CN218290159U - Electrical construction hoisting frame for wind power generation - Google Patents

Abstract

The utility model discloses an electrical construction hoist and mount frame for wind power generation, include: the device comprises a concave box, a lifting support, a plurality of pulley blocks and a plurality of winches, wherein the pulley blocks are arranged on the lifting support, the winches are uniformly arranged on the lifting support and are respectively connected to the concave box through the pulley blocks, and an extrusion fixing structure and a conveying structure are arranged on the inner side of the concave box; the utility model relates to an electrical construction hoist and mount technical field stabilizes lift and propelling movement with electrical equipment through transport structure to reach the demand according to the difference and with electrical equipment propelling movement to different positions, the propelling movement has avoided empting of electrical equipment through extrusion fixed knot structure.

Description

Electrical construction hoisting frame for wind power generation

Technical Field

The utility model relates to an electrical construction hoist and mount technical field specifically is an electrical construction hoist and mount frame for wind power generation.

Background

During the electrical construction of wind power generation, electrical equipment such as a plurality of electrical cabinets and the like are often designed to have huge volumes and heavy weights, so a hoisting frame is needed to hoist heavy electrical equipment such as the electrical cabinets and the like.

In the lifting process, the conventional method is to install lifting rings on the tops of electrical equipment such as an electrical cabinet and the like, so that the condition that the top plate of the electrical cabinet is deformed and unhooked often occurs, and the product falls and is damaged, even personnel accidents occur. Although the simple hoisting bracket structure can support the bottom surface of the electrical cabinet to prevent unhooking during hoisting, the electrical cabinet is difficult to fix from the side surface during hoisting, the simple hoisting bracket structure cannot adapt to electrical equipment such as electrical cabinets with different widths, the universality is poor, and the electrical cabinet cannot be prevented from toppling over.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a wind power generation hoists frame with electric construction has solved current partial background technical problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an electrical construction hoisting frame for wind power generation, comprising: the device comprises a concave box, a lifting support, a plurality of pulley blocks and a plurality of winches, wherein the plurality of pulley blocks are arranged on the lifting support, the plurality of winches are uniformly arranged on the lifting support, the plurality of winches are respectively connected to the concave box through the plurality of pulley blocks, and an extrusion fixing structure and a conveying structure are arranged on the inner side of the concave box;

the conveying structure comprises: the device comprises a pair of concave limiting blocks, a plurality of convex limiting blocks, a movable plate, a pair of L-shaped limiting blocks, a concave bearing block, a driving threaded rod, a driving threaded pipe, a movable driver, two pairs of extrusion plates, two pairs of extrusion bolts and two pairs of extrusion bolt pipes;

the concave type stopper install in the inboard of concave type case, a plurality of protruding type stopper even install in on the movable plate, and a plurality of protruding type stopper activity cartridge respectively in a pair of the inboard of concave type stopper, a pair of L type stopper install in on the movable plate, concave type bearing block install in the inboard of concave type case, the drive block install in on the movable plate, drive screwed pipe cartridge in on the drive block, drive threaded rod cartridge in on the concave type bearing block, just drive threaded rod activity cartridge in the inboard of drive screwed pipe, the removal driving machine install in on the concave type bearing block, just the removal driving machine drive end connect in on the drive threaded rod, two pairs the extrusion bolt pipe cartridge respectively in a pair on the L type stopper, two pairs the extrusion bolt activity cartridge respectively in two pairs the inboard of extrusion bolt pipe, two pairs the extrusion board install respectively in on the extrusion bolt.

Preferably, the pressing fixing structure includes: the hydraulic pump is characterized by comprising a pair of convex extrusion blocks, a hydraulic pump, a hydraulic tank, a flow dividing pipe, a pair of square-shaped extrusion limiting blocks and a pair of convex inflatable cushions;

the hydraulic pump is characterized in that the concave box is provided with a pair of convex type telescopic grooves, the pair of convex type extrusion blocks are movably inserted into the inner sides of the pair of convex type telescopic grooves respectively, the hydraulic box is installed on the concave box, the hydraulic pump is installed on the hydraulic box, the flow dividing pipe is installed on the hydraulic pump, the flow dividing pipe is connected onto the pair of convex type telescopic grooves, the pair of clip extrusion limiting blocks are installed on the pair of convex type extrusion blocks respectively, and the pair of convex type inflatable cushions are installed on the pair of clip extrusion limiting blocks respectively.

Preferably, a plurality of lifting auxiliary pulleys are arranged on the female mould box.

Preferably, the concave box is provided with a rolling door.

Preferably, the two pairs of the extrusion plates are respectively provided with an extrusion friction rubber pad.

Preferably, the rolling door and the concave box are provided with magnetic locks.

