CN114844451A - New forms of energy photovoltaic electroplax strutting arrangement - Google Patents

Abstract

The utility model relates to a field of photovoltaic electroplax, and a new forms of energy photovoltaic electroplax strutting arrangement is disclosed, including bottom plate and the photovoltaic electroplax that is located the bottom plate top, be provided with the support frame between bottom plate and the photovoltaic electroplax, the support frame is including symmetry setting and the vertical stand that is fixed in on the bottom plate, the level sets up and is fixed in the spreader between the stand of both sides, the swivel mount on the spreader is located to the cover, the vertical fixation is in the support column of swivel mount outer peripheral face, the one end that the swivel mount was kept away from to the support column stretches to the top of swivel mount, the photovoltaic electroplax is installed on the support column, be provided with the rotatory actuating mechanism of drive swivel mount between swivel mount and the bottom plate. This application has realized that can adjust photovoltaic electroplax daylighting angle wantonly and stabilize the effect of fastening.

Description

New forms of energy photovoltaic electroplax strutting arrangement

Technical Field

The application relates to the field of photovoltaic electroplates, especially relates to a new forms of energy photovoltaic electroplate strutting arrangement.

Background

With the gradual maturity of the solar photovoltaic power generation technology, clean energy and convenient use, other limited resources are saved, so the research on the solar photovoltaic power generation technology has higher practical value and long-term significance. A group of photovoltaic cells, called photovoltaic components, which reach certain rated output power and output voltage after certain combination of solar cells can form arrays of various sizes according to the size and scale of a photovoltaic power station, the photovoltaic components are made of high-efficiency monocrystalline silicon or polycrystalline silicon photovoltaic cells, high-transmittance toughened glass, corrosion-resistant aluminum alloy multi-frame and other materials, and are manufactured by using an advanced vacuum lamination process and a pulse welding process, so that the long service life can be ensured even in the harsher environment.

However, in the process of implementing the technical solution of the invention in the embodiments of the present application, the inventors of the present application find that at least the following technical problems exist: photovoltaic electroplax need adjust photovoltaic electroplax when using, but photovoltaic electroplax on the market is just carrying out the angle modulation back, fastens the regulation support through a fastener, and the fastening nature after the regulation is stable inadequately, and accommodation process is comparatively loose, and stability remains to be improved.

Disclosure of Invention

The embodiment of the application provides a new forms of energy photovoltaic electroplax strutting arrangement, has solved the unstable technical problem of photovoltaic electroplax angular adjustment among the prior art, has realized adjusting photovoltaic electroplax daylighting angle wantonly and has stabilized the effect of fastening.

The embodiment of the application provides a new forms of energy photovoltaic electroplax strutting arrangement, include the bottom plate and be located the photovoltaic electroplax of bottom plate top, the bottom plate with be provided with the support frame between the photovoltaic electroplax, the support frame sets up and vertical being fixed in including the symmetry stand, level on the bottom plate set up and are fixed in both sides spreader, cover between the stand are located swivel nut, vertical fixation on the spreader are in the support column of swivel nut outer peripheral face, the support column is kept away from the one end of swivel nut stretches to the top of swivel nut, the photovoltaic electroplax install in on the support column, the swivel nut with be provided with the drive between the bottom plate the rotatory actuating mechanism of swivel nut.

Furthermore, the driving mechanism comprises a first hinge frame, a threaded cylinder, a screw rod and a hinge plate, wherein the first hinge frame is positioned on one side of the transverse column and hinged on the bottom plate, the threaded cylinder is hinged to the first hinge frame and far away from one end of the bottom plate, the screw rod is in threaded connection with the threaded cylinder, the hinge plate is hinged between the first hinge frame and the outer peripheral surface of the rotary sleeve, a second hinge frame is installed on the outer peripheral surface of the rotary sleeve, one end, far away from the threaded cylinder, of the screw rod is hinged and rotatably arranged on the second hinge frame, and hinge axes among the first hinge frame, the hinge plate and the threaded cylinder are collinear and consistent with the axis direction of the rotary sleeve.

Furthermore, the hinged plate is a V-shaped plate, and the tip end of the hinged plate is hinged to the outer peripheral surface of the rotating sleeve.

Furthermore, hinge frame one sets up the hinge bar including the symmetry, two the one end of hinge bar articulate in on the bottom plate, the other end is located the opening end department of hinge plate, two the hinge bar is located be fixed with connecting sleeve between the tip of hinge plate one end, it is equipped with the dwang to insert in the connecting sleeve, the dwang rotate set up in between the tip at the both ends of hinge plate open end, a thread section of thick bamboo is fixed in on the outer peripheral face of connecting sleeve.

