CN219638984U

CN219638984U - Mounting bracket structural member in wind power generation bin

Info

Publication number: CN219638984U
Application number: CN202321216605.5U
Authority: CN
Inventors: 孙本静; 闫淑辉; 倪淑娴; 计珍铁
Original assignee: Wuxi Weike Electromechanical Manufacturing Co ltd
Current assignee: Wuxi Weike Electromechanical Manufacturing Co ltd
Priority date: 2023-05-19
Filing date: 2023-05-19
Publication date: 2023-09-05
Anticipated expiration: 2033-05-19

Abstract

The utility model discloses a mounting bracket structural member in a wind power generation bin, which comprises a splicing frame plate and splicing strips, wherein the splicing positions of a plurality of splicing frame plates are fixed together through the splicing strips to form an extensible supporting frame, and the splicing strips can be arranged transversely and vertically in a staggered manner; the edge of the supporting plate frame is fixed through the side plates to form a groove-shaped bracket, a through hole is formed in the end part of the groove-shaped bracket, and an outer protruding part can be outwards arranged in the middle of the groove-shaped bracket. The utility model provides a mounting bracket structural member in a wind power generation bin, which is used for mounting parts through a groove-shaped bracket formed by splicing, and simultaneously, a through hole and an outer flange on the groove-shaped bracket can well limit the mounted parts, so that the limiting and stabilizing effects are achieved.

Description

Mounting bracket structural member in wind power generation bin

Technical Field

The utility model relates to the field of mounting brackets in wind power generation bins.

Background

The wind power generation bin is internally provided with a plurality of parts to be installed, and the parts are usually stabilized by using an installed bracket; however, after the existing mounting bracket is used for mounting a plurality of parts, the parts are not stable enough, and the movement phenomenon of the parts is easy to occur, so that the normal operation of the wind power generation bin can be influenced; therefore, it is necessary to improve the existing brackets for mounting so as to better stabilize the mounted components.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides the mounting bracket structural member in the wind power generation bin, the groove-shaped bracket formed by splicing is used for mounting parts, and meanwhile, the through hole and the outer flange on the groove-shaped bracket can well limit the mounted parts, so that the limiting and stabilizing effects are realized.

The technical scheme is as follows: in order to achieve the above purpose, the technical scheme of the utility model is as follows:

the mounting bracket structural member in the wind power generation bin comprises a splicing frame plate and splicing strips, wherein the splicing positions of the splicing frame plates are fixed together through the splicing strips to form an extensible supporting frame, and the splicing strips can be arranged transversely and vertically in a staggered manner; the edge of the supporting plate frame is fixed through the side plates to form a groove-shaped bracket, a through hole is formed in the end part of the groove-shaped bracket, and an outer protruding part can be outwards arranged in the middle of the groove-shaped bracket.

Furthermore, the bottom of the splicing position of the splicing frame plate is fixedly provided with a bottom edge plate, the side wall of the bottom edge plate is perpendicular to the surface of the splicing frame plate, a plurality of groove-shaped supports are supported by the bottom edge plate, and the bottom surfaces of the groove-shaped supports are arranged at intervals with the mounting surfaces.

Furthermore, the end part of the groove-shaped support is fixedly provided with a shielding plate, and the shielding plate is fixedly spliced with side plates on two sides of the groove-shaped support.

Further, the through hole is formed in the joint of one side plate of the groove-shaped support and the shielding plate, the splice plate is provided with a connection notch, and the connection notch is communicated with the through hole.

Further, fixed plate has been set firmly at shielding plate one end top, the fixed plate is close to the opening setting, the fixed plate extends the setting in the direction of opening dorsad, has run through the fixed orifices on the fixed plate.

Further, an outer panel is arranged in the middle of the side edge of the splice plate in an outward protruding mode, the side plates are arranged along the edges of the outer panel in an adaptation mode to form outer protruding portions, and a plurality of ventilation grooves are formed in the side plates in a penetrating mode; connecting pieces are fixedly arranged at two ends of the side plate and are arranged back to the inside of the groove-shaped support, and a plurality of adjacent connecting pieces on the side plate are arranged in a fitting mode.

