CN221215337U - Wind-powered electricity generation blade transportation mounting fixture - Google Patents

Abstract

The utility model provides a wind power blade transportation fixing clamp which comprises a T-shaped frame body, wherein reinforcing rods are arranged at the side ends of the T-shaped frame body, a plurality of vertical supporting rods are arranged at the bottom of the T-shaped frame body, through grooves are respectively formed in the front side end and the rear side end of the T-shaped frame body, an ascending mechanism is arranged at the lower end of the T-shaped frame body, and a descending mechanism is arranged at the upper end of the T-shaped frame body. According to the wind power blade transportation fixing clamp, not only can wind power blades be clamped, but also wind power blades with different sizes can be clamped, and the wind power blades can be automatically clamped, so that the multiple use period of the clamp is prolonged, and the overall use effect and the use efficiency of the device are improved.

Description

Wind-powered electricity generation blade transportation mounting fixture

Technical Field

The utility model belongs to the technical field of wind power blade transportation, and particularly relates to a wind power blade transportation fixing clamp.

Background

The wind power blade transportation fixing clamp is equipment for fixing and protecting wind power blades in the transportation process, and has the main function of ensuring that the blades cannot be damaged or deformed in the transportation process.

The utility model of publication number CN218949973U discloses a wind-powered electricity generation blade transportation mounting fixture, includes among the technical scheme of this patent: the first support is provided with an arc-shaped part for bearing the cylindrical end of the wind power blade, the second support is provided with a flat part for bearing the flat end of the wind power blade, the first support and the second support are respectively provided with a first clamping rod and a second clamping rod, the first clamping rod is of an arc-shaped structure, the second clamping rod is of a straight structure, after a period of use, the clamping mechanism needs to be used for manually clamping the clamp, time and labor are wasted during use, and the clamping mechanism can only be suitable for the wind power blade with the same height, so that the integral use efficiency and the use effect can be influenced.

Disclosure of utility model

In view of the defects in the prior art, the utility model provides the wind power blade transportation fixing clamp which not only can clamp wind power blades, but also can clamp wind power blades with different sizes, and can automatically clamp the wind power blades, so that the multiple use period of the clamp is prolonged, and the overall use effect and use efficiency of the device are improved.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a wind-powered electricity generation blade transportation mounting fixture, includes the T shape support body, and the side of T shape support body is provided with the stiffener, and the bottom of T shape support body is provided with a plurality of vertical bracing pieces, and logical groove has been seted up respectively to both sides end around the T shape support body, and T shape support lower extreme is provided with climbing mechanism, and the upper end of T shape support body is provided with descending mechanism.

As a further improvement of the utility model, the lifting mechanism comprises a fixed block arranged at the top of a plurality of support rods, a groove is formed in the middle of the fixed block, two sliding blocks are arranged at the bottom of the groove along the left-right direction, threaded holes are respectively formed in the middle of the two sliding blocks, first U-shaped plates are respectively arranged at the tops of the two sliding blocks, connecting rods are respectively arranged in the middle of the two first U-shaped plates, connecting posts I penetrating through the first U-shaped plates are respectively arranged on the two connecting rods, a second U-shaped plate is jointly arranged at the tops of the two connecting rods, connecting posts II penetrating through the tops of the connecting rods are arranged on the second U-shaped plates, lower arc clamps are arranged at the tops of the second U-shaped plates, and a transmission module is arranged inside the groove.

As a further improvement of the utility model, the transmission module comprises a first rotating motor arranged at the left side of the T-shaped frame body, and a bidirectional screw rod in threaded connection with the two sliding blocks is arranged in the groove and is connected with the first rotating motor through a coupler.

As a further improvement of the utility model, the descending mechanism comprises first synchronous pulleys arranged at the bottoms of the side walls of the left side and the right side of the T-shaped frame respectively, second synchronous pulleys are arranged at the tops of the left side and the right side of the T-shaped frame body respectively, a transmission belt is arranged between the first synchronous pulleys and the second synchronous pulleys respectively, sliding bodies connected with one side of the transmission belt are arranged in through grooves of the left side and the right side of the T-shaped frame body respectively, upper arc clamps are arranged at the middle parts of the two sliding bodies together, a second rotating motor connected with the first synchronous pulleys is arranged at the other side of the first synchronous pulleys, a supporting rod is welded with the T-shaped frame body, and a reinforcing rod is welded with the T-shaped frame body.

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

First, the side of T shape support body is provided with the stiffener, and the bottom of T shape support body is provided with a plurality of vertical setting's bracing piece, and the setting of these member makes the T shape support body more firm durable when using.

