CN212315339U - Wind power tower cylinder turns to strutting arrangement - Google Patents

Abstract

The application relates to a wind power tower cylinder steering support device. The application wind power tower cylinder turns to strutting arrangement include: the supporting and steering assembly is rotatably connected to the base assembly; the base component comprises a base support, a supporting panel and a rotating shaft, the supporting panel is transversely placed on the top surface of the base support, and the rotating shaft is longitudinally and fixedly installed in the middle of the supporting panel; the supporting and steering assembly comprises an arc saddle and a sleeve, the arc saddle comprises an arc saddle plate and supporting saddle plates, the two supporting saddle plates are longitudinally arranged, the arc saddle plates are fixed on the top surfaces of the two supporting saddle plates, and the sleeve is fixed between the two supporting saddle plates and is positioned in the middle of the arc saddle plates; the sleeve is sleeved on the rotating shaft. The wind power tower cylinder turns to strutting arrangement have and provide wind power tower cylinder and turn to guarantee the advantage of supporting effect.

Description

Wind power tower cylinder turns to strutting arrangement

Technical Field

The application relates to a supporting device, in particular to a wind power tower cylinder steering supporting device.

Background

In the transportation of the existing wind power tower, because the tower is large in size and long in length, because the lying delivery direction of the tower is perpendicular to the width direction of a door crane, two gantry cranes are generally needed for hoisting in the carrying process. The tower drum is horizontally placed, and then two ends of the tower drum are respectively hoisted on the two gantry cranes. The hoisting and transporting mode is suitable for the situations that the field is spacious enough and the crane is enough. When only one gantry crane is arranged on site, the hoisting requirement cannot be met by the prior art.

SUMMERY OF THE UTILITY MODEL

Based on this, the purpose of this application lies in, provides wind power tower section of thick bamboo and turns to strutting arrangement, and it has the advantage that satisfies the support that the tower section of thick bamboo turned to.

One aspect of the application provides a wind power tower cylinder steering support device, which comprises a base assembly and a supporting steering assembly, wherein the supporting steering assembly is rotationally connected to the base assembly;

the base component comprises a base support, a supporting panel and a rotating shaft, the supporting panel is transversely placed on the top surface of the base support, and the rotating shaft is longitudinally and fixedly installed in the middle of the supporting panel;

the supporting and steering assembly comprises an arc saddle and a sleeve, the arc saddle comprises an arc saddle plate and supporting saddle plates, the two supporting saddle plates are longitudinally arranged, the arc saddle plates are fixed on the top surfaces of the two supporting saddle plates, and the sleeve is fixed between the two supporting saddle plates and is positioned in the middle of the arc saddle plates;

the sleeve is sleeved on the rotating shaft, so that the arc-shaped saddle can rotate relative to the rotating shaft.

Wind power tower section of thick bamboo turn to strutting arrangement, can place a tower section of thick bamboo on the arc saddle, in the time of hoist and mount, lift by crane the one end of a tower section of thick bamboo, then the other end is placed on the arc saddle, rotate at the relative pivot of arc saddle to realize turning to of a tower section of thick bamboo, like this, a tower section of thick bamboo just can rotate 90, change the angle of putting of a tower section of thick bamboo, thereby make the both ends of a tower section of thick bamboo can correspond with two lifting hooks of gantry crane and put, just can carry out hoist and mount and the transportation of a tower section of thick bamboo through a gantry. If only when a field has a gantry crane, because tower section of thick bamboo length is greater than 15 meters, the unable hoist and mount of single hook need be 90 degrees turns to the tower section of thick bamboo, turns to the back through the support arrangement that turns to of this application and carries out the tower section of thick bamboo, just can use the major-minor hook of gantry crane to hoist the tower section of thick bamboo in coordination simultaneously, satisfies the production demand.

Furthermore, the supporting steering assembly further comprises wear-resistant assemblies which are respectively arranged on two sides of the arc-shaped saddle, each wear-resistant assembly comprises a wear-resistant limiting plate, a wear-resistant supporting plate and a wear-resistant sliding block, two sides of each wear-resistant supporting plate are fixed between the two supporting saddle plates, the other two sides of each wear-resistant supporting plate are fixedly connected with the corresponding wear-resistant limiting plate to form a wear-resistant limiting cavity, and each wear-resistant sliding block is placed in the corresponding wear-resistant limiting cavity;

the wear-resistant sliding block is connected with the supporting panel in a sliding mode.

Further, the wear-resisting assembly further comprises wear-resisting reinforcing ribs which are respectively fixed on the wear-resisting supporting plate and the supporting saddle plate.

Furthermore, the supporting steering assembly also comprises a sliding assembly, the sliding assembly comprises a steering pulley and a connecting framework, the steering pulley is installed on the arc saddle through the connecting framework, and the two sliding assemblies are respectively installed on two sides of the arc saddle; the turning axis of the diverting pulley is directed towards the turning axis so that the diverting pulley can turn around the turning axis.

Further, the sliding assembly further comprises a steering rail mounted on the support panel, and the steering pulley is rotatably connected with the steering rail.

