CN217903775U - Girder steel that photovoltaic case becomes all-in-one basis and uses - Google Patents

Abstract

The utility model discloses a girder steel that photovoltaic case becomes all-in-one basis and uses belongs to photovoltaic case and becomes integrative technical field, including first steel roof beam structure, the inside of first steel roof beam structure is provided with rather than sliding fit's movable rod, the other end fixedly connected with second steel roof beam structure of movable rod, first steel roof beam structure is provided with photovoltaic case and becomes all-in-one body with the top of second steel roof beam structure, the fixed mount that is provided with of outer wall of first steel roof beam structure, the inside of mount is provided with rather than sliding fit's locating lever, the one end of locating lever runs through the outer wall of first steel roof beam structure, the inside equidistant seted up of movable rod with locating lever sliding fit's locating hole, the beneficial effects of the utility model are that the locating lever card through slidable reset goes into the locating hole that the movable rod inside corresponds, and then fixes a position gliding movable rod to make this girder steel can carry out length adjustment according to the size of photovoltaic case becomes all-in-one body.

Description

Girder steel that photovoltaic case becomes all-in-one basis and uses

Technical Field

The utility model relates to a photovoltaic case becomes all-in-one technical field, specifically is a girder steel that photovoltaic case becomes all-in-one basis and uses.

Background

Photovoltaic power generation develops relatively rapidly in recent years, along with the continuous improvement of technique, and the product is also continuous perfect, and the very high photovoltaic case that the present rate of utilization appears becomes observes and controls all-in-one, also sometimes called trinity case becomes to observe and control, when carrying out the installation of photovoltaic case change all-in-one and using, usually can install the girder steel and support on the basis of photovoltaic case change all-in-one bottom sprag seat.

The girder steel that current photovoltaic case becomes all-in-one basis used welds in the bottom that photovoltaic case becomes the all-in-one usually and fixes, and then inconvenient dismantles the installation to the girder steel, and becomes the all-in-one when outdoor use when the photovoltaic case, needs to add in addition on the photovoltaic case becomes the all-in-one and establishes the sunshade and carry out the rainwater protection, then need to add the sunshade of establishing during the removal and dismantle, and the operation is got up more troublesome.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a girder steel that photovoltaic case becomes all-in-one basis used to solve the problem that proposes in the above-mentioned background art.

The technical scheme of the utility model is that: the utility model provides a girder steel that photovoltaic case becomes all-in-one basis and uses, includes first steel roof beam structure, the inside of first steel roof beam structure is provided with rather than sliding fit's movable rod, the other end fixedly connected with second steel roof beam structure of movable rod, the top of first steel roof beam structure and second steel roof beam structure is provided with photovoltaic case and becomes all-in-one body, the fixed mount that is provided with of outer wall of first steel roof beam structure, the inside of mount is provided with rather than sliding fit's locating lever, the one end of locating lever runs through the outer wall of first steel roof beam structure, the inside of movable rod equidistant seted up with locating lever sliding fit's locating hole, the outer wall of locating lever is fixed and is provided with the briquetting, just the outer wall of locating lever is located one side cover of briquetting is equipped with No. one spring, the top of first steel roof beam structure and second steel roof beam structure all is provided with the block subassembly, just the outer wall of first steel roof beam structure and second steel roof beam structure is provided with and shelters from the subassembly.

Further, the block subassembly is including the fixed setting of symmetry two fixed plates of photovoltaic case transformer substation all-in-one body outer wall, the top of first steel roof beam structure and second steel roof beam structure is fixed respectively be provided with two fixed plate sliding fit's fixture block, the spout has been seted up to the inside of fixture block, the inner wall fixedly connected with No. two springs of spout, the other end fixedly connected with of No. two springs with spout sliding fit's slider, the one end of slider fixed be provided with fixture block sliding fit's pull rod.

Further, the sliding block is arranged in a trapezoidal block structure.

Further, shelter from the subassembly including with first girder steel frame rotates the first sunshade of connecting, the outer wall of second girder steel frame rotates and is connected with the second sunshade, the top of first sunshade and second sunshade is provided with connection structure.

