CN217055479U - Shockproof device based on wind power - Google Patents

Abstract

The utility model provides a shock mounting based on wind-powered electricity generation belongs to wind-powered electricity generation technical field, include the wind-powered electricity generation subassembly and set up in the supporting component of wind-powered electricity generation subassembly bottom, the supporting component is including extending solid frame, bearing base, locating component and shockproof subassembly, wind-powered electricity generation subassembly's ground step extends in the inboard of extending solid frame, the bottom fixedly connected with who extends solid frame bears the base, the surface arrangement who bears the base is provided with locating component, and bears the base internal surface and be provided with shockproof subassembly, shockproof subassembly is located locating component's the outside. The utility model provides a structural strength when bearing base and suffering vibrations or impact force has the effect of buffering external effort, reduces vibrations to wind-powered electricity generation components motion in-process produced influence, simultaneously, when the installation environment for installing in unevenness's muddy land surface, has effectively promoted this anti-vibration device based on wind-powered electricity generation and has installed the stability in unevenness's muddy land surface, has the reinforcement protect function.

Description

Shockproof device based on wind power

Technical Field

The utility model relates to a wind-powered electricity generation technical field, in particular to shock mounting based on wind-powered electricity generation.

Background

Wind power generation is that kinetic energy of wind is converted into mechanical kinetic energy, and then the mechanical energy is converted into electric kinetic energy, namely wind power generation. The principle of wind power generation is that wind power drives windmill blades to rotate, and then the rotating speed is increased through a speed increaser, so that a generator is promoted to generate electricity. According to the windmill technique, the generation of electricity can be started at a breeze speed of about three meters per second. The devices required for wind power generation are called wind generating sets. The wind generating set can be divided into three parts of a wind wheel (including a tail vane), a generator and a tower.

Traditional small-size wind generating set installs in the open air usually, its be used for with the fixing device on ground, adopt single boss usually, structural strength is weaker, when receiving external vibrations and impact force, produces deformation easily, further makes wind generating set produce the phenomenon of collapsing easily, meanwhile, when wind generating set installs in unsmooth open air muddy ground, its stability reduces easily, also produces easily and emptys the phenomenon.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a shock mounting based on wind-powered electricity generation to solve current small-size wind generating set, adopt single boss fixed usually, structural strength is weaker, when wind generating set installs in the outdoor muddy land of unevenness ground, its stability reduces easily, also produces the problem of empting the phenomenon easily.

In order to solve the technical problem, the utility model provides a following technical scheme:

a wind-power-based anti-vibration device comprises: wind-powered electricity generation subassembly and set up in the supporting component of wind-powered electricity generation subassembly bottom, supporting component is including extending solid frame, bearing base, locating component and shockproof subassembly, wind-powered electricity generation subassembly's ground step extends in the inboard that extends solid frame.

The bottom of the extension fixing frame is fixedly connected with a bearing base, positioning components are arranged on the surface of the bearing base, shockproof components are arranged on the inner surface of the bearing base, and the shockproof components are located on the outer side of the positioning components.

Preferably, the shockproof assembly comprises a limiting fixing plate, external joint lantern rings, a first extending fixing rod, a second extending fixing rod, an elastic corrugated frame and an internal fixing rod, the limiting fixing plate is movably arranged on the inner surface of the bearing base through a screw, the inner ends of the limiting fixing plate are fixedly connected with the external joint lantern rings, and the outer surfaces of the two external joint lantern rings are fixedly connected through the internal fixing rod.

Preferably, the outer surface of the outer combining lantern ring is provided with a first extension fixing rod and a second extension fixing rod in an arrayed manner, and the outer ends of the first extension fixing rod and the second extension fixing rod are fixedly connected with the inner surface of the bearing base.

Preferably, the outer ends of the first extension fixing rod and the second extension fixing rod are fixedly connected with the inner surface of the bearing base through elastic corrugated frames.

Preferably, the positioning assembly comprises an adjusting and fixing rod, a positioning ring frame, an extending pin rod, a linkage disc frame and a positioning embedded frame, the linkage disc frame is fixedly connected with the bottom of the adjusting and fixing rod, and the positioning embedded frame is fixedly connected with the bottom of the linkage disc frame in an arrangement mode.

Preferably, the surface of the bearing base is fixedly connected with a positioning ring frame through a groove, and the inner cavity of the positioning ring frame is fixedly connected with an extension pin rod.

Preferably, the top of the adjusting and fixing rod is fixedly connected with a handheld fixing ring, and the surface of the adjusting and fixing rod is provided with a groove matched with the extending pin rod.

Preferably, the adjusting fixing rod is positioned on the inner side of the outer lantern ring.