Further, a turning plate is fixedly connected to the side wall of one end of the groove-shaped support, and the turning plate is fixed to the other end of the groove-shaped support opposite to the through hole; bottom edge plates are fixedly arranged at the bottoms of the two sides of the turning plate; and a lug is fixedly arranged on one end edge of the turning plate and is perpendicular to the surface of the turning plate.

The beneficial effects are that: according to the utility model, the spliced plate frame and the spliced strips are spliced to form the supporting plate frame, the supporting plate frame and the side plates are spliced to form the groove-shaped bracket, and the groove-shaped bracket is provided with the through hole and the outer protruding part, so that when the parts are mounted on the groove-shaped bracket, the mounted parts can be effectively limited; the through openings can be convenient for the matching installation of the installed parts, and the parts installed in the outer flange part can play a good role in stabilizing; the parts are correspondingly matched at the through hole and the outer convex part, so that the limiting and stabilizing effects can be further enhanced.

Drawings

FIG. 1 is a block diagram of a mounting bracket;

FIG. 2 is a side plate block diagram;

fig. 3 is a structural view of the turning plate.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1-3: the mounting bracket structural member in the wind power generation bin comprises a splicing frame plate 1 and splicing strips 2, wherein the splicing positions of the splicing frame plates 1 are fixed together through the splicing strips 2 to form an extensible supporting frame plate 3, and the splicing strips 2 can be arranged in a staggered mode in a horizontal-vertical mode; the edge position of the supporting plate frame 3 is fixed through the side plate 4 to form a groove-shaped bracket 5, a through hole 51 is formed in the end part of the groove-shaped bracket 5, and an outer protruding part 6 can be outwards arranged in the middle of the groove-shaped bracket 5. The splicing plate frame and the splicing strips are spliced to form a supporting plate frame, the supporting plate frame and the side plates are spliced to form a groove-shaped bracket, and a through hole and an outer protruding part are formed in the groove-shaped bracket, so that when parts are mounted on the groove-shaped bracket, the mounted parts can be effectively limited; the through openings can be convenient for the matching installation of the installed parts, and the parts installed in the outer flange part can play a good role in stabilizing; the parts are correspondingly matched at the through hole and the outer convex part, so that the limiting and limiting effects can be further enhanced.

The bottom of the splicing position of the splicing frame plate 1 is fixedly provided with a bottom edge plate 11, the side wall of the bottom edge plate 11 is perpendicular to the surface of the splicing frame plate 1, a plurality of bottom edge plates 11 are used for supporting the grooved support 5, and the bottom surface of the grooved support 5 is arranged at intervals with the mounting surface; the groove-shaped support is supported by the bottom edge plate and can be separated from the bottom plate, so that parts in the groove-shaped support are prevented from being directly damaged when the bottom plate is collided, and the effect of preventing direct collision is achieved.

The end part of the groove-shaped support 5 is fixedly provided with a shielding plate 52, and the shielding plate 52 is fixedly spliced with the side plates 4 on two sides of the groove-shaped support 5. The through hole 51 is formed at the joint of the side plate 4 and the shielding plate 52 at one side of the groove-shaped bracket 5, the splice plate 1 is provided with a connection notch 12, and the connection notch 12 is communicated with the through hole 51. The shielding plate is spliced with the side plates, parts penetrate through the through holes formed between the shielding plate and the side plates to be mounted, the clamping and limiting effects can be achieved, the parts can be conveniently mounted in a matched mode, and meanwhile the parts are well limited. The top of one end of the shielding plate 52 is fixedly provided with a fixing plate 53, the fixing plate 53 is arranged close to the through hole 51, the fixing plate 53 extends back to the direction of the through hole 51, and a fixing hole is formed in the fixing plate 53 in a penetrating mode. The slot-shaped support is installed in the wind power generation bin through the fixing plate, plays a role in fixing the slot-shaped support, prevents easy movement between slots, causes movement of installed parts and components, and enhances the stabilizing effect.

An outer expansion plate 13 is arranged in the middle of the side edge of the splice plate 1 in an outward protruding mode, the side plate 4 is arranged along the edge of the outer expansion plate 13 in an adaptation mode to form an outer expansion part 6, and a plurality of ventilation grooves 41 are formed in the side plate 4 in a penetrating mode; the two ends of the side plate 4 are fixedly provided with connecting pieces 42, the connecting pieces 42 are arranged back to the inside of the groove-shaped support 5, the outer display plate is spliced with the adapted side plate to form an outer convex part, the inside of the outer convex part is communicated with the inside of the groove-shaped support, and parts arranged in the groove-shaped support and the outer convex part can form a limiting effect, so that the parts are better stabilized; the connecting pieces 42 on the side plates 4 are arranged in a fitting manner, and the stability of the groove-shaped support is improved by splicing and fixing the side plates.