Furthermore, connection structure is including fixed setting the card strip on first sunshade top, the fixed cassette that is provided with in top of second sunshade, the outer wall of cassette rotates and is connected with one-way lead screw, the outer wall of one-way lead screw is provided with rather than threaded connection's movable plate, the outer wall symmetry of movable plate is provided with two connecting rods, the inside symmetry of first sunshade is provided with rather than two card posts of sliding fit, the inside of card strip seted up with two card post sliding fit's draw-in groove, two the one end of card post is provided with guide structure.

Furthermore, the guide structure comprises two connecting plates fixedly connected with one ends of the clamping columns, two guide grooves are symmetrically and obliquely formed in the connecting plates, and two guide columns in sliding fit with the two guide grooves are respectively arranged in the connecting rods.

The utility model discloses an improve and provide a girder steel that photovoltaic case becomes all-in-one basis used here, compare with prior art, have following improvement and advantage:

firstly, the positioning rod which can be reset in a sliding way is clamped into the corresponding positioning hole in the movable rod, and then the sliding movable rod is positioned, so that the steel beam can be adjusted in length according to the size of the photovoltaic box transformer substation integrated machine body;

secondly, the photovoltaic box-transformer substation integrated machine and the steel beam are disassembled and assembled through the clamping assembly, so that the problem that the steel beam is welded at the bottom end of the photovoltaic box-transformer substation integrated machine body and is inconvenient to disassemble and assemble is solved, and the photovoltaic box-transformer substation integrated machine body and the steel beam are convenient to disassemble and assemble;

third, the utility model discloses a connection structure is connected and is dismantled first sunshade and second sunshade, has solved to add in addition and has established the sunshade and carry out the rainwater protection, operates more troublesome problem, has reached the convenience and has opened first sunshade and second sunshade and close the effect that shelters from rain protection to photovoltaic case becomes all-in-one body.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic perspective view of a first steel beam frame and a second steel beam frame of the present invention;

FIG. 3 is a schematic top sectional view of a first steel beam frame according to the present invention;

FIG. 4 is an enlarged view of the section A of FIG. 1 according to the present invention;

FIG. 5 is a schematic perspective view of the fixture block of the present invention;

fig. 6 is a schematic top view of the first shield and the second shield according to the present invention.

Description of the reference numerals:

1. a first steel beam frame; 2. a movable rod; 3. a second steel beam frame; 4. the photovoltaic box transformer substation all-in-one machine body; 5. a fixed mount; 6. positioning a rod; 7. positioning holes; 8. briquetting; 9. a first spring; 10. a fixing plate; 11. a clamping block; 12. a chute; 13. a second spring; 14. a slider; 15. a pull rod; 16. a first shield plate; 17. a second shield plate; 18. clamping the strip; 19. a card holder; 20. a one-way screw rod; 21. moving the plate; 22. a connecting rod; 23. clamping the column; 24. a card slot; 25. a connecting plate; 26. a guide groove; 27. and a guide post.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a steel beam used as a basis of a photovoltaic box-type substation integrated machine through improvement, as shown in figures 1-6, the steel beam comprises a first steel beam frame 1, a movable rod 2 which is in sliding fit with the first steel beam frame 1 is arranged in the first steel beam frame 1, the other end of the movable rod 2 is fixedly connected with a second steel beam frame 3, the top ends of the first steel beam frame 1 and the second steel beam frame 3 are provided with a photovoltaic box-type substation integrated machine body 4, the outer wall of the first steel beam frame 1 is fixedly provided with a fixing frame 5, the fixing frame 5 is internally provided with a positioning rod 6 which is in sliding fit with the fixing frame 5, one end of the positioning rod 6 penetrates through the outer wall of the first steel beam frame 1, positioning holes 7 which are in sliding fit with the positioning rod 6 are equidistantly arranged in the movable rod 2, the outer wall of the positioning rod 6 is fixedly provided with a pressing block 8, and one side of the outer wall of the positioning rod 6, which is positioned on the pressing block 8, is sleeved with a spring 9, the top ends of the first steel beam frame 1 and the second steel beam frame 3 are both provided with a clamping component, the outer walls of the first steel beam frame 1 and the second steel beam frame 3 are provided with a shielding component, when the size of the photovoltaic box-transformer all-in-one machine body 4 is different, before the photovoltaic box-transformer all-in-one machine body 4 is installed, the positioning rod 6 is pulled, the positioning rod 6 slides in the fixing frame 5, the positioning rod 6 drives the pressing block 8 to extrude the first spring 9, one end of the positioning rod 6 is moved out of the positioning hole 7 in the movable rod 2, the second steel beam frame 3 is moved at the moment, the second steel beam frame 3 drives the movable rod 2 to slide in the first steel beam frame 1, after the distance between the first steel beam frame 1 and the second steel beam frame 3 is adjusted, the positioning rod 6 is loosened, the first spring 9 is restored to deform to push the pressing block 8 to reset, the pressing block 8 drives the positioning rod 6 to move in the corresponding positioning hole 7 in the movable rod 2, and further positions the movable rod 2, thereby adjust the interval of first steel roof beam structure 1 and second steel roof beam structure 3 according to the size of dimensions of photovoltaic case becomes all-in-one body 4 and install the support.

