shows that the opposite side view of stand base, and upright post base comprises: the top 33 of tubular structure, middle part base plate 31 and bottom 35.In conjunction with Fig. 1, Fig. 4 and Fig. 5, the mounting structure of upright post base 3 in container hanging hole 10 is described.Two relative sides in container hanging hole 10 offer respectively a through hole 19, the bottom 35 of upright post base 3 is placed in hole for hoist 10, and bottom 35 can be a column piece, and has a through hole 34, the internal diameter at the middle part of through hole 34 is identical, and the two ends of through hole 34 are expansion gradually laterally.With reference to figure 1 and Fig. 2, two lock sleeves 16, anterior one-tenth taper, rear portion becomes column, the two lock sleeves 16 respectively two through hole 19 in hole for hoist 10 penetrate relatively, the two ends that the taper portion of two lock sleeves 16 inserts respectively through hole 34, and fit with the two ends that through hole 34 two ends are expanded laterally gradually.One bolt 15 is from the outside of hole for hoist 10, successively through the through hole of the axis of two lock sleeves 16, and after Self-locking sleeve 16 passes, locks by nut 17.Upright post base 3 is fixed in hole for hoist 10.

Further combined with the mounting structure of Fig. 1-5 explanation column and upright post base, the top 33 of upright post base 3 is inserted in the lower end of column 4, the inner chamber on the top 33 of upright post base 3 should match with the lower end of column 4, the side on the top 33 of upright post base 3 has multiple through holes, multiple nuts 32 penetrate from multiple through holes, and offset with the lower end of column 4.Column 4 is fixed in the top 33 of upright post base 3.

Further illustrate the mounting structure of the angular adjustment frame of solar-cell panel support in conjunction with Fig. 1-3, angular adjustment frame 7 comprises two fanning strips, the circle centre position of two fanning strips respectively with the upper end pivot joint of column 4, the relative column symmetry of two fanning strips, is provided with multiple through holes 71 on the arc-shaped edges of fanning strip.The below of column 4 and two fanning strip articulated sections, column 4 is fixed with two fixed blocks 6, two fixed blocks 6 are respectively arranged with a through hole, the through hole of two fixed blocks 6 is corresponding with multiple through holes 71 of fanning strip respectively, and can pass the through hole of fixed block 6 and the through hole of fanning strip 71 by alignment pin, by fixing respectively to two fixed blocks 6 and two fanning strips.Make fanning strip be fixed on different angles.Alignment pin 61 can be a bolt and nut.Because framework 8 is fixing with angular adjustment frame 7, make angular adjustment frame 7 can drive framework 8 to rotate, to realize solar panel, the sun is carried out to the tracking in North and South direction.

Wherein, the upper end of column 4 can be welded with connecting plate 5, and the both sides of connecting plate 5 offer screw, and two fanning strips are by connecting plate 5 and column 4 pivot joints.

Further illustrate the structure of framework 8 with reference to figure 3, framework 8 comprises many crossbeams that are parallel to each other 81 and many longerons that are parallel to each other 83, and many crossbeams 81 and this many longerons 83 interfix.Wherein.At the multiple junction buttons 82 of crossbeam, so that be connected with other crossbeams, with expandable stent 8.Junction button 82 can be made the structure of hinge, so that support 8 folds.

Installation steps in conjunction with figure Fig. 1-5 summaries solar-cell panel support are as follows: using for transforming as the container of photovoltaic cabin, hole for hoist 10 on four angles of container top is reequiped, and two relative sides are held bellmouth 19 successfully on hole for hoist 10, the lock sleeve of making 16 is packed in hole for hoist 10, be fastenedly connected with bolt 15 and nut 17, lock sleeve 16 is inserted in the upright post base 3 of making, utilize lock sleeve 16 by fixing upright post base 3.Fixed block 6 can be angle steel, and the column 4 that welds connecting plate 5 and angle steel 6 is inserted in upright post base 3, is fastenedly connected with bolt.Angular adjustment frame 7 and connecting plate 5 use bolts are carried out to pivot joint.According to the angle setting, the location hole on angular adjustment frame 7 71 is connected with latch 6 use bolts 61 simultaneously.Finally, support 8 and angular adjustment frame 7 use bolts are fixed.

In sum, the present invention has utilized container designs photovoltaic cabin, simple in structure, be convenient to installation and removal, be convenient to replacing and the repairing of solar panel, and fastening structure.Can realize the tracking of sunlight being carried out in North and South direction to 20 ° to 60 °, conveniently install according to different needs.

Although described the present invention with reference to several exemplary embodiments, should be appreciated that term used is explanation and exemplary and nonrestrictive term.Because can specifically implementing in a variety of forms, the present invention do not depart from spirit of the present invention or essence, so be to be understood that, above-described embodiment is not limited to any aforesaid details, and explain widely in the spirit and scope that should limit in claims, therefore fall into whole variations in claim or its equivalent scope and remodeling and all should be claims and contain.

