CN117654963A - Wind-powered electricity generation is washing waterlogging caused by excessive rainfall support for rubber tube - Google Patents

Abstract

The utility model provides a wind-powered electricity generation rubber tube is with wasing draining support for fixed wind-powered electricity generation rubber tube (300) makes it drain, including fixed external member (100) and arborescent support (200), on arborescent support (200) was located to fixed external member (100), fixed external member (100) include rubber tube end cutting ferrule (101) and clamping jaw subassembly (120), rubber tube end cutting ferrule (101) fixed connection is on arborescent support (200), clamping jaw subassembly (120) sliding connection is on rubber tube end cutting ferrule (101), clamping jaw subassembly (120) include movable clamping jaw (107) that the circumference array set up, movable clamping jaw (107) are used for carrying out the centre gripping to wind-powered electricity generation rubber tube (300), can produce elastic deformation and elasticity's characteristic according to the wind-powered electricity generation rubber tube, utilize frictional force to carry out the centre gripping to the wind-powered electricity generation rubber tube, realize the fixed of the vertical direction of wind-powered electricity generation rubber tube, make the liquid in the wind-powered electricity generation rubber tube receive gravity influence natural flow, improves the draining efficiency and the effect of wind-powered electricity generation rubber tube.

Description

Wind-powered electricity generation is washing waterlogging caused by excessive rainfall support for rubber tube

Technical Field

The invention belongs to the technical field of wind power rubber tube production, and particularly relates to a cleaning and draining bracket for a wind power rubber tube.

Background

The wind power rubber tube is used for conveying lubricating oil into a rotating structure of the wind power station, reducing friction force of structures such as wind power blades and the like, improving wind power generation efficiency, and has certain hardness and toughness for being suitable for various outdoor working environments; meanwhile, in the production and later maintenance cleaning of the wind power rubber tube, the washed wind power rubber tube is required to be placed on a material table for draining, in the draining process, the wind power rubber tube is always in a certain bending form due to the hardness of the wind power rubber tube, and liquid in the wind power rubber tube is difficult to flow out smoothly, so that the draining effect is poor.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects in the prior art, the invention provides a cleaning and draining bracket for a wind power rubber tube, which at least partially solves the technical problems.

The technical scheme adopted by the invention is as follows: the invention provides a cleaning and draining support for a wind power rubber tube, which is used for fixing the wind power rubber tube to drain and comprises a fixing sleeve and a tree-shaped support, wherein the fixing sleeve is arranged on the tree-shaped support and comprises a rubber tube end clamping sleeve and a clamping jaw assembly, the rubber tube end clamping sleeve is fixedly connected to the tree-shaped support, the clamping jaw assembly is slidably connected to the rubber tube end clamping sleeve, the clamping jaw assembly comprises movable clamping jaws which are arranged in a circumferential array and are used for clamping the wind power rubber tube, the bottom of the rubber tube end clamping sleeve is provided with a bottom opening, when the clamping jaw assembly slides relative to the rubber tube end clamping sleeve and passes through the bottom opening, the movable clamping jaw is contacted with the inner wall of the rubber tube end clamping sleeve, and pressure generated between the rubber tube end clamping sleeve and the movable clamping jaw acts on the wind power rubber tube to clamp the wind power rubber tube.

Further, the inside of rubber tube end cutting ferrule is equipped with the location center pin, the center axis of location center pin and the center axis coincidence of rubber tube end cutting ferrule, the location center pin is perpendicular with ground, clamping jaw subassembly still includes the slip axle sleeve, the slip axle sleeve slides and locates on the location center pin, movable clamping jaw circumference array locates on the slip axle sleeve, movable clamping jaw rotates with the slip axle sleeve and is connected.

