CN217817511U - Space tower type mounting bracket device with convex lens array energy gathering module - Google Patents

Abstract

The utility model relates to a take convex lens array to gather space tower type installing support device of ability module, the support device mainly by gathering the horizontal H shaped steel of module inclined plane, gather the vertical H shaped steel of module inclined plane, space support front side track H shaped steel, space support rear side track H shaped steel, ground U type groove, vertical variable cross section pipe support, adjustable pipe bracing piece etc. and form, vertical variable cross section pipe support top-down pipe diameter is because the different crescent of atress demand, and adjustable pipe bracing piece both ends are the trompil steel sheet, and the centre is by bushing, adjustable overall length. Its advantages are: the solar energy collecting device can enable the energy collection of solar photo-thermal utilization to be developed to the high altitude, thereby reducing the occupation of scarce land resources, realizing the effect of generating more electric energy per unit area, being more beneficial to realizing instant use and local consumption of solar photo-thermal power generation, and having great practical significance for saving huge investment and electric power loss of power grid for long-distance electric power transmission.

Description

Space tower type mounting bracket device with convex lens array energy gathering module

Technical Field

The utility model belongs to the technical field of the new forms of energy technique that solar photothermal utilized and specifically relates to a take convex lens array to gather space tower type installing support device of energy module.

Background

In the application practice of solar energy, how to guarantee that the sunny side of collector remains throughout with the perpendicular of sunlight axis, be the key technology of collector performance maximum efficiency, in current solar collector, need the large tracts of land resource on the one hand mostly, thereby on the other hand can't guarantee that the collector remains throughout with the sunlight vertical direction obtains the highest sunlight heat energy, ensure high efficiency, the high benefit of solar photothermal utilization, most collector structure is comparatively complicated moreover, manufacturing cost is high.

The Chinese patent application: CN202111678640.4 discloses a novel solar energy component packaging structure, relates to solar energy component packaging technical field, includes: the upper packaging plate is made of high-light-transmission glass; the lower packaging plate is fixed below the upper packaging plate by adopting a packaging side plate; the upper packaging plate, the lower packaging plate and the packaging side plate form an inner packaging mechanism; the triangular supports are arranged in an array and are arranged closely to each other, so that an installation space is formed among the triangular supports, the upper packaging plate and the packaging side plate; an accommodating space is formed among the triangular support, the lower packaging plate and the packaging side plate; wherein, a battery piece is arranged in the installation space; and an outer packaging mechanism packaged outside the inner packaging mechanism. This patent constructs interior packaging mechanism and outer packaging mechanism who establishes, wherein interior packaging mechanism sets up in the inside of outer packaging mechanism, interior packaging mechanism and outer packaging mechanism mutually support can provide the protection of preferred for the battery piece, in addition, interior packaging mechanism can guarantee holistic generating efficiency under the encapsulation quantity condition that promotes the battery piece, and outer packaging mechanism can carry out periodic cleaning for last package board for interior packaging mechanism provides certain protection, when having guaranteed generating efficiency, its life has been prolonged. But this patent can only be the plane, can not adjust to the inclined plane and gather, and this patent subassembly's theory of operation also has very big difference with this patent.

The Chinese patent application: CN201210117949.0 discloses a box type solar lens group heat collection field, which comprises a solar lens group heat collection system, a heat transmission system, an energy conversion system, an energy storage system and an operation control system; the solar lens group heat collection system is formed by combining single convex lenses in an array manner to form a lens group of a box type solar lens group heat collector; the box-type solar lens group heat collector forms an intensive and large-scale heat collection field through re-array; the box type solar lens group heat collector is respectively provided with a sunlight axis tracking assembly with a real-time and automatic sunlight axis tracking function so as to obtain the maximum heat efficiency value of the solar energy; the operation control system monitors and dispatches the safe operation of the heat transmission system, the heat storage system and the energy conversion system, and converts the solar energy collected by the heat collection field into electric energy to be output. However, the solar lens group heat collection field is not a tower-type lens collector, and the heat collection field of the solar lens group heat collection field is different from the principle of the solar lens group heat collection field.