Furthermore, the arc saddle also comprises a reinforcing rib plate which is fixedly connected to the supporting saddle plate and the sleeve respectively.

Further, the base assembly further comprises a base reinforcing rib fixedly connected to the base support.

Further, the base assembly further comprises base pulleys, and the base pulleys are fixed to the bottom surface of the base support respectively.

Further, the base assembly further comprises a wear-resistant base plate, and the wear-resistant base plate is arranged between the rotating shaft and the supporting panel.

Further, the base assembly further comprises a wear-resistant ring which is sleeved on the rotating shaft and is arranged above the wear-resistant base plate, so that the sleeve is in sliding connection with the wear-resistant ring.

For a better understanding and practice, the present application is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic perspective view of an exemplary wind tower steering support apparatus of the present application;

FIG. 2 is a schematic view of an exemplary assembly structure of a rotating shaft, a wear-resistant backing plate and a wear-resistant ring;

FIG. 3 is a schematic perspective view of another perspective view of an exemplary wind tower steering support apparatus of the present application;

FIG. 4 is a perspective isometric view of an exemplary support and steering assembly of the present application;

FIG. 5 is a schematic perspective view of another exemplary wind tower steering support apparatus of the present application;

FIG. 6 is a perspective isometric view of another exemplary support and steering assembly of the present application;

FIG. 7 is a schematic view of an exemplary steered gantry crane lifting wind turbine tower of the present application.

Detailed Description

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

FIG. 1 is a schematic perspective view of an exemplary wind tower steering support apparatus of the present application; FIG. 2 is a schematic view of an exemplary assembly structure of a rotating shaft, a wear-resistant backing plate and a wear-resistant ring; FIG. 3 is a schematic perspective view of another perspective view of an exemplary wind tower steering support apparatus of the present application; FIG. 4 is a perspective isometric view of an exemplary support and steering assembly of the present application.

Referring to fig. 1-4, an exemplary wind tower steering support apparatus of the present application includes a base assembly and a supporting steering assembly 20, wherein the supporting steering assembly 20 is rotatably connected to the base assembly;

the base component comprises a base bracket 11, a supporting panel 12 and a rotating shaft 13, wherein the supporting panel 12 is transversely placed on the top surface of the base bracket 11, and the rotating shaft 13 is longitudinally and fixedly installed in the middle of the supporting panel 12;

the supporting and steering assembly 20 comprises an arc saddle and a sleeve 23, the arc saddle comprises an arc saddle plate 21 and a supporting saddle plate 22, the two supporting saddle plates 22 are longitudinally arranged, the arc saddle plate 21 is fixed on the top surfaces of the two supporting saddle plates 22, and the sleeve 23 is fixed between the two supporting saddle plates 22 and is positioned in the middle of the arc saddle plates 21;

the sleeve 23 is sleeved on the rotating shaft 13, so that the arc-shaped saddle can rotate relative to the rotating shaft 13.

In some preferred embodiments, the support steering assembly 20 further includes wear-resistant assemblies respectively disposed on two sides of the arc-shaped saddle, the wear-resistant assemblies include wear-resistant limit plates 24, wear-resistant support plates 25 and wear-resistant sliders (not shown in the figures), two sides of the wear-resistant support plates 25 are fixed between the two support saddle plates 22, and the other two sides of the wear-resistant support plates 25 are fixedly connected with the wear-resistant limit plates 24 to form a wear-resistant limit cavity, and the wear-resistant sliders are placed in the wear-resistant limit cavity;

the wear resistant slider is slidably connected to the support panel 12. Furthermore, the wear-resistant sliding block is a square block and is made of a material with high wear resistance.

In some preferred embodiments, the wear assembly further comprises wear reinforcement ribs 26, the wear reinforcement ribs 26 being secured to the wear support plate 25 and the support saddle plate 22, respectively.

In some preferred embodiments, the saddle further comprises a reinforcement rib 27, the reinforcement rib 27 being fixedly attached to the support saddle 22 and the sleeve 23, respectively.

In some preferred embodiments, the base assembly further comprises a base reinforcing rib 15, the base reinforcing rib 15 being fixedly attached to the base bracket 11.

In some preferred embodiments, the base assembly further includes base pulleys 17, and a plurality of the base pulleys 17 are respectively fixed to the bottom surfaces of the base brackets 11.

In some preferred embodiments, the base assembly further comprises a wear pad 16, the wear pad 16 being disposed between the shaft 13 and the support panel 12.

In some preferred embodiments, the base assembly further comprises a wear ring 17, and the wear ring 17 is sleeved on the rotating shaft 13 and placed above the wear pad 16, so that the sleeve 23 is slidably connected with the wear ring 17.

FIG. 5 is a schematic perspective view of another exemplary wind tower steering support apparatus of the present application; FIG. 6 is a perspective isometric view of another exemplary support and steering assembly of the present application.

Referring to fig. 5 and 6, in other preferred embodiments, the supporting and steering assembly further includes a sliding assembly, the sliding assembly includes a steering pulley 28 and a connecting frame 29, the steering pulley 28 is mounted on the arc saddle through the connecting frame 29, and the two sliding assemblies are respectively mounted on two sides of the arc saddle; the axis of rotation of the diverting pulley 28 is directed towards the axis of rotation 13 so that the diverting pulley 28 can rotate around the axis of rotation 13.