Further, the bottom of location center pin detachably is equipped with the backing shaft, backing shaft and location center pin are coaxial, wind-powered electricity generation rubber tube cover is established on the backing shaft, the bottom of backing shaft is equipped with the bottom fillet, the diameter of backing shaft is not less than the diameter of location center pin, the external diameter of backing shaft is not greater than the internal diameter of wind-powered electricity generation rubber tube.

Further, the movable clamping jaw comprises a clamping jaw rotating section and a clamping jaw clamping section, one end of the clamping jaw rotating section is connected to the sliding shaft sleeve, the other end of the clamping jaw rotating section is connected to the clamping jaw clamping section, the clamping jaw rotating section is rotationally connected with the sliding shaft sleeve, the clamping jaw clamping section is located below the clamping jaw rotating section when the clamping jaw clamping section rotates to the vertical direction, and the distance between the clamping jaw clamping section and the lining shaft is smaller than the distance between the clamping jaw rotating section and the lining shaft.

Further, the circumference array is equipped with the clamping jaw base on the slip axle sleeve, be equipped with movable pivot on the clamping jaw rotation section, movable pivot rotates to be connected on the clamping jaw base, the horizontal plane projection of movable pivot falls in the outside of the horizontal plane projection of slip axle sleeve.

Further, friction damping is arranged on the clamping jaw rotating section and is positioned on one side, close to the inner surface of the rubber pipe end clamping sleeve, of the clamping jaw rotating section, and the friction damping linear array is arranged on the clamping jaw rotating section.

Further, an arc-shaped concave surface is arranged on one surface, close to the lining shaft, of the clamping jaw clamping section, an anti-slip strip is arranged on the arc-shaped concave surface in a linear array mode, and the arc-shaped concave surface and the anti-slip strip are in contact with the wind power rubber tube.

Further, the tree-shaped support comprises a main body support, a hoop and a support base, wherein the main body support is connected to the support base, a dendritic extension connecting rod is arranged on the hoop, the hoop is fixedly connected to the main body support through the dendritic extension connecting rod, the rubber tube end clamping sleeve is clamped in the hoop, and reinforcing ribs are arranged at the connecting position of the support base and the main body support in an array mode.

Further, the hoop circumferential array is arranged on the main body support column, the hoop is arranged at the top of the main body support column, and the distance between the hoop and the support column base is greater than the length of the wind power rubber tube.

Further, the side face of the rubber pipe end clamping sleeve is provided with a vent hole, the vent hole completely penetrates through the side face of the rubber pipe end clamping sleeve, and the position of the vent hole is higher than that of the lining shaft.

Compared with the prior art, the invention has the following advantages:

1. according to the characteristics that the wind power rubber pipe can generate elastic deformation and elasticity, the clamping sleeve at the end of the rubber pipe and the movable clamping jaw are arranged to clamp the wind power rubber pipe by friction force, so that the wind power rubber pipe is fixed in the vertical direction, liquid in the wind power rubber pipe is naturally discharged under the influence of gravity, and the draining efficiency and the draining effect of the wind power rubber pipe are improved.

2. According to the wind power rubber hose, the positioning center shaft is arranged in the rubber hose end clamping sleeve, so that the clamping jaw assembly slides on the positioning center shaft, the wind power rubber hose is pulled downwards when the wind power rubber hose needs to be taken down, when the sum of the downward pulling force and the gravity of the wind power rubber hose is larger than the static friction force between the rubber hose end clamping sleeve and the clamping jaw assembly, the clamping jaw assembly slides out of the rubber hose end clamping sleeve through the bottom opening, the wind power rubber hose can be taken down smoothly, the structure is simple, the wind power rubber hose can be taken down and put through only one operation, the wind power rubber hose is convenient to use by a single person, and the wind power rubber hose is more convenient and faster to use.