This patent provides a tower supporting structure who connects to install in the high latitude for the first time to make and gather the inclination that the energy module keeps setting for with ground, so that receive as much as possible solar thermal energy's support device. About the utility model relates to a take convex lens array to gather space tower installing support device of energy module has not seen the report at present.

Disclosure of Invention

The utility model aims at prior art not enough, provide a take convex lens array to gather space tower installing support device of ability module, this support device with a plurality of gather the module link joint installation together obtain gather the ability module combination, keep the inclination of settlement with ground simultaneously to make the sunlight on the daylighting face of gathering the ability module at the vertical incidence as much as possible, thereby collect more energy.

In order to realize the purpose, the utility model adopts the technical proposal that:

the utility model provides a take convex lens array to gather space tower type installing support device of energy module, the device is including gathering the energy module combination, gathering the horizontal H shaped steel 2 of module inclined plane, gathering the vertical H shaped steel 3 of module inclined plane, space support front side track H shaped steel 7, space support rear side track H shaped steel 8, track H shaped steel connecting plate 9, ground U type groove 10, vertical variable cross section pipe support 11, adjustable pipe bracing piece 12, ground U type groove 10 is connected with space support front side track H shaped steel 7 bottom, gather the adjacent both sides of energy module combination and pass through track H shaped steel connecting plate 9 respectively with gather the horizontal H shaped steel 2 of energy module inclined plane and gather the vertical H shaped steel 3 of module inclined plane and be connected, gather the vertical H shaped steel 3 bottom end on module inclined plane and be connected with space support front side track H shaped steel 7 top, gather the vertical H shaped steel 3 top end on module inclined plane and be connected with space support rear side track H shaped steel 8's non-bottom, space support rear side track H shaped steel 8 bottom is connected with U type groove 10, space support rear side track H8 top and vertical variable cross section support rear side track H shaped steel 11 top connection position are located the adjustable pipe and ground module rear side support front side track H shaped steel 12 and the horizontal H shaped steel connection position respectively gather energy module support front side groove.

Further, the energy-gathering module combination is composed of a plurality of energy-gathering modules 1, and the energy-gathering module combination has multiple layers.

Further, the device still includes U type groove connecting plate 4, gathers the horizontal U type groove 5 of energy module inclined plane, gathers the vertical U type groove 6 of energy module inclined plane, gather 1 shell bottom of energy module and be connected with U type groove connecting plate 4, gather energy module 1 all around through U type groove connecting plate 4 respectively with gather the horizontal U type groove 5 of energy module inclined plane and gather the vertical U type groove 6 bolted connection of energy module inclined plane.

Preferably, each layer of energy-gathering module combination is composed of 4*6 energy-gathering modules.

Preferably, the top end of the space support front side track H-shaped steel 7 comprises a connecting plate, and two sides of the energy gathering module combination are hinged to the connecting plate at the top end of the space support front side track H-shaped steel 7.

Preferably, the top end of the inclined surface longitudinal H-shaped steel 3 of the energy collecting module is hinged with the H-shaped steel 8 of the track at the rear side of the space bracket.

Preferably, a strip-shaped hole is formed in the joint of the bottom end of the space support rear side track H-shaped steel 8 and the ground U-shaped groove 10.

Preferably, the top end of the H-shaped steel 8 of the track at the rear side of the space bracket is hinged with the top end of the vertical variable cross-section circular tube bracket 11.

Preferably, the diameter of the circular tube of the vertical variable cross-section circular tube support 11 gradually increases from top to bottom.

Preferably, the adjustable round tube support rod 12 is a support rod with two ends provided with steel plates with holes and the middle connected by a sleeve, and the length of the support rod can be adjusted.