The clamping assembly comprises two fixing plates 10 which are symmetrically and fixedly arranged on the outer wall of the photovoltaic box-transformer integrated machine body 4, a clamping block 11 which is in sliding fit with the two fixing plates 10 is fixedly arranged at the top ends of a first steel beam frame 1 and a second steel beam frame 3 respectively, a sliding groove 12 is formed in the clamping block 11, a second spring 13 is fixedly connected to the inner wall of the sliding groove 12, a sliding block 14 which is in sliding fit with the sliding groove 12 is fixedly connected to the other end of the second spring 13, a pull rod 15 which is in sliding fit with the clamping block 11 is fixedly arranged at one end of the sliding block 14, the inner wall of the fixing plate 10 extrudes the inclined surface of the sliding block 14, the sliding block 14 slides towards the inner side of the sliding groove 12, the sliding block 14 extrudes the second spring 13, the sliding block 14 pushes the pull rod 15 to slide in the clamping block 11, when the fixing plates 10 move to the lower side of the sliding block 14, the second spring 13 recovers to deform to push the sliding block 14 to slide in the sliding groove 12 to reset, the end portion of the sliding block 14 is clamped at the top end of the fixing plate 10, and the photovoltaic box-transformer integrated machine body 4 can be placed at the top ends of the first steel beam frame 1 and the second steel beam frame 3.

The slider 14 is configured as a trapezoidal block structure to facilitate the sliding of the inclined surface of the slider 14 within the sliding slot 12 when the slider is pressed.

The shielding component comprises a first shielding plate 16 which is rotationally connected with the first steel beam frame 1, the outer wall of the second steel beam frame 3 is rotationally connected with a second shielding plate 17, the top ends of the first shielding plate 16 and the second shielding plate 17 are provided with connecting structures, and the first shielding plate 16 and the second shielding plate 17 can be conveniently rotated to be opened or closed through the connecting component.

The connecting structure comprises a clamping strip 18 fixedly arranged on the top end of a first shielding plate 16, a clamping seat 19 is fixedly arranged on the top end of a second shielding plate 17, the outer wall of the clamping seat 19 is rotatably connected with a one-way lead screw 20, the outer wall of the one-way lead screw 20 is provided with a moving plate 21 in threaded connection with the one-way lead screw, two connecting rods 22 are symmetrically arranged on the outer wall of the moving plate 21, two clamping columns 23 in sliding fit with the first shielding plate 16 are symmetrically arranged inside the first shielding plate 16, clamping grooves 24 in sliding fit with the two clamping columns 23 are formed inside the clamping strip 18, one ends of the two clamping columns 23 are provided with a guide structure, the one-way lead screw 20 is rotated, the one-way lead screw 20 drives the moving plate 21 to move transversely, the moving plate 21 drives the two connecting rods 22 to move transversely, the two clamping columns 23 are driven to move oppositely to be clamped into or moved out of the clamping grooves 24 in the clamping strip 18, and the clamping seat 19 are conveniently disassembled and spliced.

