CN215711090U - Electrical construction hoisting frame for wind power generation - Google Patents

Abstract

The utility model belongs to the technical field of electrical equipment, and particularly relates to an electrical construction hoisting frame for wind power generation. Compared with the prior art, the first closing plate, the second closing plate and the third closing plate can respectively close the rear end, the top end and the front end of the U-shaped hoisting shell, through the arrangement of the fixing component, when the hoisting frame is used for placing electrical equipment such as an electrical cabinet and the like, the stress on two sides is uniform, the stability and safety of the hoisting process are ensured, the first pressing block is uniformly provided with a plurality of first threaded holes along the length direction, the sliding block is provided with second threaded holes, the diameter of the second threaded holes is the same as that of the first threaded holes, the first pressing block and the second pressing block can be fixed through matched screws, make relative installation, dismantlement between first compact heap and the second compact heap very convenient, set up first link into the screw rod of outside extension, the second link sets up the through-hole, and the screw rod can pass the through-hole to it is fixed through the nut supporting with the screw rod.

Description

Electrical construction hoisting frame for wind power generation

Technical Field

The utility model belongs to the technical field of electrical equipment, and particularly relates to an electrical construction hoisting 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 the 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. The simple hoisting bracket structure can support the bottom surface of the electrical cabinet to prevent unhooking during hoisting, but the electrical cabinet is difficult to fix from the side surface during hoisting, the electrical equipment such as the electrical cabinet with different widths cannot be adapted, the universality is poor, and the electrical cabinet cannot be prevented from toppling over.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that in the prior art, an electrical cabinet is difficult to fix from the side surface during hoisting, the electrical cabinet 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.

The object of the utility model is achieved in the following way: the utility model provides an electrical construction hoisting frame for wind power generation, includes fixed subassembly, fixed subassembly includes supporting seat, motor, two-way screw rod, thread sleeve piece, vertical installation pole, first compact heap and second compact heap, set up the motor on the supporting seat, two-way screw rod is connected to the output of motor, and two thread sleeve pieces are established to symmetrical cover on the two-way screw rod, and thread sleeve piece top sets up vertical installation pole, sets up first compact heap on the vertical installation pole, sets up the second compact heap on the first compact heap, the supporting seat sets up in U type hoist and mount casing one end, and the bottom of U type hoist and mount casing sets up the installation cavity, and the U type hoist and mount casing bottom upper surface that the installation cavity runs through sets up the fluting, and the top symmetry of U type hoist and mount casing sets up two at least hoist and mount rings, the articulated first closed plate of U type hoist and mount casing one end, the articulated third link of U type hoist and mount casing one end, the articulated can with the top confined second link of U type hoist and mount casing .

The anti-skid device is characterized in that a sliding groove is formed in the first pressing block, the second pressing block is connected with the sliding block, the sliding groove is internally matched with the connecting sliding block, the first pressing block is evenly provided with at least two first threaded holes along the length direction, the sliding block is provided with at least two second threaded holes, the second threaded holes are the same as the first threaded holes in diameter, the first pressing block and the second pressing block penetrate through the second threaded holes through screws to be fixed with the first threaded holes, one side, opposite to the first pressing block, of each of the two pressing blocks is provided with a first anti-skid pad, and one side, opposite to the second pressing block, of each of the two pressing blocks is provided with a second anti-skid pad.

The position that is close to the top between the both sides face of U type hoist and mount casing evenly sets up two bracing pieces, and one side of U type hoist and mount casing is connected and can be done the rotation on the vertical plane at least for the connection face of U type hoist and mount casing, 360 degrees pivoted bracing piece one end even, and the bracing piece other end is detachable to be connected on the side of U type hoist and mount casing.

The bottom of one end of the U-shaped hoisting shell is provided with a first connecting end, one end of the third closing plate is connected with a second connecting end, the second connecting end is provided with a through hole, the first connecting end is an outwardly extending screw rod, and the screw rod is matched with and penetrates through the through hole.