Furthermore, a support rib plate is fixed in the middle of the V-shaped connecting plate.

Furthermore, the hinged frame two includes the symmetry and set up and vertical fixation in three hornblocks one on the swivel mount outer peripheral face, rotate and set up in both sides the roating seat between the three hornblocks one, the axis of rotation of roating seat with the axis direction of swivel mount is unanimous, the screw rod is kept away from the one end of screw thread section of thick bamboo rotate set up in on the roating seat.

Further, still install hinge bracket three on the swivel sleeve outer peripheral face, hinge bracket three sets up and vertical fixation including the symmetry three hornblock two on the swivel sleeve outer peripheral face, rotates and sets up in both sides rotary rod between the three hornblock two, the pointed end of connecting plate is fixed in on the rotary rod is global, the hinge bracket tribit is in the below of hinge bracket two, three hornblock one in the hinge bracket two with contained angle between two of the three hornblocks in the hinge bracket three is the obtuse angle.

Furthermore, a supporting mechanism for supporting the supporting column is arranged on the other side of the cross column, the supporting mechanism comprises a third triangular block vertically fixed on the peripheral surface of the rotary sleeve, a first oscillating bar hinged to the end part of the third triangular block, a second oscillating bar hinged to the first oscillating bar and far away from the end part of one end of the third triangular block and between the bottom plate, a third oscillating bar hinged to a hinged shaft of the first oscillating bar and the second oscillating bar and extending upwards, a fourth oscillating bar hinged to the top end of the third oscillating bar, a fifth oscillating bar hinged to the top end of the fourth oscillating bar and between the top ends of the supporting columns, a sixth oscillating bar hinged to the middle part of the first oscillating bar and extending upwards, and a seventh oscillating bar hinged to the top ends of the six oscillating bars and between the middle parts of the four oscillating bars, and the supporting mechanism and the driving mechanism are respectively located on two sides of the supporting column.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

1. due to the fact that the driving mechanism is adopted, when the angle of the photovoltaic electric plate needs to be adjusted, an operator can rotate the screw rod, the screw rod stretches into or stretches out of the threaded cylinder, the screw rod can drive the rotating sleeve to rotate in the forward direction or the direction, and then angle adjustment of the photovoltaic electric plate can be achieved, so that the photovoltaic electric plate is guaranteed to be in a good daylighting angle, and daylighting efficiency of the photovoltaic electric plate is guaranteed.

2. The first hinge frame and the hinge plate can be used for supporting the screw rod and the rotating sleeve strongly, and the second hinge frame and the third hinge frame can support two points in the circumferential direction of the rotating sleeve, so that the supporting strength is further improved.

3. Due to the fact that the supporting mechanism is adopted, when a screw rod in the driving mechanism extends or shortens, and the rotating sleeve is driven to rotate, the supporting mechanism can change along with the change of the rotating sleeve, and the supporting mechanism and the driving mechanism are located on two sides of the supporting column respectively, so that the supporting mechanism can support the other side of the supporting column, and the stability of the photovoltaic panel is further improved.

Drawings

Fig. 1 is a schematic structural diagram of a photovoltaic panel supporting device according to an embodiment of the present application;

FIG. 2 is a schematic view of a part of the structure of FIG. 1, mainly illustrating the construction of a drive mechanism;

FIG. 3 is an enlarged view of portion A of FIG. 2, illustrating primarily the configuration of hinge bracket one;

FIG. 4 is a schematic view of a part of the structure of FIG. 1, mainly illustrating the construction of a third hinge bracket;

FIG. 5 is a schematic structural diagram of a connecting plate in an embodiment of the present application;

FIG. 6 is an enlarged view of portion B of FIG. 4, illustrating mainly the construction of the support mechanism;

in the figure: 1. a base plate; 2. a photovoltaic panel; 3. a support frame; 31. a column; 32. a cross post; 33. a rotating sleeve; 331. a second hinge frame; 3311. a first triangular block; 3312. a rotating base; 332. a third hinge frame; 3321. a second triangular block; 3322. rotating the rod; 34. a support pillar; 4. a drive mechanism; 41. a first hinge frame; 411. a hinged lever; 412. connecting a sleeve; 413. rotating the rod; 42. a threaded barrel; 43. a screw; 44. a hinge plate; 441. a support rib plate; 5. a support mechanism; 51. a third triangular block; 52. a first swing rod; 53. a second swing rod; 54. a swing rod III; 55. a swing rod IV; 56. a fifth swing rod; 57. a sixth swing rod; 58. a swing rod seventh; 400. and (7) rotating a handle.