The guide structure comprises two connecting plates 25 fixedly connected with one ends of the two clamping columns 23, two guide grooves 26 are symmetrically and obliquely formed in the two connecting plates 25, guide columns 27 in sliding fit with the two guide grooves 26 are respectively arranged in the two connecting rods 22, and the two connecting plates 25 can move in opposite directions when the two guide columns 27 slide in the guide grooves 26 in the two connecting plates 25.

The working principle is as follows: firstly, a photovoltaic box-transformer substation integrated machine body 4 is placed at the top ends of a first steel beam frame 1 and a second steel beam frame 3, a fixing plate 10 on the outer wall of the photovoltaic box-transformer substation integrated machine body 4 is clamped on the outer wall of a clamping block 11 in a sliding mode, at the moment, the inner wall of the fixing plate 10 extrudes an inclined surface of a sliding block 14, the sliding block 14 slides towards the inner side of a sliding groove 12, the sliding block 14 extrudes a second spring 13, the sliding block 14 pushes a pull rod 15 to slide in the clamping block 11, when the fixing plate 10 moves to the position below the sliding block 14, the second spring 13 recovers deformation to push the sliding block 14 to slide and reset in the sliding groove 12, the end portion of the sliding block 14 is clamped at the top end of the fixing plate 10, the photovoltaic box-transformer substation integrated machine body 4 is placed at the top ends of the first steel beam frame 1 and the second steel beam frame 3, otherwise, the photovoltaic box-transformer substation integrated machine body 4 can be detached from the first steel beam frame 1 and the second steel beam frame 3 by pulling the pull rod 15, and therefore the photovoltaic box-transformer substation integrated machine body 4 can be detached from the steel beam frame 3 conveniently during installation;

then, when the size of the photovoltaic box transformer substation integrated machine body 4 is different, before the photovoltaic box transformer substation integrated machine body 4 is installed, the positioning rod 6 is pulled, the positioning rod 6 slides in the fixing frame 5, the positioning rod 6 drives the pressing block 8 to extrude the first spring 9, one end of the positioning rod 6 is moved out of the positioning hole 7 in the movable rod 2, at the moment, the second steel beam frame 3 is moved, the second steel beam frame 3 drives the movable rod 2 to slide in the first steel beam frame 1, after the distance between the first steel beam frame 1 and the second steel beam frame 3 is adjusted, the positioning rod 6 is released, the first spring 9 recovers deformation to push the pressing block 8 to reset, the pressing block 8 drives the positioning rod 6 to be clamped into the corresponding positioning hole 7 in the movable rod 2, the movable rod 2 is positioned, and therefore the distance between the first steel beam frame 1 and the second steel beam frame 3 is adjusted according to the size of the photovoltaic box transformer substation integrated machine body 4 for installation and support;