Compared with the prior art, the rear end, the top end and the front end of the U-shaped hoisting shell can be respectively sealed by the first sealing plate, the second sealing plate and the third sealing plate, the hoisting frame is evenly stressed on two sides when electrical equipment such as an electrical cabinet and the like is placed through the arrangement of the fixing assembly, the stability and the safety of the hoisting process are ensured, the first pressing block is evenly provided with a plurality of first threaded holes along the length direction, the sliding block is provided with second threaded holes, the diameter of each second threaded hole is the same as that of each first threaded hole, the first pressing block and the second pressing block can be fixed through matched screws, the first pressing block and the second pressing block are very convenient to install and disassemble relatively, the first connecting end is provided with an outwardly extending screw rod, the second connecting end is provided with a through hole, the screw rod can penetrate through the through hole and is fixed through a nut matched with the screw rod, therefore, mutual connection and disassembly between the third closing plate and the U-shaped hoisting shell can be realized by rotating the nut, and the operation is convenient.

Drawings

FIG. 1 is a schematic view of an electrical construction hoisting frame for wind power generation;

FIG. 2 is a schematic cross-sectional view of a combination of a U-shaped hoisting shell and a fixing component of an electrical construction hoisting frame for wind power generation;

FIG. 3 is a schematic structural view of a combination of a threaded sleeve block, a vertical mounting rod, a first compression block and a second compression block of an electrical construction hoisting frame for wind power generation;

FIG. 4 is a perspective view of an electrical construction hoisting frame for wind power generation.

Wherein, the 100-U-shaped hoisting shell is arranged; 110-a mounting cavity; 130-slotting; 150-a first connection end; 170-hoisting rings; 190-support bar; 300-a stationary component; 310-a motor; 311-a support seat; 320-a bidirectional screw; 330-thread sleeve block; 340-vertical mounting rods; 350-a first compact; 351-a chute; 353 — first threaded hole; 355-a first cleat; 360-a second compact; 361-a slider; 3611-second threaded hole; 363-a second cleat; 510-a first closing plate; 530-a second closing plate; 550-a third closure panel; 551-second connection end; 5511-through holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The electric construction hoisting frame for wind power generation shown in the attached drawings 1 to 4 comprises a fixing component 300, wherein the fixing component 300 comprises a supporting seat 311, a motor 310, a bidirectional screw 320, a threaded sleeve block 330, a vertical mounting rod 340, a first pressing block 350 and a second pressing block 360, the motor 310 is arranged on the supporting seat 311, the supporting seat 311 is arranged at the bottom of the motor 310, the working stability of the motor 310 can be ensured, the service life of the motor 310 is prolonged, the output end of the motor 310 is connected with the bidirectional screw 320, the two threaded sleeve blocks 330 are symmetrically sleeved on the bidirectional screw 320, the vertical mounting rod 340 is arranged at the top of the threaded sleeve block 330, the first pressing block 350 is arranged on the vertical mounting rod 340, the second pressing block 360 is arranged on the first pressing block 350 and can be detachably connected through bolts, so that the maintenance and replacement of the first pressing block 350 are facilitated, the two vertical mounting rods 340 are slidably arranged in the slots 130, the two first pressing blocks 350 are correspondingly arranged, the two second pressing blocks 360 are arranged on the first pressing blocks 350, two opposite sleeve blocks sleeved on the bidirectional screw 320 move oppositely, so that the two first pressing blocks 350 are driven to be symmetrically pressed on the electrical equipment, the balance of the electrical equipment at the left and right positions is ensured, according to the specific size of the electrical equipment, the two second pressing blocks 360 are symmetrically fixed on each first pressing block 350, so that the balance fixation of the electrical equipment in the front and back directions is realized, the supporting seat 311 is arranged at one end of the U-shaped hoisting shell 100, the bottom of the U-shaped hoisting shell 100 is provided with the installation cavity 110, the upper surface of the bottom of the U-shaped hoisting shell 100, through which the installation cavity 110 penetrates, is provided with the slots 130, the top of the U-shaped hoisting shell 100 is symmetrically provided with at least two hoisting rings 170, the upper end of the U-shaped hoisting shell 100 is uniformly provided with a plurality of hoisting rings 170, and the specific connection mode can be welding, the stability of the hoisting ring 170 and the U-shaped hoisting casing 100 is ensured, one side of the first closing plate 510 is hinged to the bottom edge of the rear end of the U-shaped hoisting casing 100, one side of the second closing plate 530 is hinged to one end of the first closing plate 510, which is far away from the U-shaped hoisting casing 100, one side of the second closing plate 530, which is far away from the first closing plate 510, is hinged to the third closing plate 550, the first closing plate 510 can close the rear end of the U-shaped hoisting casing 100, the second closing plate 530 can close the top end of the U-shaped hoisting casing 100, the third closing plate 550 can close the front end of the U-shaped hoisting casing 100, so that the front, rear and top protection of the electrical equipment in the U-shaped hoisting casing 100 can be realized, one end of the third closing plate 550, which is far away from the second closing plate 530, is connected with the second connecting end 551, and the second connecting end 551 and the first connecting end 150 can be fixedly connected.

