CN220815896U - Wind driven generator bracket - Google Patents

Abstract

The utility model discloses a wind driven generator bracket, which comprises a bracket main rod, a jacking plate, a bottom plate, a fixing frame mechanism and a fixing frame mechanism, wherein the jacking plate and the bottom plate are respectively fixed at the upper end and the lower end of the bracket main rod, the fixing frame mechanism comprises a bottom post, a spiral post, an inner spiral tube, a buried bowl, a fixing ring, a separating plate, a triangular vertical rod, a supporting plate, a fixed foot, an angle fixing plate and an angle fixing groove, the bottom post is welded on the lower plate surface of the bottom plate in a cross manner, the spiral post is welded on the lower cylindrical surface of the bottom post far away from the bottom plate, the spiral post is screwed into the inner spiral tube downwards, the fixing frame mechanism is arranged at the rod body of the bracket main rod and the position of the bottom plate, the fixing frame mechanism enables the bottom of the bracket main rod and the outside of the rod body to have an additional support structure for entering the ground, and the fixing frame mechanism can strengthen the support connection between the bracket main rod and the ground, so as to provide stable outer support for a wind driven generator, and effectively prevent the bracket from falling down with the head main rod of the wind driven generator.

Description

Wind driven generator bracket

Technical Field

The utility model relates to the technical field of wind driven generators, in particular to a wind driven generator bracket.

Background

The wind driven generator is power equipment which converts wind energy into mechanical work, the mechanical work drives a rotor to rotate and finally outputs alternating current, the wind driven generator generally comprises a wind wheel, a generator, a tower, a speed limiting safety mechanism, an energy storage device and other components, the working principle of the wind driven generator is relatively simple, the wind wheel rotates under the action of wind force, kinetic energy of wind is converted into mechanical energy of a wind wheel shaft, and the generator rotates to generate electricity under the driving of the wind wheel shaft.

The size of the prior art wind driven generator is limited according to the site installation condition, the small wind driven generator is usually installed at the top end of a columnar rod body support, when the columnar rod body is installed on the ground and encounters strong wind power, the rod-shaped support of the small wind driven generator is subjected to strong wind power and is easy to deform or topple over, so that the small wind driven generator is easy to break due to the damage of the support, and therefore, the wind driven generator support is proposed.

Disclosure of utility model

The utility model mainly aims to provide a wind driven generator support, wherein a support fixing mechanism is arranged at a rod body and a bottom mounting plate of a support main rod, and the support fixing mechanism enables an additional support entering structure to exist at the bottom of the support main rod and outside the rod body.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The utility model provides a wind-driven generator support, includes support mobile jib, top board and end board, the upper and lower end of support mobile jib is fixed with top board and end board respectively, still includes solid frame mechanism, solid frame mechanism includes sill pillar, helicoidal column, interior coil pipe, buries the bowl, solid ring, division board, triangle montant, brace plate, fixed foot, angle fixed plate and angle fixed slot, the lower face cross distribution welding of end board has the sill pillar, and the lower cylindrical surface welding that the sill pillar kept away from end board has the helicoidal column, the helicoidal column is gone into in the interior coil pipe downwards, and interior coil pipe welding is in the interior bowl wall department of burying the bowl, the support mobile jib overcoat of top board below has the solid ring, and the outer wall department cross distribution welding of solid ring has the division board, and the lower face department welding of division board has the triangle montant, the lower pole foot department welding that the division board has the brace plate, and the lower face welding of brace plate has the fixed foot, the interior ring wall department is sunken to have the angle fixed slot, and the support of angle fixed slot department has the outer board of angle fixed joint with vertical mobile jib.

Further, two groups of triangular vertical rods are symmetrically welded on the lower plate surface of the split plate; the lower part of the dividing plate can firmly obtain additional support on the ground through the triangular vertical rods of the double groups.

Further, four groups of angle fixing grooves are distributed and formed in the inner annular wall of the fixed ring in a cross manner, and four groups of angle fixing plates are welded outside the support main rod in a cross manner; the angle fixing grooves distributed in the cross in the solid ring can be matched with the angle fixing plates distributed in the cross outside the support main rod for embedding.

Further, a threaded hole is formed in the pipe body of the inner rotary pipe, and a spiral column is connected in the threaded hole of the inner rotary pipe in an screwed mode; the threaded hole of the inner coil can be screwed with the threaded column.