Drawings

Fig. 1 is a perspective view of a cleaning and draining bracket for a wind power rubber tube, which is provided by an embodiment of the invention;

fig. 2 is a front view of a cleaning and draining bracket for a wind power glue pipe according to an embodiment of the invention;

fig. 3 is a right side view of a cleaning and draining bracket for a wind power glue pipe according to an embodiment of the invention;

FIG. 4 is a cross-sectional view taken along the line A-A in FIG. 3;

FIG. 5 is an enlarged view of the portion I of FIG. 4;

fig. 6 is a perspective view of a clamping jaw assembly for cleaning a draining bracket for a wind power glue pipe according to an embodiment of the invention;

fig. 7 is a perspective view of a tree-shaped bracket for cleaning and draining a bracket for a wind power glue pipe, which is provided by the embodiment of the invention.

Wherein 100 parts of the fixing sleeve, 200 parts of the fixing sleeve, 300 parts of the tree-shaped support, 101 parts of the wind power rubber tube, 101 parts of the rubber tube end clamping sleeve, 102 parts of the positioning central shaft, 103 parts of the positioning central shaft, 104 parts of the cushion shaft, 105 parts of the bottom opening, 106 parts of the ventilation hole, 106 parts of the sliding shaft sleeve, 107 parts of the sliding shaft sleeve, 108 parts of the movable clamping jaw, 108 parts of the clamping jaw base, 109 parts of the clamping jaw rotating section, 110, clamping jaw clamping sections, 111, movable rotating shafts, 112, friction damping, 113, arc concave surfaces, 114, anti-slip strips, 115, bottom round corners, 120, clamping jaw assemblies, 201, main body struts, 202, hoops, 203, strut bases, 204, dendritic extension connecting rods, 205 and reinforcing ribs.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1, fig. 2, fig. 3 and fig. 5, a cleaning and draining support for a wind power rubber hose is used for fixing a wind power rubber hose 300 to drain, and comprises a fixing sleeve 100 and a tree-shaped support 200, wherein the fixing sleeve 100 is arranged on the tree-shaped support 200, the fixing sleeve 100 comprises a rubber hose end clamping sleeve 101 and a clamping jaw assembly 120, the rubber hose end clamping sleeve 101 is fixedly connected to the tree-shaped support 200, the clamping jaw assembly 120 is slidably connected to the rubber hose end clamping sleeve 101, the clamping jaw assembly 120 comprises movable clamping jaws 107 which are arranged in a circumferential array, and the movable clamping jaws 107 are used for clamping the wind power rubber hose 300; the bottom of the rubber pipe end clamping sleeve 101 is provided with a bottom opening 104, after the clamping jaw assembly 120 passes through the bottom opening 104 when sliding relative to the rubber pipe end clamping sleeve 101, the movable clamping jaw 107 contacts with the inner wall of the rubber pipe end clamping sleeve 101, and the pressure generated between the rubber pipe end clamping sleeve 101 and the movable clamping jaw 107 acts on the wind power rubber pipe 300 to clamp the wind power rubber pipe 300.

In this embodiment, the movable clamping jaw 107 on the clamping jaw assembly 120 is used for clamping the wind power rubber tube 300, so as to realize the vertical fixation of the wind power rubber tube 300, firstly, the wind power rubber tube 300 is vertically arranged between the movable clamping jaws 107, the wind power rubber tube 300 is pushed to drive the clamping jaw assembly 120 to move towards the rubber tube end clamping sleeve 101, after the clamping jaw assembly 120 passes through the bottom opening 104 and enters the inside of the rubber tube end clamping sleeve 101, the movable clamping jaw 107 contacts the inner wall of the rubber tube end clamping sleeve 101, the pressure generated by the inner wall of the rubber tube end clamping sleeve 101 on the movable clamping jaw 107 is transferred to the wind power rubber tube 300 to squeeze the wind power rubber tube 300, and the wind power rubber tube 300 has elasticity so as to generate tiny deformation, and the elasticity generated by the deformation of the wind power rubber tube 300 further acts on the movable clamping jaw 107, so that the pressure is generated between the movable clamping jaw 107 and the rubber tube end clamping sleeve 101; at the moment, the wind power rubber tube 300 is stopped being pushed, the pressure between the movable clamping jaw 107 and the rubber tube end clamping sleeve 101 generates friction force opposite to the gravity direction so as to realize the fixation of the clamping jaw assembly 120, meanwhile, the friction force generated by the elastic force of the deformation of the wind power rubber tube 300 on the movable clamping jaw 107 counteracts the gravity of the wind power rubber tube 300, so that the clamping of the wind power rubber tube 300 is realized, the wind power rubber tube 300 is fixed along the vertical direction, the liquid in the wind power rubber tube 300 naturally flows out of the wind power rubber tube 300 under the influence of the gravity, and the draining effect of the wind power rubber tube 300 is better; the wind power rubber tube 300 is clamped and fixed by virtue of the friction force generated by the elasticity of the wind power rubber tube 300, the structure is simple, the wind power rubber tube 300 can be clamped and fixed only by pushing the wind power rubber tube 300 to the rubber tube end clamping sleeve 101, and the operation is more convenient.

