CN218096649U - Ground mounting bracket of energy-gathering module with convex lens array - Google Patents

Abstract

The utility model discloses a take ground installing support of gathering of convex lens array ability module belongs to support technical field. To the not high and inconvenient problem of regulation of support stability, this support includes two at least regulation support frames that set up side by side and the reinforcement subassembly I that the selectivity set up, adjust the support frame including be used for with gather the vertical side fixed vertical mounting of ability module, and be used for the ground mounting fixed with ground, the one end of vertical mounting is connected with the one end of ground mounting, the other end of vertical mounting is connected through vertical flexible bracing piece with the other end of ground mounting, the interlude of vertical mounting still is connected with the flexible bracing piece of slant with the other end of ground mounting. Through vertical mounting and ground mounting and vertical flexible bracing piece be connected, make the support side form one can resist the triangular stable structure who gathers the wind load that the energy module bore, further improve support stability through the flexible bracing piece of slant simultaneously.

Description

Ground mounting bracket of energy-gathering module with convex lens array

Technical Field

The utility model relates to the technical field of supports, especially, relate to a take ground installing support of gathering of convex lens array ability module.

Background

The energy collecting module with the convex lens array refers to a device for collecting solar thermal energy by focusing through the convex lens array, for example, chinese patent application published as 2022-5-6 and published as CN114440475A, which discloses a solar thermal energy utilization energy collecting module with the convex lens array. The energy gathering module is of a rectangular structure and comprises a vertical side edge and a transverse side edge.

Because the energy collecting module with the convex lens array adopts the focused sunlight, the vertical incidence is favorable for collecting more energy, but the current ground mounting support can not adjust the angle generally.

The prior art is also improved correspondingly to the above problems, and for example, chinese patent application publication No. CN202564408U, whose publication No. 2012-11-28, discloses an angle-adjustable solar panel bracket and a solar panel mounting system. The utility model discloses solar cell panel support with adjustable angle includes: the device comprises an oblique beam for fixing a solar panel and a support for fixing the oblique beam to a supporting surface; one end of the oblique beam is movably connected with the support, and a height adjusting mechanism is arranged between the other end of the oblique beam and the support, so that the distance between the other end of the oblique beam and the supporting surface is adjusted. The solar cell panel mounting system comprises a plurality of angle-adjustable solar cell panel supports, mounting rails arranged on oblique beams through which the angle-adjustable solar cell panel supports pass are connected, and a plurality of solar cell panels are fixed on the mounting rails to form a solar cell panel square matrix. Adopt the utility model discloses can adjust solar cell panel and holding surface inclination in a flexible way to guarantee each solar cell panel's insolation volume. The scheme has the following defects: the height adjusting mechanism is complex in structure, and the structure is unstable due to only one height adjusting mechanism.

Also, for example, a chinese patent application published as 2017-11-3 and published as CN206611368U discloses a pull-rod-type adjustable solar photo-thermal bracket convenient for adjusting the angle of a solar photo-thermal plate, which comprises a solar fixing frame for fixing the solar photo-thermal plate; one end of the bracket component is fixed on the roof, and the other end of the bracket component is rigidly connected with the solar fixing frame; the bracket component comprises a plurality of support legs with different lengths; the solar energy fixing frame is characterized in that an adjusting plate is arranged below the support assembly, an adjusting hole is formed in the adjusting plate, at least one supporting leg penetrates through the adjusting hole, and the solar energy fixing frame adjusts the inclination angle by changing the length of the supporting leg penetrating through the adjusting hole. The scheme has the following defects: the adjusting plate is positioned below the bracket component, so that the length of the supporting leg is inconvenient to adjust.