Secondly, start first rotating electrical machines, the start-up of first rotating electrical machines drives two-way lead screw and rotates, and then drives the slip of two inside sliders of recess, and then drives and rotates with slider top first U-shaped board articulated connecting rod to drive first U-shaped board and upwards or decurrent removal, thereby drive down circular arc clamp and remove, with the adaptation carries out the centre gripping to the wind-powered electricity generation blade of co-altitude.

Third, start the second rotating electrical machines, the rotation of second rotating electrical machines drives, and synchronous pulley rotates and drives the drive belt and rotate, and then drives synchronous pulley two and rotate, and the rotation of drive belt drives the slider and reciprocates, and the middle part of slider drives the circular arc jointly and presss from both sides and remove in order to carry out the centre gripping to wind-powered electricity generation blade.

Fourth, be connected through the screw rod between the top of second U-shaped board and the lower circular arc clamp, and then can replace the lower circular arc clamp at second U-shaped board top in order to adapt to the wind-powered electricity generation blade of equidimension.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic structural diagram of a side view of the present utility model;

FIG. 3 is a schematic diagram of the front view of the present utility model;

Fig. 4 is a schematic structural view of a partial view of the present utility model.

In the figure: 101. a T-shaped frame body; 102. a reinforcing rod; 103. a support rod; 104. a fixed block; 105. a groove; 106. a slide block; 107. a first U-shaped plate; 108. a first connecting column; 109. a connecting rod; 110. a second U-shaped plate; 111. a second connecting column; 112. a lower arc clamp; 201. a bidirectional screw rod; 202. a first rotating electric machine; 203. a synchronous pulley I; 204. a transmission belt; 205. a synchronous belt pulley II; 206. a slide body; 207. a second rotating electric machine; 208. an upper arc clamp; 209. and (5) through grooves.

Detailed Description

For a better understanding of the present utility model, the following examples are set forth to further illustrate the utility model, but are not to be construed as limiting the utility model. In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details.

As shown in FIG. 1, the wind power blade transportation fixing clamp comprises a T-shaped frame body 101, wherein reinforcing rods 102 are arranged at the side ends of the T-shaped frame body 101, a plurality of vertical supporting rods 103 are arranged at the bottom of the T-shaped frame body 101, through grooves 209 are respectively formed in the front side end and the rear side end of the T-shaped frame body 101, an ascending mechanism is arranged at the lower end of the T-shaped frame body, and a descending mechanism is arranged at the upper end of the T-shaped frame body 101.

As shown in fig. 1 and 2, the lifting mechanism comprises a fixed block 104 arranged at the top of a plurality of support rods 103, a groove 105 is formed in the middle of the fixed block 104, two sliding blocks 106 are arranged at the bottom of the groove 105 along the left-right direction, threaded holes are respectively formed in the middle of the two sliding blocks 106, a first U-shaped plate 107 is respectively arranged at the top of the two sliding blocks 106, connecting rods 109 are respectively arranged at the middle of the two first U-shaped plates 107, connecting posts 108 penetrating through the first U-shaped plate 107 are respectively arranged on the two connecting rods 109, a second U-shaped plate 110 is jointly arranged at the top of the two connecting rods 109, connecting posts two 111 penetrating through the top of the connecting rods 109 are arranged on the second U-shaped plate 110, a lower arc clamp 112 is arranged at the top of the second U-shaped plate 110, and a transmission module is arranged inside the groove 105.

As shown in fig. 1 and 3, the transmission module comprises a first rotating motor 202 arranged on the left side of the T-shaped frame 101, a bidirectional screw 201 in threaded connection with two sliding blocks 106 is arranged in the groove 105, and the bidirectional screw 201 is connected with the first rotating motor 202 through a coupling.

As shown in fig. 1 and 4, the descent mechanism includes a first synchronous pulley 203 respectively disposed at bottoms of left and right side walls of the T-shaped frame, a second synchronous pulley 205 respectively disposed at tops of left and right sides of the T-shaped frame 101, a driving belt 204 respectively disposed between the first two synchronous pulleys 203 and the second synchronous pulleys 205, sliding bodies 206 connected with one side of the driving belt respectively disposed in through grooves 209 of left and right sides of the T-shaped frame 101, an upper arc clamp 208 jointly disposed in middle portions of the two sliding bodies 206, a second rotating motor 207 connected with the first synchronous pulley 203 disposed at another side of the first synchronous pulley 203, and a welding connection between the supporting rod 103 and the T-shaped frame 101 and a welding connection between the reinforcing rod 102 and the T-shaped frame 101.