As shown in fig. 4 and 5, a positioning central shaft 102 is arranged in the rubber tube end cutting sleeve 101, the central axis of the positioning central shaft 102 coincides with the central axis of the rubber tube end cutting sleeve 101, the positioning central shaft 102 is perpendicular to the ground, the clamping jaw assembly 120 further comprises a sliding shaft sleeve 106, the sliding shaft sleeve 106 is slidably arranged on the positioning central shaft 102, the movable clamping jaw 107 is circumferentially arranged on the sliding shaft sleeve 106 in an array manner, and the movable clamping jaw 107 is rotationally connected with the sliding shaft sleeve 106.

In this embodiment, when the wind power rubber tube 300 is taken and placed, the wind power rubber tube 300 is placed under the sliding shaft sleeve 106, the movable clamping jaw 107 arranged on the sliding shaft sleeve 106 surrounds the wind power rubber tube 300, and the sliding shaft sleeve 106 is in sliding connection with the positioning central shaft 102; when the wind power rubber tube 300 is used for pushing the sliding shaft sleeve 106 to slide on the positioning central shaft 102, and the sliding shaft sleeve 106 drives the movable clamping jaw 107 to move into the rubber tube end clamping sleeve 101, the movable clamping jaw 107 is interfered by the rubber tube end clamping sleeve 101 to rotate inwards, and pressure is generated between the movable clamping jaw 107 and the wind power rubber tube 300 to clamp the wind power rubber tube 300, so that vertical fixation of the wind power rubber tube 300 is realized; when the wind power rubber tube 300 needs to be taken down, the wind power rubber tube 300 is dragged downwards, when the sum of the downward pulling force and the gravity of the wind power rubber tube 300 is larger than the static friction force between the rubber tube end clamping sleeve 101 and the movable clamping jaw 107, the movable clamping jaw 107 slides in the rubber tube end clamping sleeve 101, once the movable clamping jaw 107 slides out of the rubber tube end clamping sleeve 101 through the bottom opening 104, the rubber tube end clamping sleeve 101 does not limit the position of the movable clamping jaw 107 any more, the movable clamping jaw 107 does not clamp the wind power rubber tube 300 any more, and the wind power rubber tube 300 can be taken down smoothly.

As shown in fig. 5, a lining shaft 103 is detachably arranged at the bottom of the positioning central shaft 102, the lining shaft 103 is coaxial with the positioning central shaft 102, the wind power rubber tube 300 is sleeved on the lining shaft 103, a bottom round corner 115 is arranged at the bottom of the lining shaft 103, the diameter of the lining shaft 103 is not smaller than the diameter of the positioning central shaft 102, and the outer diameter of the lining shaft 103 is not larger than the inner diameter of the wind power rubber tube 300.