Detailed Description

The embodiment of the application discloses new forms of energy photovoltaic electroplax strutting arrangement rotates screw rod 43 through operating personnel, and screw rod 43 can stretch into or stretch out threaded cylinder 42, can drive the forward or the direction rotation of swivel mount 33, and then can realize the angle modulation to photovoltaic electroplax 2 to guarantee that photovoltaic electroplax 2 is in a better daylighting angle, in order to guarantee photovoltaic electroplax 2's daylighting efficiency.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Referring to fig. 1, a new forms of energy photovoltaic electroplax strutting arrangement includes bottom plate 1, photovoltaic electroplax 2, support frame 3, actuating mechanism 4 and supporting mechanism 5. The bottom plate 1 is horizontally arranged, and the bottom plate 1 is used for being installed at an installed position; the photovoltaic panel 2 is positioned above the bottom plate 1; the support frame 3 is used for installing the photovoltaic panel 2.

Referring to fig. 1, the support frame 3 includes two upright columns 31, a cross column 32, a rotary sleeve 33 and a support column 34, the two upright columns 31 are symmetrically arranged and vertically fixed on the bottom plate 1, and the two upright columns 31 are respectively located at two sides of the middle of the central line of the bottom plate 1 in the length direction; the cross column 32 is fixed between the two upright columns 31, and the cross column 32 is close to the tops of the upright columns 31; the rotary sleeve 33 is sleeved on the cross column 32; the supporting column 34 is vertically fixed at the middle of the outer peripheral surface of the rotating sleeve 33, and the supporting column 34 is vertically upward. Photovoltaic panel 2 is mounted on the side walls of support columns 34, and in particular embodiments, photovoltaic panel 2 may be bolted to support columns 34.

Referring to fig. 2, 3 and 4, the driving mechanism 4 and the supporting mechanism 5 are respectively located on both sides of the supporting column 34 and on both sides of the cross-column 32. A second hinged frame 331 and a third hinged frame 332 are fixed on the outer peripheral surface of the rotating sleeve 33, and the second hinged frame 331 and the third hinged frame 332 are both positioned on the same side of the supporting column 34. The second hinge frame 331 comprises a first triangle block 3311 and a rotating base 3312, the first triangle block 3311 is provided with two blocks, and the two first triangle blocks 3311 are symmetrically arranged and vertically fixed on the outer peripheral surface of the rotating sleeve 33; the rotating base 3312 is rotatably disposed between the end portions of the two triangular blocks 3311 away from one end of the rotating sleeve 33, and the rotating axis of the rotating base 3312 is parallel to the axis of the rotating sleeve 33. The third hinge frame 332 is positioned on one side of the rotating sleeve 33, which is far away from the second hinge frame 331, the third hinge frame 332 comprises two triangular blocks 3321 and a rotating rod 3322, the two triangular blocks 3321 are symmetrically arranged, the two triangular blocks 3321 are both vertically fixed on the outer peripheral surface of the rotating sleeve 33, an obtuse angle is formed between the two triangular blocks 3321 and the first triangular block 3311, which can be 140 degrees in specific implementation, and the first triangular block 3311 is positioned above the second triangular block 3321; the rotating rod 3322 is rotatably disposed between the two end portions of the two triangular blocks 3321 far away from one end of the rotating sleeve 33, and the axis of the rotating rod 3322 is parallel to the axis of the rotating sleeve 33.

Referring to fig. 2, 3 and 4, the driving mechanism 4 includes a first hinge bracket 41, a screw cylinder 42, a screw 43 and a hinge plate 44. The first hinge frame 41 comprises hinge rods 411, connecting sleeves 412 and rotating rods 413, the hinge rods 411 are symmetrically arranged, one ends of the hinge rods 411 are hinged to the bottom plate 1, the hinge points of the hinge rods 411 and the bottom plate 1 are far away from the cross column 32, and the connecting sleeves 412 are fixed between the end parts of the two hinge rods 411 at one end of the hinge plate 44; the rotating rod 413 is inserted into the connecting sleeve 412, and the axis of the rotating rod 413 and the axis of the rotating sleeve 33 are parallel to each other.