Compared with the prior art, the invention at least has the following beneficial effects:

in the scheme, the wind power assembly arranged outdoors can be connected with the ground through the supporting assembly positioned at the bottom of the wind power assembly, when the bearing base is subjected to vibration or impact force, the first extension fixing rod, the second extension fixing rod and the inner connection fixing rod form a triangular transverse supporting framework, the structural strength of the bearing base is improved when the bearing base is subjected to vibration or impact force, the elastic corrugated frame has the effect of buffering external acting force due to the corrugated bending structure of the elastic corrugated frame, the influence of vibration on the motion process of the wind power assembly is reduced, further, when the installation environment is that the elastic corrugated frame is arranged on the rugged mud ground, the linkage disc frame fixedly connected with the bottom of the fixing rod is adjusted to be abutted against the ground, the positioning embedded frame is further embedded into the mud ground, and the stability of the wind power-based anti-vibration device arranged on the rugged mud ground is effectively improved, has the function of reinforcement and protection.

Drawings

FIG. 1 is a schematic perspective view of a wind power-based anti-vibration device;

FIG. 2 is a second view structural schematic diagram of a wind power-based anti-vibration device;

FIG. 3 is a schematic view of a partial section structure of a wind power-based anti-vibration device;

FIG. 4 is a schematic structural diagram of a wind power-based anti-vibration device support assembly.

[ reference numerals ]

1. A wind power assembly; 2. a support assembly; 21. an extension fixing frame; 22. a load bearing base; 23. a positioning assembly; 24. a shock-absorbing assembly; 231. adjusting the fixed rod; 232. a positioning ring frame; 233. an extension pin; 234. a linkage plate rack; 235. positioning an embedded frame; 236. a hand-held fixing ring; 241. limiting and fixing the plate; 242. externally combining lantern rings; 243. a first extension fixing rod; 244. a second extension fixing rod; 245. an elastic bellows frame; 246. the fixed rod is internally connected.

Detailed Description

To make the technical problems, technical solutions and advantages of the present invention clearer, the following description is made in conjunction with the accompanying drawings and specific embodiments.

As shown in fig. 1-4, the embodiment of the utility model provides a shockproof device based on wind power, include wind power component 1 and set up in the supporting component 2 of wind power component 1 bottom, supporting component 2 is including extending solid frame 21, bearing base 22, locating component 23 and shockproof subassembly 24, and wind power component 1's ground step extends in the inboard that extends solid frame 21, in this shockproof device based on wind power's use, installs in the supporting component 2 that open air wind power component 1 accessible is located its bottom and is connected with ground, and supporting component 2 has the bearing limiting displacement to wind power component 1.

The bottom of the extension fixing frame 21 is fixedly connected with a bearing base 22, the surface of the bearing base 22 is provided with positioning components 23 in an arrayed manner, the inner surface of the bearing base 22 is provided with shockproof components 24, the shockproof components 24 are positioned on the outer side of the positioning components 23, and the shockproof components 24 are positioned on the inner side of the bearing base 22 connected with the ground, so that the stability of the shockproof components 24 in use is improved.

As shown in fig. 4, the anti-vibration assembly 24 includes a limiting fixing plate 241, an outer engaging collar 242, a first extending fixing rod 243, a second extending fixing rod 244, an elastic corrugated frame 245 and an inner fixing rod 246, the limiting fixing plate 241 is movably mounted on the inner surface of the bearing base 22 by screws, the inner end of the limiting fixing plate 241 is fixedly connected with the outer engaging collar 242, the outer surfaces of the two outer engaging collars 242 are fixedly connected by the inner fixing rod 246, when the bearing base 22 suffers from vibration or impact force, the limiting fixing plate 241 can buffer the impact force through the outer engaging collar 242, and reduce the impact force influence on the positioning assembly 23.

The outer surface of the outer joint lantern ring 242 is provided with a first extension fixing rod 243 and a second extension fixing rod 244 in an arrayed manner, the outer ends of the first extension fixing rod 243 and the second extension fixing rod 244 are fixedly connected with the inner surface of the bearing base 22, the outer surfaces of the first extension fixing rod 243, the second extension fixing rod 244 and the outer surfaces of the two outer joint lantern rings 242 are provided with an inner fixing rod 246 and two triangular transverse support structures, so that the structural strength of the bearing base 22 when being subjected to vibration or impact force is further improved, and the bearing base 22 is not prone to deformation.

The outer ends of the first extending fixing rod 243 and the second extending fixing rod 244 are fixedly connected with the inner surface of the bearing base 22 through the elastic corrugated frame 245, and the elastic corrugated frame 245 has an effect of buffering external acting force due to the corrugated bending structure of the elastic corrugated frame 245, so that the influence of vibration on the movement process of the wind power assembly 1 is reduced.