Further, the foot rod of the fixed foot is a conical foot rod, and the top end of the foot rod of the fixed foot is welded on the lower disc surface of the supporting disc in the middle; the conical foot rod of the fixed foot can be easily inserted into the soil layer downwards on the lower surface of the supporting disc.

Further, a space is reserved between the pipe body of the inner coil and the buried bowl; soil can be buried between the inner coil and the buried bowl.

Further, an arc connecting plate is welded between the fixed ring and the plate body of the split plate; and arc connecting plates are welded between the fixed rings and the split plates for reinforcement connection.

Compared with the prior art, the utility model has the following beneficial effects:

According to the utility model, the support fixing mechanism is arranged at the rod body of the support main rod and the bottom mounting plate, so that an additional support structure is arranged at the bottom of the support main rod and outside the rod body, the support connection between the support main rod and the ground can be enhanced by the support fixing mechanism, a stable outer support is provided for the wind driven generator, and the support main rod is effectively prevented from falling down and being damaged due to the fact that the nose of the wind driven generator is provided with the support main rod.

Drawings

FIG. 1 is a schematic view of an integrally mounted mounting bracket mechanism for a wind turbine bracket according to the present utility model.

FIG. 2 is an exploded view of a frame securing mechanism for a wind turbine frame according to the present utility model.

Fig. 3 is a schematic diagram of a triangle vertical bar structure of a wind driven generator bracket according to the present utility model.

In the figure: 1. a support main rod; 2. a top plate; 3. a bottom plate; 4. a frame fixing mechanism; 5. a bottom post; 6. a screw column; 7. an inner coil; 8. burying a bowl; 9. fixing rings; 10. dividing plates; 11. triangular vertical rods; 12. a support disc; 13. setting feet; 14. an arc connecting plate; 15. an angle fixing plate; 16. and (5) angle fixing grooves.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-3, a wind driven generator support comprises a support main rod 1, a jacking plate 2 and a bottom plate 3, wherein the upper end and the lower end of the support main rod 1 are respectively fixed with the jacking plate 2 and the bottom plate 3, the wind driven generator support further comprises a fixing frame mechanism 4, the fixing frame mechanism 4 comprises a bottom post 5, a spiral post 6, an inner rotating pipe 7, a buried bowl 8, a fixing ring 9, a division plate 10, a triangular vertical rod 11, a supporting disk 12, a fixing foot 13, an angle fixing plate 15 and an angle fixing groove 16, the bottom plate 3 is welded with the bottom post 5 in a cross distribution manner, the bottom post 5 is welded with the spiral post 6 far away from the lower cylindrical surface of the bottom plate 3, the spiral post 6 is screwed into the inner rotating pipe 7 downwards, the inner rotating pipe 7 is welded at the inner bowl wall of the buried bowl 8, the support main rod 1 at the lower part of the jacking plate 2 is sleeved with a fixing ring 9, the outer ring wall of the fixing ring 9 is welded with a division plate 10, the lower plate surface of the division plate 10 is welded with a triangular vertical rod 11, the angle fixing plate 11 is welded with the angle fixing plate 12 far away from the lower support plate 10, the angle fixing plate 16 is welded with the angle fixing plate 16, and the angle fixing plate 16 is welded with the lower plate surface of the support plate 12.

Wherein, the triangle vertical bars 11 are symmetrically welded with two groups on the lower plate surface of the division plate 10; additional support can be obtained firmly on the ground below the dividing plate 10 by the triangular vertical rods 11 of the double groups.

Four groups of angle fixing grooves 16 are distributed and formed in a cross manner at the inner annular wall of the fixed ring 9, and four groups of angle fixing plates 15 are welded outside the support main rod 1 in a cross manner; the angle fixing grooves 16 distributed in the cross shape in the fixed ring 9 can be matched with the angle fixing plates 15 distributed in the cross shape outside the support main rod 1 for embedding.

The pipe body of the inner rotary pipe 7 is provided with a threaded hole, and the threaded hole of the inner rotary pipe 7 is internally connected with a spiral column 6; the threaded hole of the inner coil 7 can be screwed with the threaded column 6.

Wherein, the foot bar of the fixed foot 13 is a conical foot bar, and the top end of the foot bar of the fixed foot 13 is welded on the lower disc surface of the supporting disc 12 in the middle; the conical foot rod of the fixed foot 13 can be easily inserted into the soil layer downwards on the lower surface of the supporting disc 12.