In the embodiment, a lining shaft 103 is arranged at the bottom of a positioning central shaft 102, the outer diameter of the lining shaft 103 is selected according to the inner diameter of a wind power rubber tube 300, so that the outer diameter of the lining shaft 103 is not larger than the inner diameter of the wind power rubber tube 300, when the wind power rubber tube 300 is vertically fixed, the wind power rubber tube 300 is sleeved on the lining shaft 103, the lining shaft 103 serves as an inner framework of the wind power rubber tube 300 inside the wind power rubber tube 300, the wind power rubber tube 300 is guided and shaped, the wind power rubber tube 300 is kept at a certain straightness, and liquid in the wind power rubber tube 300 is convenient to flow out; in addition, the elastic force generated by the deformation of the wind power rubber tube 300 made of softer materials is smaller, enough static friction force cannot be generated, the lining shaft 103 is arranged in the wind power rubber tube 300, the movable clamping jaw 107 presses the wind power rubber tube 300 on the lining shaft 103, the lining shaft 103 provides additional static friction force for the wind power rubber tube 300 to ensure the fixing effect of the wind power rubber tube 300, and the vent hole 105 is arranged at the bottom of the lining shaft 103 to avoid scratching the inner wall of the wind power rubber tube 300.

As shown in fig. 5 and 6, the movable jaw 107 includes a jaw rotating section 109 and a jaw clamping section 110, one end of the jaw rotating section 109 is connected to the sliding shaft sleeve 106, the other end is connected to the jaw clamping section 110, the jaw rotating section 109 is rotationally connected to the sliding shaft sleeve 106, when the jaw clamping section 110 rotates to the vertical direction, the jaw clamping section 110 is located below the jaw rotating section 109, and the distance between the jaw clamping section 110 and the backing shaft 103 is smaller than the distance between the jaw rotating section 109 and the backing shaft 103.

In this embodiment, the movable clamping jaw 107 is divided into a clamping jaw rotating section 109 and a clamping jaw clamping section 110, the clamping jaw rotating section 109 is responsible for completing the rotating action of the movable clamping jaw 107, and the clamping jaw clamping section 110 is responsible for completing the clamping of the wind power rubber tube 300, so that the clamping jaw clamping section 110 is closer to the wind power rubber tube 300 to ensure sufficient contact with the wind power rubber tube 300, so as to obtain better clamping and vertical fixing effects.

As shown in fig. 5 and 6, a jaw base 108 is circumferentially arranged on the sliding shaft sleeve 106, a movable rotating shaft 111 is arranged on the jaw rotating section 109, the movable rotating shaft 111 is rotatably connected to the jaw base 108, and the horizontal plane projection of the movable rotating shaft 111 falls outside the horizontal plane projection of the sliding shaft sleeve 106.

In this embodiment, the jaw base 108 is provided for connecting the jaw rotating section 109, and the movable shaft 111 at the connection portion extends to the outside of the sliding sleeve 106, so as to avoid the sliding sleeve 106 interfering with the rotation of the jaw rotating section 109, so as to obtain a larger rotation range of the jaw rotating section 109.

As shown in fig. 5 and 6, the jaw rotation section 109 is provided with a friction damper 112, the friction damper 112 is located on one side of the jaw rotation section 109 near the inner surface of the hose end ferrule 101, and the friction damper 112 is arranged on the jaw rotation section 109 in a linear array.

In this embodiment, friction damper 112 is disposed on jaw rotating section 109, friction damper 112 contacts hose end ferrule 101, increases the friction between hose end ferrule 101 and movable jaw 107, and improves the vertical securing effect of jaw assembly 120 in hose end ferrule 101.

As shown in fig. 5 and 6, an arc-shaped concave surface 113 is arranged on one surface of the clamping jaw clamping section 110, which is close to the lining shaft 103, and anti-slip strips 114 are arranged on the arc-shaped concave surface 113 in a linear array, and the arc-shaped concave surface 113 and the anti-slip strips 114 are in contact with the wind power rubber tube 300.