As shown in fig. 3, the positioning assembly 23 includes an adjusting fixing rod 231, a positioning ring frame 232, an extending pin 233, a linking plate frame 234 and a positioning embedded frame 235, the linking plate frame 234 is fixedly connected to the bottom of the adjusting fixing rod 231, the positioning embedded frame 235 is fixedly connected to the bottom of the linking plate frame 234, the positioning ring frame 232 is fixedly connected to the surface of the bearing base 22 through a groove, the extending pin 233 is fixedly connected to the inner cavity of the positioning ring frame 232, when the bearing base 22 is installed on an uneven mud ground, the adjusting fixing rod 231 can be pressed to lower the inner side of the positioning ring frame 232, the linking plate frame 234 fixedly connected to the bottom of the adjusting fixing rod 231 can further abut against the ground, the positioning embedded frame 235 is further embedded into the mud ground, the stability of the wind power-based anti-vibration device installed on the uneven mud ground is effectively improved, and the wind power assembly 1 is not prone to topple, has the function of reinforcement and protection.

The top of the adjusting and fixing rod 231 is fixedly connected with a handheld fixing ring 236, the surface of the adjusting and fixing rod 231 is provided with a groove matched with the extension pin 233, the adjusting and fixing rod 231 is positioned in sliding fit between the inner groove of the outer fitting sleeve ring 242 and the front of the extension pin 233, the positioning assembly 23 can be limited, and the separation phenomenon of the positioning assembly 23 is avoided.

The utility model provides a technical scheme, through setting up the supporting component that installs in its bottom of outdoor wind-powered electricity generation subassembly and be connected with ground, when bearing the base and suffer vibrations or impact force, first extension solid pole, second extension solid pole and internal solid pole, constitute triangle-shaped lateral bracing framework, structural strength when having promoted bearing the base and suffered vibrations or impact force, elastic ripple frame has the effect of buffering external acting force because of its own ripple curved structure, reduce the influence that vibrations produced in the wind-powered electricity generation subassembly motion process, furthermore, when the installation environment is for installing in unevenness mud ground, the linkage plate rail of adjusting the fixed connection of solid pole bottom butts with ground, further make the location built-in of frame imbed earth ground, it has effectively promoted the stability of this shockproof device based on wind-powered electricity generation when installing in unevenness mud ground, has the function of reinforcement and protection.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a shockproof device based on wind-powered electricity generation which characterized in that includes: the wind power assembly comprises a wind power assembly and a supporting assembly arranged at the bottom of the wind power assembly, wherein the supporting assembly comprises an extension fixing frame, a bearing base, a positioning assembly and a shockproof assembly, and the ground step of the wind power assembly extends to the inner side of the extension fixing frame;

the bottom of the extending fixing frame is fixedly connected with a bearing base, positioning assemblies are arranged on the surface of the bearing base in an arrayed mode, a shockproof assembly is arranged on the inner surface of the bearing base, and the shockproof assembly is located on the outer side of the positioning assemblies.

2. The wind-power-based anti-vibration device according to claim 1, wherein the anti-vibration assembly comprises a limiting fixing plate, an external engaging sleeve ring, a first extending fixing rod, a second extending fixing rod, an elastic corrugated frame and an internal fixing rod, the limiting fixing plate is movably mounted on the inner surface of the bearing base through screws, the internal end of the limiting fixing plate is fixedly connected with the external engaging sleeve ring, and the external surfaces of the two external engaging sleeve rings are fixedly connected through the internal fixing rod.

3. The wind-power-based anti-vibration device according to claim 2, wherein the outer surface of the outer engaging sleeve ring is provided with a first extending fixing rod and a second extending fixing rod in an arrayed manner, and the outer ends of the first extending fixing rod and the second extending fixing rod are fixedly connected with the inner surface of the bearing base.

4. The wind-powered vibration damping device as recited in claim 3, wherein the outer ends of said first and second extension fixing bars are fixedly connected to the inner surface of said load-bearing base by means of elastic bellows.

5. The wind-power-based anti-vibration device according to claim 2, wherein the positioning assembly comprises an adjusting fixing rod, a positioning ring frame, an extending pin rod, a linkage disc frame and a positioning embedded frame, the linkage disc frame is fixedly connected with the bottom of the adjusting fixing rod, and the positioning embedded frame is fixedly connected with the bottom of the linkage disc frame in an arrangement manner.

6. The wind power-based anti-vibration device according to claim 5, wherein a positioning ring frame is fixedly connected to the surface of the bearing base through a groove, and an extension pin rod is fixedly connected to an inner cavity of the positioning ring frame.

7. The wind-powered vibration damping device according to claim 6, wherein a handheld fixing ring is fixedly connected to the top of the adjusting fixing rod, and a groove matched with the extending pin rod is formed in the surface of the adjusting fixing rod.

8. The wind-powered vibration damping arrangement as recited in claim 5, wherein said adjustment rods are located inside of the outer engaging collar.

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