In some preferred embodiments, the skid assembly further includes a diverting rail 18, the diverting rail 18 being mounted on the support panel 12, and the diverting pulley being rotatably connected to the diverting rail 18.

Of course, in other examples, a wear assembly may be provided at one end supporting the steering assembly 20 and a slip assembly at the other end. Both guarantee the support effect, also guarantee the sliding effect.

FIG. 7 is a schematic view of an exemplary steered gantry crane lifting wind turbine tower of the present application. Referring to fig. 7, the tower 40 after turning is positioned in line with the two hooks 32 of the gantry crane 31, one hook 32 is hung at one end of the tower 40, and the other hook 32 is hung at the other end of the tower 40.

The working principle of the wind power tower cylinder steering support device comprises the following steps:

one end of the tower barrel is placed on an arc saddle plate 21 of an arc saddle, the arc saddle and a sleeve 23 rotate around the rotating shaft 13 together, and the sleeve 23 and the wear-resisting ring 17 are in sliding friction in the rotating process of the rotating shaft 13. In one example, the wear-resistant sliding block of the wear-resistant assembly is in sliding contact with the supporting panel 12 and plays a supporting role, so that the supporting effect and the smooth sliding and rotating effects during the rotation of the tower barrel are ensured. In another example, smooth turning is ensured by diverting pulley 28 making contact with diverting rail 18. The base pulley 17 is arranged, so that the whole supporting device can be moved conveniently.

The supporting device is large in structural strength, stable in supporting effect and smooth in rotation, ensures good support in the rotating process of the tower drum and good rotation, and provides convenience and possibility for hoisting of the single gantry crane.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (10)

1. The utility model provides a wind power tower cylinder turns to strutting arrangement which characterized in that: the steering device comprises a base assembly and a supporting steering assembly, wherein the supporting steering assembly is rotatably connected to the base assembly;

the base component comprises a base support, a supporting panel and a rotating shaft, the supporting panel is transversely placed on the top surface of the base support, and the rotating shaft is longitudinally and fixedly installed in the middle of the supporting panel;

the supporting and steering assembly comprises an arc saddle and a sleeve, the arc saddle comprises an arc saddle plate and supporting saddle plates, the two supporting saddle plates are longitudinally arranged, the arc saddle plates are fixed on the top surfaces of the two supporting saddle plates, and the sleeve is fixed between the two supporting saddle plates and is positioned in the middle of the arc saddle plates;

the sleeve is sleeved on the rotating shaft, so that the arc-shaped saddle can rotate relative to the rotating shaft.

2. The wind tower steering support device of claim 1, wherein: the supporting steering assembly further comprises wear-resistant assemblies, the wear-resistant assemblies are respectively arranged on two sides of the arc-shaped saddle, each wear-resistant assembly comprises a wear-resistant limiting plate, a wear-resistant supporting plate and a wear-resistant sliding block, two sides of each wear-resistant supporting plate are fixed between the two supporting saddle plates, the other two sides of each wear-resistant supporting plate are fixedly connected with the corresponding wear-resistant limiting plate to form a wear-resistant limiting cavity, and the wear-resistant sliding blocks are placed in the wear-resistant limiting cavities;

the wear-resistant sliding block is connected with the supporting panel in a sliding mode.

3. The wind tower steering support device of claim 2, wherein: the wear-resistant assembly further comprises wear-resistant reinforcing ribs which are respectively fixed on the wear-resistant supporting plate and the supporting saddle plate.

4. The wind tower steering support device of claim 1, wherein: the supporting steering assembly further comprises a sliding assembly, the sliding assembly comprises a steering pulley and a connecting framework, the steering pulley is mounted on the arc saddle through the connecting framework, and the two sliding assemblies are respectively mounted on two sides of the arc saddle; the turning axis of the diverting pulley is directed towards the turning axis so that the diverting pulley can turn around the turning axis.

5. The wind tower steering support device of claim 4, wherein: the sliding assembly further comprises a steering rail, the steering rail is mounted on the supporting panel, and the steering pulley is rotatably connected with the steering rail.

6. The wind tower steering support device of claim 3 or 5, wherein: the arc saddle further comprises a reinforcing rib plate which is fixedly connected to the supporting saddle plate and the sleeve respectively.

7. The wind tower steering support device of claim 6, wherein: the base assembly further comprises a base reinforcing rib fixedly connected to the base support.

8. The wind tower steering support device of claim 6, wherein: the base component further comprises base pulleys, and the base pulleys are fixed to the bottom surface of the base support respectively.

9. The wind tower steering support device of claim 6, wherein: the base assembly further comprises a wear-resistant base plate, and the wear-resistant base plate is arranged between the rotating shaft and the supporting panel.

10. The wind tower steering support device of claim 9, wherein: the base assembly further comprises a wear-resisting ring which is sleeved on the rotating shaft and is arranged above the wear-resisting base plate, so that the sleeve is in sliding connection with the wear-resisting ring.

Images