The side wall of one end of the groove-shaped bracket 5 is fixedly connected with a turning plate 7, and the turning plate 7 is fixed on the other end of the groove-shaped bracket 5 relative to the through hole 51; the bottoms of the two sides of the turning plate 7 are fixedly provided with bottom edge plates 11; a lug 71 is fixedly arranged on the edge of one end of the turning plate 7, and the lug 71 is perpendicular to the surface of the turning plate 7; the groove-shaped support can be connected through extension of the turning plate, the turning plate plays a role in turning, the groove-shaped support is promoted to be bent and turned, parts are convenient to install, and meanwhile, the limiting effect on the parts is also enhanced at the turning position.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the utility model described above, and such modifications and adaptations are intended to be comprehended within the scope of the utility model.

Claims

1. The utility model provides a mounting bracket structure in wind power generation storehouse which characterized in that: the splicing frame plate comprises splicing frame plates (1) and splicing strips (2), wherein the splicing positions of the splicing frame plates (1) are fixed together through the splicing strips (2) to form an extensible supporting plate frame (3), and the splicing strips (2) can be arranged in a staggered mode in a horizontal-vertical mode; the edge of the supporting plate frame (3) is fixed through the side plates (4) to form a groove-shaped support (5), a through hole (51) is formed in the end part of the groove-shaped support (5), and an outer protruding part (6) can be outwards arranged in the middle of the groove-shaped support (5).

2. The wind power generation in-house mounting bracket structure of claim 1, wherein: the bottom of the splicing position of the splicing frame plate (1) is fixedly provided with a bottom edge plate (11), the side wall of the bottom edge plate (11) is perpendicular to the surface of the splicing frame plate (1), a plurality of groove-shaped supports (5) are supported by the bottom edge plate (11), and the bottom surfaces of the groove-shaped supports (5) are arranged at intervals with the mounting surfaces.

3. The wind power generation in-house mounting bracket structure of claim 2, wherein: the end part of the groove-shaped support (5) is fixedly provided with a shielding plate (52), and the shielding plate (52) is fixedly spliced with side plates (4) at two sides of the groove-shaped support (5).

4. A wind power generation in-house mounting bracket structure according to claim 3, wherein: the connecting notch (12) is formed in the splicing position of the side plate (4) on one side of the groove-shaped support (5) and the shielding plate (52), and the connecting notch (12) is communicated with the connecting notch (51) on the splicing frame plate (1).

5. The wind power generation in-house mounting bracket structure of claim 4, wherein: fixed plate (53) has been set firmly at shielding plate (52) one end top, fixed plate (53) are close to opening (51) setting, fixed plate (53) are extended to set up in the direction of opening (51) dorsad, have run through on fixed plate (53) and have seted up the fixed orifices.

6. The wind power generation in-house mounting bracket structure of claim 5, wherein: the middle part of the side edge of the splicing frame plate (1) is externally provided with an outer extension plate (13), the side plate (4) is adaptively arranged along the edge of the outer extension plate (13) to form an outer extension part (6), and a plurality of ventilation grooves (41) are formed in the side plate (4) in a penetrating manner; connecting pieces (42) are fixedly arranged at two ends of the side plate (4), the connecting pieces (42) are arranged back to the inside of the groove-shaped support (5), and a plurality of adjacent connecting pieces (42) on the side plate (4) are arranged in a fitting mode.

7. The wind power generation in-house mounting bracket structure of claim 6, wherein: a turning plate (7) is fixedly connected to the side wall of one end of the groove-shaped bracket (5), and the turning plate (7) is fixed on the other end of the groove-shaped bracket (5) relative to the through hole (51); bottom edge plates (11) are fixedly arranged at the bottoms of the two sides of the turning plate (7); a lug (71) is fixedly arranged on the edge of one end of the turning plate (7), and the lug (71) is perpendicular to the surface of the turning plate (7).