With continued reference to fig. 2, 3, 4 and 5, the axis of the threaded cylinder 42 is perpendicular to the rotating rod 413, and one end of the threaded cylinder 42 is fixed on the outer peripheral surface of the connecting sleeve 412 in the first hinge bracket 41; one end of the screw 43 is connected to the screw cylinder 42 in a threaded manner, the other end is rotatably arranged on the rotating base 3312 of the second hinge frame 331, the screw 43 is coaxially connected with a rotating handle 400, and the rotating handle 400 is used for facilitating the rotation of the screw 43; the hinge plate 44 is in a V shape, the tip end of the hinge plate 44 is fixed to the rotating rod 3322 of the hinge bracket 332, and the support rib 441 is fixed to the middle of the V-shaped hinge plate 44, so that the stability of the hinge plate 44 can be increased by the support rib 441.

When the angle of photovoltaic electroplax 2 needs to be adjusted, operating personnel can rotate screw rod 43, and screw rod 43 stretches into or stretches out threaded cylinder 42, can drive the forward or the direction rotation of swivel sleeve 33, and then can realize the angle modulation to photovoltaic electroplax 2 to guarantee that photovoltaic electroplax 2 is in a better daylighting angle, in order to guarantee photovoltaic electroplax 2's daylighting efficiency. The first hinge frame 41 and the hinge plate 44 can strongly support the screw 43 and the rotary sleeve 33, and the second hinge frame 331 and the third hinge frame 332 can support two points in the circumferential direction of the rotary sleeve 33, so that the support strength is further improved.

Referring to fig. 4 and 6, the supporting mechanism 5 includes a triangular block three 51, a swing link one 52, a swing link two 53, a swing link three 54, a swing link four 55, a swing link five 56, a swing link six 57 and a swing link seven 58. The third triangular block 51 is vertically fixed on the outer peripheral surface of the rotary sleeve 33, and the third triangular block 51 is positioned on one side of the supporting column 34 far away from the second triangular block 3321; one end of the first swing rod 52 is hinged to the end part of the third triangular block 51 far away from one end of the rotary sleeve 33, and the rotating shaft of the first swing rod 52 is parallel to the axis of the rotary sleeve 33; the second swing rod 53 is hinged between the end part of one end of the first swing rod 52 far away from the third triangular block 51 and the bottom plate 1; one end of the swing rod III 54 is hinged on a hinged shaft between the swing rod I52 and the swing rod II 53, and the other end of the swing rod III extends upwards; the fourth swing rod 55 is hinged to the top end of the third swing rod 54; the swing rod five 56 is hinged between the top end of the swing rod four 55 and the side wall of the support pillar 34; one end of the swing rod six 57 is hinged to the middle part of the swing rod one 52, and the other end of the swing rod six extends upwards; the swing rod seven 58 is hinged between the top end of the swing rod six 57 and the middle part of the swing rod four 55. When the screw 43 in the driving mechanism 4 extends or shortens, and drives the rotating sleeve 33 to rotate, the supporting mechanism 5 can change along with the change of the rotating sleeve 33, and because the supporting mechanism 5 and the driving mechanism 4 are respectively located at two sides of the supporting column 34, the supporting mechanism 5 can support the other side of the supporting column 34, and the stability of the photovoltaic panel 2 is further improved.

The functional principle of the present application can be illustrated by the following operation modes:

when the angle of photovoltaic electroplax 2 needs to be adjusted, operating personnel can rotate screw rod 43, screw rod 43 stretches into or stretches out threaded cylinder 42, can drive the forward or the direction rotation of swivel sleeve 33, and then can realize the angle modulation to photovoltaic electroplax 2, be in a better daylighting angle with guaranteeing that photovoltaic electroplax 2 is, in order to guarantee photovoltaic electroplax 2's daylighting efficiency, and at the in-process of adjustment photovoltaic electroplax 2, actuating mechanism 4 and supporting mechanism 5 can realize effectively supporting support column 34 and swivel sleeve 33, the steadiness of photovoltaic electroplax 2 has been improved.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution and its concept of the present application within the technical scope disclosed in the present application, and shall be covered by the scope of the present application.

Claims (8)

1. A new energy photovoltaic panel supporting device comprises a bottom plate (1) and a photovoltaic panel (2) positioned above the bottom plate (1), it is characterized in that a supporting frame (3) is arranged between the bottom plate (1) and the photovoltaic panel (2), the supporting frame (3) comprises upright posts (31) which are symmetrically arranged and vertically fixed on the bottom plate (1), a transverse post (32) which is horizontally arranged and fixed between the upright posts (31) at two sides, a rotating sleeve (33) sleeved on the transverse post (32), and a supporting post (34) which is vertically fixed on the peripheral surface of the rotating sleeve (33), one end of the supporting column (34) far away from the rotating sleeve (33) extends to the upper part of the rotating sleeve (33), photovoltaic electroplax (2) install in on support column (34), swivel sleeve (33) with be provided with between bottom plate (1) and drive swivel sleeve (33) rotatory actuating mechanism (4).