Therefore, in view of the above problems, it is necessary to propose a further solution to solve at least one of the problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that relevant support stability is not high and adjust inconvenience, the utility model provides a take ground installing support of gathering of convex lens array ability module. The technical scheme is as follows:

a ground mounting bracket of an energy gathering module with a convex lens array comprises at least two adjusting support frames arranged side by side and a reinforcing component I selectively arranged between the two adjusting support frames, wherein each adjusting support frame comprises a vertical fixing piece and a ground fixing piece, the vertical fixing piece is used for fixing the vertical side edge of the energy gathering module, the ground fixing piece is used for fixing the ground, one end of each vertical fixing piece is connected with one end of the ground fixing piece, the other end of each vertical fixing piece is connected with the other end of the ground fixing piece through a vertical telescopic supporting rod, and the middle section of each vertical fixing piece and the other end of the ground fixing piece are further connected with an oblique telescopic supporting rod; the reinforcing component I comprises a turnbuckle I and a wind pull rod I which are connected in a front-back mode, one end of the reinforcing component I is connected with the upper portion of the vertical fixing piece in the adjusting support frame, and the other end of the reinforcing component I is connected with the corresponding end of the ground fixing piece in the adjacent adjusting support frame.

The utility model discloses a preferred embodiment, still include be used for with gather the horizontal side fixed transverse fixing spare of energy module, the both ends of transverse fixing spare respectively with adjacent two vertical mounting is fixed and communicates.

In a preferred embodiment of the present invention, the ground fixing member is located directly below the vertical fixing member.

In a preferred embodiment of the present invention, the vertical fixing member and the ground fixing member are U-shaped grooves, and the two groove walls of the ground fixing member are respectively connected to the vertical telescopic supporting rod and the inclined telescopic supporting rod.

In a preferred embodiment of the present invention, the transverse fixing member is a U-shaped groove.

In a preferred embodiment of the present invention, the medium inlet and outlet of two adjacent energy collecting modules are connected by a pipe, and the pipe is located in the transverse fixing member.

In a preferred embodiment of the present invention, the vertical telescopic supporting rod and the slant telescopic supporting rod each include at least two circular tube rods and a sleeve connecting two adjacent circular tube rods.

The utility model discloses a preferred embodiment, still including set up in gather two reinforcing component II behind the energy module, two reinforcing component II is the setting of crossing, reinforcing component II includes basket screw II and the wind-drag pole II of connecting around, reinforcing component II's one end and one vertical mounting is connected, and the other end is adjacent vertical mounting connects.

In a preferred embodiment of the present invention, at most three energy collecting modules are sequentially connected to one side of the vertical fixing member from top to bottom.

In a preferred embodiment of the present invention, at most seven of the adjusting supports are arranged side by side.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) The utility model discloses a fixed energy accumulation module of two adjacent vertical mounting, make a plurality of energy accumulation modules realize the matrix and arrange, and through being connected with ground mounting and vertical flexible bracing piece, make the support side form one can resist the triangle-shaped stable structure that the energy accumulation module bore the wind load, and can realize inclination angle adjustment, further improve support stability through the slant flexible bracing piece of slant that sets up between triangle-shaped hypotenuse and right angle simultaneously, also improve the stability of the energy accumulation module that inclines to set up, this support angle adjustment only need to adjust the length of the vertical flexible bracing piece and slant flexible bracing piece that are located subaerial when adjusting, convenient operation, make the solar ray from the normal direction incident inclined plane of perpendicular inclined plane energy accumulation module's inclined plane, thereby collect more solar thermal energy; set up reinforcement component I through the selectivity, select to set up or not set up reinforcement component I according to actual demand promptly to bear lateral wind load or other external forces, further ensure support overall structure stability.

(2) The utility model discloses a horizontal side at gathering the energy module sets up horizontal mounting to cooperate vertical mounting on the one hand, make to gather the energy module and all fix in week, improve and gather the stability of energy module, on the other hand, it is unsettled to avoid connecting two adjacent pipelines that gather the medium access & exit of energy module, improves and gathers the medium intercommunication stability of energy module.

(3) The utility model discloses a set up two behind one's back that are cross arrangement and consolidate subassembly II gathering the module, and two consolidate subassembly II and be connected with two adjacent vertical mountings respectively to the stability of being connected between module and the support is gathered in further having improved.