finally, when the photovoltaic box-transformer integrated machine body 4 is used outdoors, the one-way screw rod 20 is rotated, the one-way screw rod 20 drives the moving plate 21 to move transversely, the moving plate 21 drives the two connecting rods 22 to move transversely, the two connecting rods 22 drive the inner guide posts 27 to slide in the guide grooves 26 in the two connecting plates 25, the two guide grooves 26 are symmetrically and obliquely arranged in the two connecting plates 25, the two connecting plates 25 drive the two clamping posts 23 to move in the clamping seats 19 in the opposite directions, the first shielding plate 16 and the second shielding plate 17 are rotated to be closed, so that the clamping strips 18 on the top end of the first shielding plate 16 are clamped in the clamping seats 19 on the top end of the second shielding plate 17, the two clamping posts 23 are close to each other and clamped in the clamping grooves 24 in the clamping strips 18, the first shielding plate 16 and the second shielding plate 17 are connected and closed, rain shielding protection is convenient for the photovoltaic box-transformer integrated machine body 4, otherwise, the first shielding plate 16 and the second shielding plate 17 can be rotated to be opened, and operation of workers is convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a girder steel that photovoltaic case becomes all-in-one basis and uses which characterized in that: including first steel roof beam structure (1), the inside of first steel roof beam structure (1) is provided with rather than sliding fit's movable rod (2), the other end fixedly connected with second steel roof beam structure (3) of movable rod (2), first steel roof beam structure (1) is provided with photovoltaic case transformer substation body (4) with the top of second steel roof beam structure (3), the outer wall of first steel roof beam structure (1) is fixed and is provided with mount (5), the inside of mount (5) is provided with rather than sliding fit's locating lever (6), the one end of locating lever (6) is run through the outer wall of first steel roof beam structure (1), the inside equidistant of movable rod (2) seted up with locating lever (6) sliding fit's locating hole (7), the outer wall of locating lever (6) is fixed and is provided with briquetting (8), just the outer wall of locating lever (6) is located one side cover of briquetting (8) is equipped with No. one number spring (9), first steel roof beam structure (1) all is provided with the block subassembly with the top of second steel roof beam structure (3), just first steel roof beam structure (1) is provided with the outer wall subassembly that shelters from.

2. The steel beam used for the foundation of the photovoltaic box-type transformer substation integrated machine as claimed in claim 1, is characterized in that: the clamping component comprises two fixing plates (10) which are symmetrically and fixedly arranged on the outer wall of the photovoltaic box transformer substation integrated machine body (4), a first steel beam frame (1) and a second steel beam frame (3) are fixedly provided with and two clamping blocks (11) which are in sliding fit with the fixing plates (10), a sliding groove (12) is formed in the clamping block (11), a second spring (13) is fixedly connected to the inner wall of the sliding groove (12), the other end of the second spring (13) is fixedly connected with a sliding block (14) which is in sliding fit with the sliding groove (12), and a pull rod (15) which is in sliding fit with the clamping block (11) is fixedly arranged at one end of the sliding block (14).

3. The steel beam used for the foundation of the photovoltaic box-transformer substation integrated machine according to claim 2 is characterized in that: the sliding block (14) is arranged into a trapezoidal block structure.

4. The steel beam used for the foundation of the photovoltaic box-transformer substation integrated machine according to claim 1 is characterized in that: the shielding assembly comprises a first shielding plate (16) rotatably connected with the first steel beam frame (1), the outer wall of the second steel beam frame (3) is rotatably connected with a second shielding plate (17), and a connecting structure is arranged on the top ends of the first shielding plate (16) and the second shielding plate (17).

5. The steel beam used for the foundation of the photovoltaic box-transformer substation integrated machine according to claim 4 is characterized in that: the connecting structure comprises a clamping strip (18) fixedly arranged at the top end of a first shielding plate (16), a clamping seat (19) is fixedly arranged at the top end of a second shielding plate (17), an outer wall of the clamping seat (19) is rotatably connected with a one-way lead screw (20), the outer wall of the one-way lead screw (20) is provided with a movable plate (21) in threaded connection with the movable plate, the outer wall of the movable plate (21) is symmetrically provided with two connecting rods (22), the inner part of the first shielding plate (16) is symmetrically provided with two clamping columns (23) in sliding fit with the first shielding plate, clamping grooves (24) in sliding fit with the clamping columns (23) are formed in the clamping strip (18), and a guide structure is arranged at one end of each clamping column (23).

6. The steel beam used for the foundation of the photovoltaic box-transformer substation integrated machine according to claim 5 is characterized in that: the guide structure comprises two connecting plates (25) fixedly connected with one ends of the two clamping columns (23), two guide grooves (26) are symmetrically and obliquely formed in the connecting plates (25), and two guide columns (27) which are in sliding fit with the two guide grooves (26) are respectively arranged in the connecting rods (22).

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