The first pressing block 350 is provided with a sliding groove 351, the second pressing block 360 is connected with a sliding block 361, the sliding groove 351 is connected with the sliding block 361 in a matched mode, the second pressing block 360 can be in sliding connection with the first pressing block 350, the random placement of the second pressing block 360 is reduced, the problem that the use is affected after the sliding block is lost is avoided, the first pressing block 350 is evenly provided with at least two first threaded holes 353 along the length direction, the sliding block 361 is provided with at least two second threaded holes 3611, the diameters of the second threaded holes 3611 are the same as those of the first threaded holes 353, the first pressing block 350 and the second pressing block 360 penetrate through the second threaded holes 3611 and the first threaded holes 353 through screws for fixing, so that the first pressing block 350 and the second pressing block 360 are quite convenient to install and disassemble relatively, one side opposite to the two first pressing blocks 350 is provided with a first anti-skid pad 355, and the friction force between the first pressing block 350 and the electric equipment to be hoisted is increased, the left and right clamping effects of the two opposite first pressing blocks 350 on the electric equipment to be hoisted are more effective, the two opposite sides of the second pressing blocks 360 are provided with the second anti-slip pads 363, the clamping effect of the two opposite second pressing blocks 360 on the front and back directions of the electric equipment is guaranteed, and the second pressing blocks 360 clamp the electric equipment more firmly.

Two support rods 190 are uniformly arranged at positions close to the top between the two side surfaces of the U-shaped hoisting shell 100, one side of the U-shaped hoisting shell 100 is connected with one end of the support rod 190 which can rotate on at least a vertical plane relative to the connecting surface of the U-shaped hoisting shell 100, even 360 degrees, the other end of the support rod 190 is detachably connected with the side surface of the U-shaped hoisting shell 100, the two support rods 190 are arranged in two, the two support rods 190 are uniformly arranged at positions close to the upper end between the two corresponding surfaces of the U-shaped hoisting shell 100, this ensures the balance of the support rod 190 for supporting the second closing plate 530, makes the assembly of the second closing plate 530 more stable, before electrical equipment such as regulator cubicle is ready to be hoisted, can pull down bracing piece 190 and U type hoist and mount casing 100 detachable one end, just can make electrical equipment such as regulator cubicle not take place to block when placing.

The bottom of one end of the U-shaped hoisting casing 100 is provided with a first connecting end 150, one end of the third closing plate 550 is connected with a second connecting end 551, the second connecting end 551 is provided with a through hole 5511, the first connecting end 150 is an outwardly extending screw rod, the screw rod is matched with and penetrates through the through hole 5511, the screw rod can penetrate through the through hole 5511 and is fixed through a nut matched with the screw rod, and therefore the relative installation and the relative disassembly between the first pressing block 350 and the second pressing block 360 are very convenient.