The utility model provides an electric construction hoist and mount frame for wind power generation. The method has the following beneficial effects: this hoist and mount frame is under construction to electricity for wind power generation stabilizes lift and propelling movement with electrical equipment through transport structure to reach the position of difference with electrical equipment propelling movement according to the demand of difference, the propelling movement has avoided empting of electrical equipment through extrusion fixed knot structure.

Drawings

Fig. 1 is the utility model discloses a concave type case structural representation of electrical construction hoist and mount frame for wind power generation.

Fig. 2 is the utility model relates to a lifting support structure schematic diagram of wind power generation is with electric construction hoist and mount frame.

In the figure: 1. a concave mould box; 2. a lifting support; 3. a pulley block; 4. a winch; 5. a concave limiting block; 6. a convex limiting block; 7. moving the plate; 8. an L-shaped limiting block; 9. a concave bearing block; 10. a drive block; 11. driving the threaded rod; 12. driving the threaded pipe; 13. moving the driver; 14. a pressing plate; 15. Extruding the bolt; 16. extruding the bolt tube; 17. a convex extrusion block; 18. a hydraulic pump; 19. a hydraulic tank; 20. a shunt tube; 21. a clip-shaped extrusion limiting block; 22. a convex inflatable cushion.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

As shown in fig. 1-2, an electrical construction hoisting frame for wind power generation includes: the device comprises a concave box 1, a lifting support 2, a plurality of pulley blocks 3 and a plurality of winches 4, wherein the plurality of pulley blocks 3 are arranged on the lifting support 2, the plurality of winches 4 are uniformly arranged on the lifting support 2, the plurality of winches 4 are respectively connected to the concave box 1 through the plurality of pulley blocks 3, and an extrusion fixing structure and a conveying structure are arranged on the inner side of the concave box 1; the conveying structure comprises: the device comprises a pair of concave limiting blocks 5, a plurality of convex limiting blocks 6, a moving plate 7, a pair of L-shaped limiting blocks 8, a concave bearing block 9, a driving block 10, a driving threaded rod 11, a driving threaded pipe 12, a moving driver 13, two pairs of extrusion plates 14, two pairs of extrusion bolts 15 and two pairs of extrusion bolt 15 pipes; the pair of concave limiting blocks 5 are mounted on the inner side of the concave box 1, the plurality of convex limiting blocks 6 are uniformly mounted on the moving plate 7, the plurality of convex limiting blocks 6 are respectively and movably inserted into the inner sides of the pair of concave limiting blocks 5, the pair of L-shaped limiting blocks 8 are mounted on the moving plate 7, the concave bearing block 9 is mounted on the inner side of the concave box 1, the driving block is mounted on the moving plate 7, the driving threaded pipe 12 is inserted into the driving block 10, the driving threaded rod 11 is inserted into the concave bearing block 9, the driving threaded rod 11 is movably inserted into the inner side of the driving threaded pipe 12, the mobile driver 13 is mounted on the concave bearing block 9, the driving end of the mobile driver 13 is connected to the driving threaded rod 11, the two pairs of extrusion bolts 15 are respectively inserted into the pair of L-shaped limiting blocks 8, the two pairs of extrusion bolts 15 are respectively and movably inserted into the inner sides of the two pairs of extrusion bolts 15, and the two pairs of extrusion plates 14 are respectively mounted on the extrusion bolts 15; the extrusion fixing structure comprises: a pair of convex extrusion blocks 17, a hydraulic pump 18, a hydraulic tank 19, a shunt pipe 20, a pair of clip extrusion limiting blocks 21 and a pair of convex inflatable cushions 22; a pair of convex telescopic grooves are formed in the female die box 1, the pair of convex extrusion blocks 17 are respectively movably inserted into the inner sides of the pair of convex telescopic grooves, the hydraulic box 19 is mounted on the female die box 1, the hydraulic pump 18 is mounted on the hydraulic box 19, the flow dividing pipe 20 is mounted on the hydraulic pump 18, the flow dividing pipe 20 is connected to the pair of convex telescopic grooves, the pair of clip extrusion limiting blocks 21 are respectively mounted on the pair of convex extrusion blocks 17, and the pair of convex inflatable cushions 22 are respectively mounted on the pair of clip extrusion limiting blocks 21; a plurality of lifting auxiliary pulleys are arranged on the female mould box 1; the concave box 1 is provided with a rolling door; the two pairs of the extrusion plates 14 are respectively provided with an extrusion friction rubber pad; and magnetic locks are arranged on the rolling door and the concave box 1.