Preferably, the energy concentrating module is an energy concentrating module consisting of a convex lens array

The utility model has the advantages that:

1. the energy collecting module with the convex lens array for solar photo-thermal utilization is arranged on a spatial tower type support structure, so that the energy collection of the solar photo-thermal utilization can be developed to the high altitude, the occupation of scarce land resources is reduced, the effect of generating more electric energy per unit area can be realized, the energy collecting module has very important significance particularly for cities with higher land prices, the temporary edges of flower beds, grasslands and the two sides of roads can be used as energy collecting fields for solar photo-thermal utilization, the solar photo-thermal generation can be realized more conveniently, the solar photo-thermal generation can be used immediately after being generated and can be consumed locally, and the huge investment and the electric power loss of power grid for long-distance power transmission are saved, so that the practical significance is realized.

2. The installation rail rods (the space support front side rail H-shaped steel 7 and the space support rear side rail H-shaped steel 8) of the energy-gathering modules are arranged in parallel, and the installation plane of the energy-gathering modules is connected with the rail rods through a rotatable hinge, so that the installation plane of the energy-gathering modules can adjust the inclination angle of the installation plane of the energy-gathering modules and the horizontal plane according to the incident angle of sunlight heat, and the sunlight is kept to be incident from the normal direction of the plane of the energy-gathering modules all the time, thereby obtaining the highest sunlight heat energy and ensuring the high efficiency and high benefit of the utilization of the sunlight heat.

3. The ground rod piece of the spatial tower type mounting bracket is a rail type rod piece, so that the mounting rail positioned in the middle energy-gathering module can slide in the ground rail to adapt to the action of inclination angle change of the mounting rail; and the mounting rail of the energy collecting module at the rightmost side only needs to rotate around the hinge shaft of the energy collecting module and the ground rail.

4. The other supporting rod (the adjustable circular tube supporting rod 12) is connected with the parallel mounting rail rod of the energy collecting module, and the length of the supporting rod can be extended and retracted, so that the mounting surface of the energy collecting module can adjust the inclination angle with the ground according to the change of the solar incident angle, and the system can obtain more solar heat energy.

5. The space tower type mounting bracket can adjust the inclination angle between the mounting plane of the energy-gathering module and the horizontal plane according to the solar incident angle, and the other beneficial effect is that: the upper layer energy gathering module can not shield the lighting surface of the lower layer energy gathering module, so that each layer of energy gathering module is guaranteed to be an effective solar thermal energy collecting surface, the solar thermal energy is collected to be developed to the space, and the squeezing occupation of expensive urban land resources is reduced.

It should be noted that, the utility model discloses a mounting plane of 3 layers of energy gathering module has only been drawn in the tower installing support structure in space figure of the space of "the energy gathering module of taking convex lens array" and practical application can be according to 5 layers, 6 layers, 10 layers, 20 layers expansion even to realize the high-efficient collection in space of solar thermal energy, reach higher system efficiency and the high-efficient application in space of unit land area solar thermal energy, the land cost for reducing the solar thermal utilization has great meaning.

Drawings

FIG. 1 is a side elevational view of a spatial tower-type mounting bracket for a concentrator module.

Fig. 2 is a front elevation view of a spatial tower mounting bracket for a concentrator module.

Fig. 3 is a plan view of a single layer concentrator module assembly.

Fig. 4 is a cross-sectional view taken at 1-1 in fig. 3.

Fig. 5 is a cross-sectional view taken at 2-2 in fig. 3.

1. An energy gathering module;

2. the inclined surface of the energy-gathering module is transverse H-shaped steel;

3. the inclined surface of the energy-gathering module is vertical H-shaped steel;

4. a U-shaped groove connecting plate;

5. the inclined plane of the energy-gathering module is provided with a horizontal U-shaped groove;

6. the inclined plane of the energy collecting module is a longitudinal U-shaped groove;

7. h-shaped steel of the front side track of the space bracket;

8. h-shaped steel of the rear side track of the space bracket;

9. a track H-shaped steel connecting plate;

10. a ground U-shaped groove;

11. a vertical variable cross-section circular tube support;

12. the adjustable pipe bracing piece.