The user can see at first that the side of T shape support body 101 is provided with stiffener 102, the bottom of T shape support body 101 is provided with a plurality of vertical bracing pieces 103 that set up, the setting of these member makes T shape support body 101 more firm durable when using, start first rotating electrical machines 202, the start-up of first rotating electrical machines 202 drives bi-directional lead screw 201 and rotates, and then drive the slip of two sliders 106 inside recess 105, and then drive and slider 106 top first U-shaped plate 107 articulated connecting rod 109 and rotate, thereby drive first U-shaped plate 107 and upwards or the decurrent removal, thereby drive down circular arc clamp 112 and remove, with the adaptation carries out the centre gripping to the wind-powered electricity blade of different heights, start second rotating electrical machines 207, the rotation of second rotating electrical machines 207 drives, synchronous pulley one 203 rotates, synchronous pulley one 203's rotation drives the drive belt 204 and rotates, and then drive synchronous pulley two 205 rotate, the rotation of drive slider 206 reciprocates, the middle part of slider 206 jointly drives upward clamp 208 and carries out the centre gripping with the blade, the top of second U-shaped plate 110 and down through the wind-powered electricity blade that connects between the top of second U-shaped plate 110 and the lower circular arc clamp 112 and the wind-powered electricity generation blade of different height, and the circular arc clamp 112 can be more suitable for the top of the circular arc of the wind-powered electricity generation blade.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (7)

1. Wind-powered electricity generation blade transportation mounting fixture, including T shape support body (101), its characterized in that: the T-shaped support is characterized in that a reinforcing rod (102) is arranged at the side end of the T-shaped support body (101), a plurality of vertical supporting rods (103) are arranged at the bottom of the T-shaped support body (101), through grooves (209) are respectively formed in the front side end and the rear side end of the T-shaped support body (101), an ascending mechanism is arranged at the lower end of the T-shaped support body, and a descending mechanism is arranged at the upper end of the T-shaped support body (101).

2. The wind power blade transportation fixing jig according to claim 1, wherein: climbing mechanism is including setting up fixed block (104) at a plurality of bracing pieces (103) top, the middle part of fixed block (104) is provided with recess (105), the bottom of recess (105) is provided with two sliders (106) along controlling the direction, the middle part of two sliders (106) is provided with the screw hole respectively, the top of two sliders (106) is provided with first U-shaped board (107) respectively, the middle part of two first U-shaped boards (107) is provided with connecting rod (109) respectively, be provided with spliced pole one (108) that runs through first U-shaped board (107) on two connecting rods (109) respectively, the top of two connecting rods (109) is provided with second U-shaped board (110) jointly, be provided with spliced pole two (111) that run through connecting rod (109) top on second U-shaped board (110), the top of second U-shaped board (110) is provided with down circular arc clamp (112), the inside transmission module that is provided with of recess (105).

3. A wind power blade transportation fixture as defined in claim 2, wherein: the transmission module comprises a first rotating motor (202) arranged on the left side of the T-shaped frame body (101), and a bidirectional screw rod (201) in threaded connection with the two sliding blocks (106) is arranged in the groove (105).

4. A wind power blade transportation fixture as claimed in claim 3, wherein: the descending mechanism comprises first synchronous pulleys (203) which are respectively arranged at the bottoms of the side walls of the left side and the right side of the T-shaped frame body (101), second synchronous pulleys (205) are respectively arranged at the tops of the left side and the right side of the T-shaped frame body (101), driving belts (204) are respectively arranged between the first synchronous pulleys (203) and the second synchronous pulleys (205), sliding bodies (206) which are connected with one side of the driving belts are respectively arranged in through grooves (209) on the left side and the right side of the T-shaped frame body (101), upper arc clamps (208) are jointly arranged in the middle of the two sliding bodies (206), and a second rotating motor (207) which is connected with the first synchronous pulleys (203) is arranged on the other side of the two synchronous pulleys (203).

5. The wind power blade transportation fixing clamp according to claim 4, wherein: the bidirectional screw rod (201) is connected with the first rotating motor (202) through a coupling.

6. The wind power blade transportation fixing clamp according to claim 5, wherein: the support rods (103) are connected with the T-shaped frame body (101) in a welding mode.

7. The wind power blade transportation fixing clamp as claimed in claim 6, wherein: the reinforcing rod (102) is welded with the T-shaped frame body (101).