In this embodiment, the arc concave surface 113 is disposed on the clamping jaw clamping section 110 to increase the contact surface between the clamping jaw clamping section 110 and the wind power rubber tube 300, and the anti-slip strip 114 is disposed on the arc concave surface 113 to increase the friction force between the clamping jaw clamping section 110 and the wind power rubber tube 300, so as to improve the clamping and vertical fixing effects of the wind power rubber tube 300.

As shown in fig. 1, 2 and 7, the tree-shaped support 200 comprises a main body support 201, a hoop 202 and a support base 203, wherein the main body support 201 is connected to the support base 203, a dendritic extension connecting rod 204 is arranged on the hoop 202, the hoop 202 is fixedly connected to the main body support 201 through the dendritic extension connecting rod 204, the rubber pipe end clamping sleeve 101 is clamped in the hoop 202, and reinforcing ribs 205 are arranged at the connection position of the support base 203 and the main body support 201 in an array manner.

In this embodiment, the bottom of the main body pillar 201 is welded with the pillar base 203 and the reinforcing ribs 205 to ensure that the main body pillar 201 can be stably placed on the ground.

As shown in fig. 2 and 7, the hoop 202 is circumferentially arranged on the main body pillar 201, the hoop 202 is located at the top of the main body pillar 201, and the distance between the hoop 202 and the pillar base 203 is greater than the length of the wind power rubber pipe 300.

In this embodiment, the hose end clamping sleeve 101 is disposed in the hoops 202 and connects the hoops 202 to the main body strut 201 through the dendritic extension connecting rod 204, so that the plurality of wind power hoses 300 can be vertically fixed at the same time, the draining efficiency of the wind power hoses 300 is improved, and interference among the plurality of wind power hoses 300 can not occur.

As shown in fig. 5, the side surface of the hose end clamping sleeve 101 is provided with a vent 105, the vent 105 completely penetrates through the side surface of the hose end clamping sleeve 101, and the position of the vent 105 is higher than that of the lining shaft 103.

In this embodiment, the vent 105 is provided on the hose end ferrule 101, so that the airflow flux can be improved, and the draining speed of the wind power hose 300 can be increased.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (10)

1. The utility model provides a wind-powered electricity generation rubber tube is with wasing draining support for fixed wind-powered electricity generation rubber tube (300) make it drain, including fixed external member (100) and arborescent support (200), fixed external member (100) are located on arborescent support (200), its characterized in that:

the fixing sleeve (100) comprises a rubber pipe end clamping sleeve (101) and a clamping jaw assembly (120), the rubber pipe end clamping sleeve (101) is fixedly connected to the tree-shaped support (200), the clamping jaw assembly (120) is connected to the rubber pipe end clamping sleeve (101) in a sliding mode, the clamping jaw assembly (120) comprises movable clamping jaws (107) arranged in a circumferential array, and the movable clamping jaws (107) are used for clamping a wind power rubber pipe (300);

the bottom of rubber tube end cutting ferrule (101) is equipped with bottom opening (104), works as after bottom opening (104) are passed in clamping jaw subassembly (120) when sliding for rubber tube end cutting ferrule (101), movable clamping jaw (107) and the inner wall contact of rubber tube end cutting ferrule (101), the pressure effect that produces between rubber tube end cutting ferrule (101) and movable clamping jaw (107) realizes the centre gripping of wind-powered electricity generation rubber tube (300) on wind-powered electricity generation rubber tube (300).

2. The cleaning and draining bracket for a wind power glue pipe according to claim 1, wherein: the inside of rubber tube end cutting ferrule (101) is equipped with location center pin (102), the center axis of location center pin (102) coincides with the center axis of rubber tube end cutting ferrule (101), location center pin (102) are perpendicular with ground, clamping jaw subassembly (120) still include slip axle sleeve (106), slip axle sleeve (106) slip is located on location center pin (102), movable clamping jaw (107) circumference array is located on slip axle sleeve (106), movable clamping jaw (107) are connected with slip axle sleeve (106) rotation.