Detailed Description

The present invention will be further described with reference to the following detailed description. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes and modifications can be made by those skilled in the art after reading the disclosure of the present invention, and such equivalents also fall within the scope of the appended claims.

Example 1

Referring to fig. 1-2, fig. 1 is a side elevation view of a space tower-type mounting bracket for energy collecting modules, and fig. 2 is a front elevation view of the space tower-type mounting bracket for energy collecting modules.

This embodiment provides a take convex lens array to gather tower installing support device in space of ability module, this support is mainly by gathering the horizontal H shaped steel 2 of ability module inclined plane, gather the vertical H shaped steel 3 of ability module inclined plane, space support front side track H shaped steel 7, space support rear side track H shaped steel 8, ground U type groove 10, vertical variable cross section pipe support 11, adjustable pipe bracing piece 12 etc. is constituteed, 11 top-down pipe diameters of vertical variable cross section pipe support are because the different crescent of atress demand, 12 both ends of adjustable pipe bracing piece are the trompil steel sheet, the centre is by bushing, adjustable overall length.

Referring to fig. 3-5, fig. 3 is a plan view of a single-layer concentrator module assembly, fig. 4 is a cross-sectional view taken at 1-1 of fig. 3, and fig. 5 is a cross-sectional view taken at 2-2 of fig. 3.

The support comprises a U-shaped groove connecting plate 4, an energy-collecting module inclined plane horizontal U-shaped groove 5, an energy-collecting module inclined plane longitudinal U-shaped groove 6 and a track H-shaped steel connecting plate 9.

During installation, a plurality of U-shaped groove connecting plates 4 are welded at the bottom of a shell of each energy collecting module 1, then 4 energy collecting modules 1 are longitudinally arranged in a group, the horizontal U-shaped grooves 5 of the inclined surfaces of the energy collecting modules are fixed between every two energy collecting modules 1 through the U-shaped groove connecting plates 4 through bolts, and then the left side and the right side of each group of energy collecting modules are connected with the vertical U-shaped grooves 6 of the inclined surfaces of the energy collecting modules through the U-shaped groove connecting plates 4 through bolts, so that a single-layer energy collecting module combination with a 4*6 structure is formed. Then, the bottom ends of the energy-gathering module inclined plane longitudinal H-shaped steel 3 on two sides of the single-layer energy-gathering module combination and the connecting plates with the bottom ends fixed at the corresponding positions of the track H-shaped steel 7 on the front side of the space support of the ground U-shaped groove 10 are hinged to form a combined structure with an adjustable angle, then the top ends of the energy-gathering module inclined plane longitudinal H-shaped steel 3 on two sides of the single-layer energy-gathering module combination are hinged to the corresponding positions of the track H-shaped steel 8 on the rear side of the space support, strip-shaped holes are formed in the fixed positions of the track H-shaped steel 8 on the rear side of the space support and the ground U-shaped groove, and the rear track H-shaped steel 8 can move when the angle is adjusted. When the energy-gathering module on the uppermost layer is assembled, the top end of the H-shaped steel 8 on the rear side track of the space support is hinged with a vertical variable-section circular tube support 11, and the bottom of the circular tube support is fixed with a ground U-shaped groove 10 to form a triangular structure, so that the stability of the support is improved.

When the heat supply requirement is high and multiple layers of energy-gathering module assemblies are needed, the position where the first layer of energy-gathering module assemblies are connected with the space support rear side track H-shaped steel 8 and the position where the second layer of energy-gathering module assemblies are connected with the space support front side track H-shaped steel 7 are fixed with the adjustable circular tube supporting rod 12, in the using process, the length of the adjustable circular tube supporting rod 12 can be changed along with the change of the inclination angle of the energy-gathering modules, and the support is supported between the two layers of track H-shaped steel, so that the overall stability of the support is improved.

It should be noted that only the installation plane of 3 layers of energy-gathering modules is drawn in the attached drawing of the spatial tower type installation support structure of the energy-gathering module with the convex lens array, and the actual application can be expanded according to 5 layers, 6 layers, even 10 layers and 20 layers, so that the space efficient collection of solar photo-thermal energy is realized, higher system efficiency and space efficient application of solar photo-thermal energy in unit land area are achieved, and the spatial tower type installation support structure has great significance for reducing the land cost for solar photo-thermal utilization.