Drawings

Fig. 1 is a plan view of the ground mounting bracket of the present invention in use with the energy concentrating module installed;

FIG. 2 is a cross-sectional view taken at 1-1 of FIG. 1;

FIG. 3 is a cross-sectional view taken at 2-2 of FIG. 1;

fig. 4 is a schematic view of a reinforcing component ii in a use state according to the present invention;

FIG. 5 is a cross-sectional view taken at 1-1 in FIG. 4;

FIG. 6 is a cross-sectional view taken at 2-2 of FIG. 4;

fig. 7 is a rear elevation view of the ground mounting bracket of the present invention in use, with the energy concentrating module installed;

fig. 8 is a side elevation view of the ground mounting bracket of the present invention in use;

specifically, 1, energy gathering module; 2. a bellows; 3. a pipe hoop; 4. a slot connecting plate; 5. a vertical fixing member; 6. a transverse fixing member; 7. a ground securing member; 8. a rod connecting plate; 9. a wind pull rod II; 10. a turnbuckle II; 11. a vertical round pipe rod; 12. an oblique round pipe rod; 13. a sleeve; 14. a turnbuckle I; 15. wind pull rod I.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "lateral", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1:

as shown in fig. 1 and fig. 7-8, a ground mounting bracket of a power collecting module with a convex lens array comprises at least two adjusting support frames arranged side by side. The adjusting carriage comprises a vertical fixing 5 for fixing with the vertical side of the energy collecting module 1 and a ground fixing 7 for fixing with the ground. The one end of vertical mounting 5 is connected with the one end of ground mounting 7, and the other end of vertical mounting 5 passes through vertical flexible bracing piece with the other end of ground mounting 7 to be connected, and the interlude of vertical mounting 5 still is connected with the other end of ground mounting 7 slant flexible bracing piece. Two adjacent vertical fixing pieces 5 are respectively fixed with two vertical side edges of the energy collecting module 1, so that the energy collecting modules 1 are fixed, a plurality of energy collecting modules 1 are arranged in a matrix mode, and the energy collecting modules 1 can be connected in series and in parallel to form a whole. Vertical mounting 5, ground mounting 7 and vertical flexible bracing piece three are connected, make the support side form one can resist the triangle stable structure who gathers the wind load that the module bore, can realize support inclination adjustment through the length adjustment of vertical flexible bracing piece simultaneously to the setting further improves support stability at the flexible bracing piece of slant between triangle-shaped hypotenuse and right angle, also improves the stability that gathers the module 1 that the slope set up. The length of the vertical telescopic supporting rod and the inclined telescopic supporting rod which are positioned on the ground only need to be adjusted when the angle of the support is adjusted, the operation is convenient, and the solar rays are enabled to be incident from the normal direction of the vertical inclined plane to the inclined plane of the energy collecting module 1, so that more solar heat energy is collected. It can be understood that, for realizing that vertical flexible bracing piece and the flexible bracing piece of slant drive support altitude mixture control, be articulated or other swing joint between vertical mounting 5, ground mounting 7, vertical flexible bracing piece and the flexible bracing piece of slant to after altitude mixture control, fix through fasteners such as bolt as required again.

The vertical telescopic supporting rod and the inclined telescopic supporting rod respectively comprise at least two round pipe rods and a sleeve 13 for connecting the two adjacent round pipe rods. In this embodiment, the vertical telescopic supporting rod comprises two vertical round pipe rods 11 and a sleeve 13 connecting the two vertical round pipe rods 11, the slant telescopic supporting rod comprises two slant round pipe rods 12 and a sleeve 13 connecting the two slant round pipe rods 12, and certainly, the number of the round pipe rods and the sleeve 13 is not limited thereto, and can be set to be a plurality according to actual demands. The pipe pole cup joints with sleeve pipe 13, and the pipe pole can slide in sleeve pipe 13 to realize flexible adjustment, when the pipe pole slided to required position, the pipe pole of accessible pipe and the frictional resistance between the sleeve pipe 13 realized that the pipe pole stopped at this position, but for guaranteeing its stability, more preferably, through fixed pipe pole of fasteners such as bolts and sleeve pipe 13, when needing readjustment, the fastener was unscrewed, was adjusted again.

The ground fixing member 7 is located under the vertical fixing member 5, thereby further improving the stability of the triangular structure formed by the vertical fixing member 5, the ground fixing member 7 and the vertical telescopic supporting rod.