2. The new energy photovoltaic panel support apparatus of claim 1, the driving mechanism (4) comprises a first hinge frame (41) which is positioned on one side of the transverse column (32) and is hinged on the bottom plate (1), a threaded cylinder (42) which is hinged on one end of the first hinge frame (41) far away from the bottom plate (1), a screw rod (43) which is in threaded connection with the threaded cylinder (42), and a hinge plate (44) which is hinged between the first hinge frame (41) and the outer peripheral surface of the rotating sleeve (33), a second hinge frame (331) is installed on the outer peripheral surface of the rotary sleeve (33), one end of the screw rod (43) far away from the threaded cylinder (42) is hinged and rotatably arranged on the second hinge frame (331), the hinge axes among the first hinge frame (41), the hinge plates (44) and the threaded cylinders (42) are collinear and are consistent with the axial direction of the rotating sleeve (33).

3. The new energy photovoltaic panel support device according to claim 2, wherein the hinged plate (44) is a V-shaped plate, and the tip of the hinged plate (44) is hinged on the outer circumferential surface of the rotating sleeve (33).

4. The new energy photovoltaic panel supporting device as claimed in claim 3, wherein the first hinge frame (41) comprises symmetrically arranged hinge rods (411), one end of each of the two hinge rods (411) is hinged to the bottom plate (1), the other end of each of the two hinge rods (411) is located at the opening end of the hinge plate (44), a connecting sleeve (412) is fixed between the end portions of one end of the hinge plate (44), a rotating rod (413) is inserted into the connecting sleeve (412), the rotating rod (413) is rotatably arranged between the end portions of the two ends of the opening end of the hinge plate (44), and the threaded cylinder (42) is fixed on the outer peripheral surface of the connecting sleeve (412).

5. The new energy photovoltaic panel support device according to claim 3, wherein a support rib plate (441) is fixed to the middle of the V-shaped hinge plate (44).

6. The new energy photovoltaic panel supporting device as claimed in claim 2, wherein the second hinged frame (331) comprises first triangular blocks (3311) symmetrically disposed and vertically fixed on the outer peripheral surface of the rotating sleeve (33), and a rotating base (3312) rotatably disposed between the first triangular blocks (3311) at two sides, the rotating axis of the rotating base (3312) is aligned with the axis of the rotating sleeve (33), and one end of the screw rod (43) away from the threaded cylinder (42) is rotatably disposed on the rotating base (3312).

7. The new energy photovoltaic panel supporting device as claimed in claim 6, wherein a third hinge frame (332) is further installed on the outer circumferential surface of the rotating sleeve (33), the third hinge frame (332) comprises two triangular blocks (3321) symmetrically arranged and vertically fixed on the outer circumferential surface of the rotating sleeve (33), and a rotating rod (3322) rotatably arranged between the two triangular blocks (3321) at two sides, the tip of the hinge plate (44) is fixed on the circumferential surface of the rotating rod (3322), the third hinge frame (332) is located below the second hinge frame (331), and an included angle between the first triangular block (3311) in the second hinge frame (331) and the second triangular block (3321) in the third hinge frame (332) is an obtuse angle.

8. The new energy photovoltaic electroplate supporting device according to claim 2, wherein a supporting mechanism (5) for supporting the supporting column (34) is arranged on the other side of the cross column (32), the supporting mechanism (5) comprises a triangular block III (51) vertically fixed on the outer peripheral surface of the rotating sleeve (33), a swing rod I (52) hinged to the end portion of the triangular block III (51), a swing rod II (53) hinged between the end portion of the swing rod I (52) far away from one end of the triangular block III (51) and the bottom plate (1), a swing rod III (54) hinged to a hinged shaft of the swing rod I (52) and the swing rod II (53) and extending upwards, a swing rod IV (55) hinged to the top end of the swing rod III (54), and a swing rod V (56) hinged between the top end of the swing rod IV (55) and the supporting column (34), The support mechanism comprises a first swing rod (52), a second swing rod (57) hinged to the middle of the first swing rod (52) and extending upwards, and a third swing rod (58) hinged between the top end of the first swing rod (57) and the middle of the fourth swing rod (55), and the support mechanism (5) and the driving mechanism (4) are respectively located on two sides of the support pillar (34).

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