Wherein, a space is reserved between the pipe body of the inner rotary pipe 7 and the buried bowl 8; soil can be buried between the inner coil 7 and the buried bowl 8.

Wherein an arc connecting plate 14 is welded between the fixed ring 9 and the plate body of the split plate 10; and an arc connecting plate 14 is welded between the fixed ring 9 and the split plate 10 for reinforcement connection.

It should be noted that, the utility model is a wind driven generator support, the rod body of the support main rod 1 and the bottom plate 3 are provided with the fixing frame mechanism 4, the bottom post 5 of the fixing frame mechanism 4 is provided with the spiral post 6 and can be screwed with the internal rotation pipe 7 in the buried bowl 8, then the fixing ring 9 of the fixing frame mechanism 4 is positioned and sleeved at the angle fixing plate 15 of the support main rod 1 by the angle fixing groove 16, the fixing ring 9 can be welded with the support main rod 1, when the support main rod 1 is installed and used, the bottom post 5 below the bottom plate 3 is buried in the soil layer with the buried bowl 8, then the nail piles are used for driving the bottom plate 3 into the soil layer for fixing, then the triangular vertical post 11 outside the fixing ring 9 is arranged below the division plate 10 and can be pressed on the ground, then the supporting plate 12 below the triangular vertical post 11 is provided with the fixing feet 13 to be nailed down into soil, at the top end of the top plate 11 can be installed on the nose mounting seat of the wind driven generator, when the wind driven generator encounters strong wind, the fixing frame mechanism 4 enables the bottom of the support main rod 1 and the rod body to have additional structure to be buried in the soil layer when the wind driven generator encounters strong wind, and the wind driven generator can effectively prevent the wind driven generator main rod from falling down.

It should be noted that the present utility model is a wind driven generator support, the components in the present utility model are all known by those skilled in the art, and the structures and principles of the present utility model are all known by those skilled in the art through technical manuals or by conventional experimental methods.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a wind-driven generator support, includes support mobile jib (1), top board (2) and bottom plate (3), the upper and lower extreme of support mobile jib (1) is fixed with top board (2) and bottom plate (3) respectively, its characterized in that: still include fixed frame mechanism (4), fixed frame mechanism (4) include sill post (5), spiral post (6), internal rotation pipe (7), bury bowl (8), solid ring (9), branch board (10), triangle montant (11), prop dish (12), fixed foot (13), angle fixed plate (15) and angle fixed slot (16), the lower face cross distribution welding of sill plate (3) has sill post (5), and the lower cylindrical surface welding that sill plate (3) were kept away from to sill post (5) has spiral post (6), spiral post (6) are screwed into in internal rotation pipe (7) downwards, and internal rotation pipe (7) welding is in the interior bowl wall department of burying bowl (8), support mobile jib (1) overcoat welding of roof board (2) below has solid ring (9), and the outer ring wall department cross distribution welding of solid ring (9) has branch board (10), and the lower face department welding of triangle montant (11) of triangle montant (10), the lower face welding of keeping away from branch board foot (10) has spiral post (6), and prop the welding of ring (16) and have the fixed ring (16) of support mobile jib (1) to open the welding the angle fixed plate (16), the angle fixing plate (15) is vertically embedded with the angle fixing groove (16).

2. A wind turbine support according to claim 1, wherein: two groups of triangular vertical rods (11) are symmetrically welded on the lower plate surface of the dividing plate (10).

3. A wind turbine support according to claim 1, wherein: four groups of angle fixing grooves (16) are distributed and arranged on the inner annular wall of the fixed ring (9) in a cross mode, and four groups of angle fixing plates (15) are welded outside the support main rod (1) in a cross mode.

4. A wind turbine support according to claim 1, wherein: threaded holes are formed in the pipe body of the inner rotary pipe (7), and spiral columns (6) are connected in the threaded holes of the inner rotary pipe (7).

5. A wind turbine support according to claim 1, wherein: the foot rod of the foot fixing (13) is a conical foot rod, and the top end of the foot rod of the foot fixing (13) is welded on the lower disc surface of the supporting disc (12) in the middle.

6. A wind turbine support according to claim 1, wherein: a space is reserved between the pipe body of the inner rotary pipe (7) and the buried bowl (8).

7. A wind turbine support according to claim 1, wherein: an arc connecting plate (14) is welded between the fixing ring (9) and the plate body of the split plate (10).