As shown in fig. 2-3, 5-6 and 7-8, the vertical fixture 5 and the ground fixture 7 are U-shaped channels, for example, U-shaped channel steel. Two groove walls of the ground fixing part 7 are respectively connected with the vertical telescopic supporting rod and the inclined telescopic supporting rod, so that the weight of the support is reduced on the basis of ensuring the strength of the support.

As shown in fig. 7-8, the support further comprises a reinforcing component i selectively arranged between the two adjusting support frames, i.e. the reinforcing component i is selectively arranged or not arranged according to actual requirements so as to bear lateral wind load or other external force, and further ensure the stability of the whole structure of the support. The reinforcing component I comprises a turnbuckle I14 and an air tie I15 which are connected in a front-back mode. The turnbuckle is also called as a turnbuckle, a rigging and a tightening buckle and is used for tensioning a steel wire rope and the like; the wind pull rod is generally a round steel pull rod, hooks are arranged at two ends of the wind pull rod, and the wind pull rod and the turn buckle are usually matched for use so as to tighten the wind pull rod. One end of the reinforcing component I is connected with the upper part of the vertical fixing piece 5 in one adjusting support frame, and the other end of the reinforcing component I is connected with the corresponding end of the ground fixing piece 7 in the adjacent adjusting support frame.

In order to realize good solar energy light and heat collection, one side of the vertical fixing piece 5 is sequentially connected with at most three energy collecting modules 1 from top to bottom. In order to realize the stability of the energy collecting modules 1, at most seven adjusting support frames are arranged side by side, namely at most six rows of the energy collecting modules 1, and 18 energy collecting modules 1 are connected into a whole.

In the embodiment, the reinforcing components I are arranged at the head column and the tail column of the six-column energy-gathering module 1, so that the stability of the whole support can be ensured.

Example 2:

on the basis of embodiment 1, in this embodiment, this support still includes the horizontal mounting 6 that is used for with gathering the horizontal side of ability module 1 is fixed, the both ends of horizontal mounting 6 are fixed and communicate with two adjacent vertical mountings 5 respectively, thereby on the one hand cooperate vertical mounting 5, make to gather ability module 1 all fixed in week, improve and gather the stability of ability module 1, on the other hand, it is unsettled to avoid connecting the pipeline of two adjacent media access & exit that gather ability module 1, improve and gather the medium intercommunication stability of ability module 1. The transverse fixing elements 6 are preferably also U-shaped grooves, the medium inlets and outlets of two adjacent energy collecting modules 1 are connected by a pipe, and the pipe is located in the transverse fixing elements 6. In this embodiment, the medium inlet and outlet of two adjacent energy collecting modules 1 are connected through a corrugated pipe 2, the corrugated pipe 2 is fixed with the medium inlet and outlet through a pipe hoop 3, and the corrugated pipe 2 is arranged in the transverse fixing piece 6.

As shown in fig. 4, this support is still including setting up two reinforcement assembly II behind the ability module 1, and two reinforcement assembly II are the setting of handing over, and reinforcement assembly II includes basket screw II 10 and wind-drag pole II 9 of front and back connection, and the one end and the vertical mounting 5 of reinforcement assembly II are connected, and the other end is connected with adjacent vertical mounting 5 to the stability of being connected between ability module 1 and the support has further been improved.

As shown in fig. 7, in this embodiment, two reinforcing components ii may be disposed in a row of energy collecting modules 1, so as to improve the stability of the energy collecting modules 1 and the stability of the entire support.

For convenient installation, a plurality of groove connecting plates 4 can be welded on the back of each energy collecting module 1, and the vertical fixing pieces 5 and the transverse fixing pieces 6 are fixed through the groove connecting plates 4 and the bolts. Can also weld a plurality of pole connecting plates 8 at the back of gathering the module 1 to easy to assemble reinforcement assembly I and reinforcement assembly II, reinforcement assembly I and reinforcement assembly II are connected through gathering ability module 1 and vertical mounting 5, thereby form a whole with support and a plurality of energy module 1 that gather.