Claims (10)

1. a mounting structure for solar-cell panel support, this solar-cell panel support is located on a pedestal, it is characterized in that, comprising:

One groove, is opened in this pedestal upper surface;

One column, is arranged in this groove;

At least one through hole, is opened in the side of this groove; And

One framework, rotating being arranged on this column, this framework is used for placing this solar panel;

Wherein, at least one bolt, is also fixed on this column in this groove through this through hole.

2. mounting structure as claimed in claim 1, is characterized in that, also comprises:

One upright post base, insert in this groove the bottom of this upright post base, and the outside that the middle part of this upright post base has a base plate and this groove offsets, and the top of this upright post base is a tubular structure, and the side opening of this tubular structure is provided with multiple through holes;

Wherein, this column inserts in this tubular structure, and the plurality of through hole of this tubular structure is through multiple bolts, and the plurality of bolt and this column offset, so that this column is fixed in this tubular structure; This at least one bolt that passes this through hole of this groove, is fixed on this upright post base in this groove.

3. mounting structure as claimed in claim 2, is characterized in that, also comprises:

At least one lock sleeve, corresponding being arranged in this through hole of side of this groove, and the axis of this lock sleeve one by one offered a through hole, and the front portion of this lock sleeve becomes taper;

At least one bolt, this groove outside is through this lock sleeve certainly;

Wherein, the bottom of this upright post base has at least one through hole, and the internal diameter of this through hole expands from inside to outside gradually, and this front portion of the taper of this lock sleeve can just be inserted in this through hole.

4. mounting structure as claimed in claim 3, is characterized in that, also comprises:

The number of this through hole of this groove is two, is symmetricly set on the two sides of this groove; The number of this through hole of the bottom of this this upright post base is one, two these through holes of its two ends and this groove corresponding; Two these lock sleeves are oppositely arranged in this two through hole of this groove, and a bolt passes the through hole of this two lock sleeve from a side of this groove, pass, and fix by nut from the opposite side of this groove.

5. mounting structure as claimed in claim 1, is characterized in that, also comprises:

Two fixed blocks, fix in the bilateral symmetry of this column, on this two fixed block, are respectively arranged with a through hole;

One angular adjustment frame, comprise two fanning strips, this column symmetry relatively, and with the upper end pivot joint of this column, make this two fanning strip can relative level face vertical rotation, the arc-shaped edges symmetry of this two fanning strip offers multiple through holes, the through hole of this two fixed block is corresponding with multiple through holes of this fanning strip respectively, and wear by alignment pin, make turning to after diverse location of this two fanning strip, this two fanning strip be separately fixed at different angles; This two fanning strip and this framework are fixed, and make this two fanning strip can drive this framework to rotate.

6. mounting structure as claimed in claim 1, is characterized in that, this framework comprises:

Many the crossbeams that are parallel to each other and many longerons that are parallel to each other, these many crossbeams and this many longerons interfix;

On the crossbeam of this upside and downside, be respectively arranged with multiple junction buttons.

7. a photovoltaic cabin, is characterized in that, comprising:

One container;

At least one through hole, is opened in the side of the hole for hoist of this container;

One upright post base, insert in this hole for hoist the bottom of this upright post base, and the outside that the middle part of this upright post base has a base plate and this hole for hoist offsets, and the top of this upright post base is a tubular structure, and the side opening of this tubular structure is provided with multiple through holes;

At least one bolt, through this through hole of this hole for hoist, is fixed on this upright post base in this hole for hoist;

One column, this column inserts in this tubular structure, and the plurality of through hole of this tubular structure is through multiple bolts, and the plurality of bolt and this column offset, so that this column is fixed in this tubular structure; And

One framework, rotating being arranged on this column, this framework is used for placing this solar panel.

8. photovoltaic cabin as claimed in claim 7, is characterized in that, also comprises:

At least one lock sleeve, corresponding being arranged in this through hole of side of this groove, and the axis of this lock sleeve one by one offered a through hole, and the front portion of this lock sleeve becomes taper;

At least one bolt, this hole for hoist outside is through this lock sleeve certainly;

Wherein, the bottom of this upright post base has at least one through hole, and the internal diameter of this through hole expands from inside to outside gradually, and this front portion of the taper of this lock sleeve can just be inserted in this through hole.

9. photovoltaic cabin as claimed in claim 7, is characterized in that, also comprises:

Two fixed blocks, fix in the bilateral symmetry of this column, on this two fixed block, are respectively arranged with a through hole;

One angular adjustment frame, comprise two fanning strips, this column symmetry relatively, and with the upper end pivot joint of this column, make this two fanning strip can relative level face vertical rotation, the arc-shaped edges symmetry of this two fanning strip offers multiple through holes, the through hole of this two fixed block is corresponding with multiple through holes of this fanning strip respectively, and wear by alignment pin, make turning to after diverse location of this two fanning strip, this this two fanning strips be separately fixed at different angles; This two fanning strip and this framework are fixed, and make this two fanning strip can drive this framework to rotate.

10. photovoltaic cabin as claimed in claim 1, is characterized in that, this framework comprises:

Many the crossbeams that are parallel to each other and many longerons that are parallel to each other, these many crossbeams and this many longerons interfix;

On the crossbeam of this upside and downside, be respectively arranged with multiple junction buttons.