It should be noted that, in the above, the matching of the plurality of winches 4 and the plurality of pulley blocks 3 on the lifting support 2 is used to drive the concave box 1 thereon, so that the concave box 1 is lifted along the winches 4, and is simultaneously inserted into the inner sides of the pair of L-shaped stoppers 8 through the electrical equipment, by rotating the two pairs of extrusion bolts 15, the two pairs of extrusion bolts 15 are respectively lifted along the inner sides of the two pairs of extrusion bolts 15, the two pairs of extrusion bolts 15 respectively drive the extrusion plates 14 thereon, the two pairs of extrusion plates 14 fix the bottom end of the electrical equipment, and simultaneously, the movable driving machine 13 on the concave bearing block 9 is used to drive the movable threaded rod on the driving end 13 of the movable driving machine, and the movable threaded rod drives the driving threaded pipe 12 thereon, so that the driving threaded pipe 12 moves along the driving threaded rod 11, drive the drive block 10 on it through drive screwed pipe 12, drive movable plate 7 on it through drive block 10, through the cooperation of the protruding type stopper 6 of a plurality of and a pair of concave type stopper 5 on the movable plate 7, thereby reach the inboard of electrical equipment propelling movement concave type case 1 on the movable plate 7, simultaneously through hydraulic pump 18 with the inboard liquid pumping of hydraulic tank 19 to shunt tubes 20 inboard, through shunt tubes 20 with the inboard of liquid drainage to a pair of protruding type flexible groove, promote the protruding type extrusion piece 17 of a pair of protruding type flexible inslot side respectively through hydraulic pressure, drive back shape extrusion stopper 21 on it respectively through a pair of protruding type extrusion piece 17, drive protruding type inflatable packer 22 on it respectively through a pair of back shape extrusion stopper 21, through the relative movement of a pair of protruding type inflatable packer 22, thereby reach and carry out both sides extrusion spacing effect to electrical equipment.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

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

Claims (6)

1. An electrical construction hoisting frame for wind power generation, comprising: the hoisting device comprises a concave box, a lifting support, a plurality of pulley blocks and a plurality of winches, and is characterized in that the pulley blocks are arranged on the lifting support, the winches are uniformly arranged on the lifting support, the winches are respectively connected to the concave box through the pulley blocks, and an extrusion fixing structure and a conveying structure are arranged on the inner side of the concave box;

the conveying structure comprises: the device comprises a pair of concave limiting blocks, a plurality of convex limiting blocks, a movable plate, a pair of L-shaped limiting blocks, a concave bearing block, a driving threaded rod, a driving threaded pipe, a movable driving machine, two pairs of extrusion plates, two pairs of extrusion bolts and two pairs of extrusion bolt pipes;

the L-shaped limiting block is installed on the movable plate, the concave bearing block is installed on the inner side of the concave box, the driving block is installed on the movable plate, the driving threaded pipe is installed on the driving block in an inserting mode, the driving threaded rod is installed on the concave bearing block in an inserting mode, the driving threaded pipe is installed on the driving block, the driving threaded rod is installed on the concave bearing block in an inserting mode, the driving threaded rod is installed on the driving threaded pipe in an inserting mode, the driving threaded rod is installed on the inner side of the driving threaded pipe in an inserting mode, the mobile driving machine is installed on the concave bearing block, the driving end of the mobile driving machine is connected to the driving threaded rod, the two pairs of extrusion bolt pipes are installed on the L-shaped limiting blocks in an inserting mode, the two pairs of extrusion bolts are installed on the two pairs of extrusion bolt pipes in an inserting mode, and the two pairs of extrusion plates are installed on the extrusion bolts respectively.

2. The electrical construction hoisting frame for wind power generation according to claim 1, wherein the extrusion fixing structure comprises: the hydraulic pump is characterized by comprising a pair of convex extrusion blocks, a hydraulic pump, a hydraulic tank, a flow dividing pipe, a pair of square-shaped extrusion limiting blocks and a pair of convex inflatable cushions;

the hydraulic pump is characterized in that the concave box is provided with a pair of convex type telescopic grooves, the pair of convex type extrusion blocks are movably inserted into the inner sides of the pair of convex type telescopic grooves respectively, the hydraulic box is installed on the concave box, the hydraulic pump is installed on the hydraulic box, the flow dividing pipe is installed on the hydraulic pump, the flow dividing pipe is connected onto the pair of convex type telescopic grooves, the pair of clip extrusion limiting blocks are installed on the pair of convex type extrusion blocks respectively, and the pair of convex type inflatable cushions are installed on the pair of clip extrusion limiting blocks respectively.

3. The electrical construction hoisting frame for wind power generation as recited in claim 2, wherein a plurality of lifting auxiliary pulleys are provided on the concave box.

4. The electrical construction hoisting frame for wind power generation according to claim 3, wherein the concave box is provided with a rolling door.

5. The electrical construction hoisting frame for wind power generation according to claim 4, wherein two pairs of said extrusion plates are respectively provided with an extrusion friction rubber pad.

6. The electrical construction hoisting frame for wind power generation according to claim 5, wherein magnetic locks are arranged on the rolling door and the concave box.

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