To sum up, the utility model discloses a two adjacent vertical mounting fix the energy accumulation module, make a plurality of energy accumulation modules realize the matrix and arrange, and through being connected with ground mounting and vertical flexible bracing piece, make the support side form a triangle-shaped stable structure that can resist the wind load that the energy accumulation module bears, and can realize inclination adjustment, further improve the support stability through the slant flexible bracing piece that sets up between triangle-shaped hypotenuse and right angle simultaneously, also improve the stability of the energy accumulation module that sets up aslope, only need when this support angle adjustment the length of the vertical flexible bracing piece that is located on the ground and slant flexible bracing piece to adjust, and convenient for operation, make the solar ray from the normal direction incident inclined plane of vertical inclined plane energy accumulation module, thereby collect more solar thermal energy; set up reinforcement component I through the selectivity, select to set up or not set up reinforcement component I according to actual demand promptly to bear lateral wind load or other external forces, further ensure support overall structure stability.

Furthermore, it is to be understood that the described embodiments are merely illustrative of some, and not restrictive, of the current invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Claims (10)

1. The ground mounting bracket is characterized by comprising at least two adjusting support frames arranged side by side and a reinforcing component I selectively arranged between the two adjusting support frames, wherein each adjusting support frame comprises a vertical fixing piece and a ground fixing piece, the vertical fixing piece is used for fixing the vertical side edge of each energy gathering module, the ground fixing piece is used for fixing the ground, one end of each vertical fixing piece is connected with one end of the ground fixing piece, the other end of each vertical fixing piece is connected with the other end of the ground fixing piece through a vertical telescopic support rod, and the middle section of each vertical fixing piece and the other end of the ground fixing piece are further connected with an oblique telescopic support rod; the reinforcing component I comprises a turnbuckle I and a wind pull rod I which are connected in a front-back mode, one end of the reinforcing component I is connected with the upper portion of the vertical fixing piece in the adjusting support frame, and the other end of the reinforcing component I is connected with the corresponding end of the ground fixing piece in the adjacent adjusting support frame.

2. The ground mounting bracket of energy collecting module with convex lens array according to claim 1, characterized in that, it further comprises a transverse fixing member for fixing with the transverse side of the energy collecting module, and two ends of the transverse fixing member are respectively fixed and communicated with two adjacent vertical fixing members.

3. The ground mounting bracket of a power concentrating module with a lenticular array of claim 1, wherein the ground fixture is located directly below the vertical fixture.

4. The ground mounting bracket for a power concentrating module with a lenticular lens array according to claim 1, wherein the vertical fixing member and the ground fixing member are both U-shaped grooves, and two groove walls of the ground fixing member are respectively connected with the vertical telescopic support rod and the inclined telescopic support rod.

5. A ground mounting bracket for a power concentrating module with a lenticular array according to claim 2, wherein the transverse fixing member is a U-shaped slot.

6. The ground mounting bracket for energy collecting modules with convex lens arrays according to claim 2 or 5, characterized in that the medium inlet and outlet of two adjacent energy collecting modules are connected through a pipeline, and the pipeline is positioned in the transverse fixing piece.

7. The ground mounting bracket for a power concentrating module with a convex lens array according to claim 1, wherein the vertical telescopic support rod and the diagonal telescopic support rod each comprise at least two tubular rods and a sleeve connecting two adjacent tubular rods.

8. The ground mounting bracket for the energy gathering module with the convex lens array is characterized by further comprising two reinforcing components II arranged at the back of the energy gathering module, the two reinforcing components II are arranged in a crossed mode, each reinforcing component II comprises a turn buckle II and an air pull rod II which are connected in a front-back mode, one end of each reinforcing component II is connected with one vertical fixing piece, and the other end of each reinforcing component II is connected with the adjacent vertical fixing piece.

9. The ground mounting bracket for energy concentrating modules with a convex lens array according to claim 1, characterized in that at most three energy concentrating modules are connected to one side of the vertical fixing piece from top to bottom in sequence.

10. The ground mounting bracket of a power module with a lenticular array of claim 1, wherein up to seven of the adjustment brackets are positioned side-by-side.

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