The working process of the utility model is as follows: firstly, the nut is unscrewed to separate the first connection end 150 from the second connection end 551, so that the first closing plate 510, the second closing plate 530 and the third closing plate 550 which are hinged to each other can be folded backwards, the detachable end of the support rod 190 is detached to expose the front part, the rear part and the top part of the U-shaped hoisting shell 100, then the electrical equipment is placed between the two first pressing blocks 350, the motor 310 is started to drive the two bidirectional screws 320 to rotate, the two sleeves move oppositely to drive the two first pressing blocks 350 to symmetrically press the electrical equipment, then the two second pressing blocks 360 are symmetrically fixed on each first pressing block 350 to realize the balanced pressing of the electrical equipment in the front-back and left-right directions, finally, the detachable end of the support rod 190 is installed to lift the first closing plate 510, and the second closing plate 530 is erected on the support rod 190, the third closing plate 550 closes the front end of the U-shaped hoisting casing 100, and the screw passes through the through hole 5511 and is fixed by the nut, so that the electrical equipment can be hoisted by the hoisting ring 170.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the overall concept of the present invention, and these should also be considered as the protection scope of the present invention.

Claims (4)

1. An electrical construction hoisting frame for wind power generation comprises a fixed assembly (300), wherein the fixed assembly (300) comprises a supporting seat (311), a motor (310), a bidirectional screw (320), a threaded sleeve block (330), a vertical installation rod (340), a first pressing block (350) and a second pressing block (360), the motor (310) is arranged on the supporting seat (311), the output end of the motor (310) is connected with the bidirectional screw (320), the two threaded sleeve blocks (330) are symmetrically sleeved on the bidirectional screw (320), the vertical installation rod (340) is arranged at the top of the threaded sleeve block (330), the first pressing block (350) is arranged on the vertical installation rod (340), the second pressing block (360) is arranged on the first pressing block (350), and the electric construction hoisting frame is characterized in that the supporting seat (311) is arranged at one end of a U-shaped hoisting shell (100), an installation cavity (110) is arranged at the bottom of the U-shaped hoisting shell (100), u type hoist and mount casing (100) bottom upper surface that installation cavity (110) run through sets up fluting (130), and the top symmetry of U type hoist and mount casing (100) sets up two at least hoist and mount rings (170), articulated first closing plate (510) of U type hoist and mount casing (100) one end, articulated third link (550) of U type hoist and mount casing (100) one end, the articulated of U type hoist and mount casing (100) one end can with the top confined second link (530) of U type hoist and mount casing.

2. The electrical construction hoisting frame for wind power generation according to claim 1, set up spout (351) on first compact heap (350), second compact heap (360) link block (361), spout (351) fit in link block (361), first compact heap (350) evenly sets up two at least first screw holes (353) along length direction, set up two at least second screw holes (3611) on slider (361), second screw hole (3611) is the same with the aperture of first screw hole (353), first compact heap (350) and second compact heap (360) are fixed through screw through second screw hole (3611) and first screw hole (353), two one side that first compact heap (350) is relative all is provided with first slipmat (355), two one side that second compact heap (360) is relative all is provided with second slipmat (363).

3. The electrical construction hoisting frame for wind power generation according to claim 1, wherein two support rods (190) are uniformly arranged between two side surfaces of the U-shaped hoisting shell (100) near the top, one side of the U-shaped hoisting shell (100) is connected with one end of the support rod (190) which can rotate on at least a vertical plane relative to the connecting surface of the U-shaped hoisting shell (100), even 360 degrees, and the other end of the support rod (190) is detachably connected with the side surface of the U-shaped hoisting shell (100).

4. The electrical construction hoisting frame for wind power generation according to claim 1, wherein a first connection end (150) is arranged at the bottom of one end of the U-shaped hoisting shell (100), one end of the third closing plate (550) is connected with the second connection end (551), a through hole (5511) is arranged on the second connection end (551), the first connection end (150) is an outwardly extending screw rod, and the screw rod is matched with and penetrates through the through hole (5511).

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