3. The cleaning and draining support for a wind power rubber hose according to claim 2, wherein: the wind power rubber pipe is characterized in that a lining shaft (103) is detachably arranged at the bottom of the positioning central shaft (102), the lining shaft (103) is coaxial with the positioning central shaft (102), the wind power rubber pipe (300) is sleeved on the lining shaft (103), a bottom round corner (115) is arranged at the bottom of the lining shaft (103), the diameter of the lining shaft (103) is not smaller than the diameter of the positioning central shaft (102), and the outer diameter of the lining shaft (103) is not larger than the inner diameter of the wind power rubber pipe (300).

4. A cleaning and draining support for a wind power glue line according to claim 3, characterized in that: the movable clamping jaw (107) comprises a clamping jaw rotating section (109) and a clamping jaw clamping section (110), one end of the clamping jaw rotating section (109) is connected to the sliding shaft sleeve (106), the other end of the clamping jaw rotating section is connected to the clamping jaw clamping section (110), the clamping jaw rotating section (109) is rotationally connected with the sliding shaft sleeve (106), the clamping jaw clamping section (110) is located below the clamping jaw rotating section (109) when the clamping jaw clamping section (110) rotates to the vertical direction, and the distance between the clamping jaw clamping section (110) and the bushing shaft (103) is smaller than the distance between the clamping jaw rotating section (109) and the bushing shaft (103).

5. The cleaning and draining bracket for a wind power glue pipe according to claim 4, wherein: the sliding shaft sleeve (106) is provided with a clamping jaw base (108) in a circumferential array, the clamping jaw rotating section (109) is provided with a movable rotating shaft (111), the movable rotating shaft (111) is rotationally connected to the clamping jaw base (108), and the horizontal plane projection of the movable rotating shaft (111) falls outside the horizontal plane projection of the sliding shaft sleeve (106).

6. The cleaning and draining bracket for a wind power glue pipe according to claim 5, wherein: the clamping jaw rotating section (109) is provided with friction damping (112), the friction damping (112) is positioned on one side, close to the inner surface of the rubber pipe end clamping sleeve (101), of the clamping jaw rotating section (109), and the friction damping (112) is arranged on the clamping jaw rotating section (109) in a linear array.

7. The cleaning and draining bracket for a wind power glue pipe according to claim 6, wherein: an arc-shaped concave surface (113) is arranged on one surface, close to the lining shaft (103), of the clamping jaw clamping section (110), anti-slip strips (114) are arranged on the arc-shaped concave surface (113) in a linear array mode, and the arc-shaped concave surface (113) and the anti-slip strips (114) are in contact with the wind power rubber tube (300).

8. The cleaning and draining support for a wind power rubber hose according to claim 7, wherein: the tree-shaped support (200) comprises a main body support (201), a hoop (202) and a support base (203), wherein the main body support (201) is connected to the support base (203), a dendritic extension connecting rod (204) is arranged on the hoop (202), the hoop (202) is fixedly connected to the main body support (201) through the dendritic extension connecting rod (204), the rubber tube end clamping sleeve (101) is clamped in the hoop (202), and reinforcing ribs (205) are arranged at the connecting position of the support base (203) and the main body support (201) in an array mode.

9. The cleaning and draining support for a wind power rubber hose according to claim 8, wherein: the hoop (202) is circumferentially arranged on the main body support column (201), the hoop (202) is arranged at the top of the main body support column (201), and the distance between the hoop (202) and the support column base (203) is larger than the length of the wind power rubber tube (300).

10. The cleaning and draining bracket for a wind power glue pipe according to claim 9, wherein: the side of the rubber pipe end clamping sleeve (101) is provided with a vent hole (105), the vent hole (105) completely penetrates through the side of the rubber pipe end clamping sleeve (101), and the position of the vent hole (105) is higher than that of the lining shaft (103).