The utility model discloses a support device can be in the same place a plurality of energy-gathered module link attachments, keeps the inclination of settlement with the bottom surface simultaneously to make the sunlight on the daylighting face of energy-gathered module at the vertical incidence as much as possible, thereby collect more energy.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (10)

1. A space tower type mounting bracket device with a convex lens array energy accumulation module is characterized by comprising an energy accumulation module combination, energy accumulation module inclined plane transverse H-shaped steel (2), energy accumulation module inclined plane longitudinal H-shaped steel (3), space bracket front side track H-shaped steel (7), space bracket rear side track H-shaped steel (8), a track H-shaped steel connecting plate (9), a ground U-shaped groove (10), a vertical variable cross-section circular tube bracket (11) and an adjustable circular tube supporting rod (12), wherein the ground U-shaped groove (10) is connected with the bottom end of the space bracket front side track H-shaped steel (7), the energy accumulation module combination is respectively connected with the energy accumulation module inclined plane transverse H-shaped steel (2) and the energy accumulation module inclined plane longitudinal H-shaped steel (3) through the track H-shaped steel connecting plate (9), the energy accumulation module inclined plane longitudinal H-shaped steel (3) bottom end is connected with the top end of the space bracket front side track H-shaped steel (7), the energy accumulation module inclined plane longitudinal H-shaped steel (3) top end is connected with the non-bottom end of the space bracket rear side track H-shaped steel (8), the space bracket rear side track H-shaped steel (8) bottom end is connected with the vertical variable cross-shaped groove (11), two ends of the adjustable circular tube supporting rod (12) are respectively located at the position where the energy collecting module combination is connected with the space support rear side track H-shaped steel (8) and the position where the other energy collecting module combination is connected with the space support front side track H-shaped steel (7).

2. The arrangement according to claim 1, characterized in that the combination of energy concentrating modules is composed of energy concentrating modules (1) having a total of several layers, which are composed of an array of convex lenses.

3. The device according to claim 2, characterized in that the device further comprises a U-shaped groove connecting plate (4), an energy collecting module inclined plane horizontal U-shaped groove (5) and an energy collecting module inclined plane longitudinal U-shaped groove (6), the bottom end of the shell of the energy collecting module (1) is connected with the U-shaped groove connecting plate (4), and the periphery of the energy collecting module (1) is respectively in bolt connection with the energy collecting module inclined plane horizontal U-shaped groove (5) and the energy collecting module inclined plane longitudinal U-shaped groove (6) through the U-shaped groove connecting plate (4).

4. The apparatus of claim 2, wherein each combination of concentrator modules is comprised of 4*6 concentrator modules.

5. The device according to claim 1, characterized in that the top end of the space frame front side rail H-shaped steel (7) comprises a connecting plate, and the two sides of the energy collecting module combination are hinged with the connecting plate at the top end of the space frame front side rail H-shaped steel (7).

6. The device according to claim 1, characterized in that the top end of the inclined longitudinal H-section (3) of the energy collecting module is hinged with the H-section (8) of the space frame rear side rail.

7. The device according to claim 1, characterized in that the joint of the bottom end of the H-shaped steel (8) of the track at the rear side of the space frame and the ground U-shaped groove (10) is provided with a strip-shaped hole.

8. The device according to claim 1, characterized in that the top end of the H-shaped steel (8) of the rear side track of the space bracket is hinged with the top end of the vertical variable cross-section circular tube bracket (11).

9. The device according to claim 1, characterized in that the diameter of the vertical round tube support (11) is larger at the lower side than at the upper side.

10. The device as claimed in claim 1, wherein the adjustable round tube support rod (12) is a support rod with two ends of perforated steel plates and the middle of the support rod is connected by a sleeve pipe, and the length of the support rod can be adjusted.

Images