CN220998559U - Cylinder clamp for wind power girder plate rolling - Google Patents

Abstract

The utility model relates to a cylinder clamp for wind power girder plate winding, which comprises a frame, wherein a cylinder, an upper clamping seat and a lower clamping seat are arranged on the frame from top to bottom, the cylinder body of the cylinder is fixedly arranged on the frame, the piston end of the cylinder is connected with the upper clamping seat, the cylinder drives the upper clamping seat to move up and down, the lower clamping seat is fixedly arranged on the frame, and an adsorption mechanism is arranged on the lower clamping seat; the adsorption mechanism comprises an adsorption hole and two adsorption components, a cavity is formed in the lower clamping seat, the adsorption hole is formed in the top of the lower clamping seat, the adsorption hole is communicated with the cavity, and the two adsorption components are respectively located on two sides of the adsorption hole; the adsorption component comprises a through hole, a movable rod and a transmission unit, and the air cylinder clamp for wind power girder plate rolling is used for clamping materials through the upper clamping seat and the lower clamping seat and is used for adsorbing the materials through the adsorption hole, so that the material clamping stability is improved, and the clamped materials are prevented from falling off.

Description

Cylinder clamp for wind power girder plate rolling

Technical Field

The utility model relates to a cylinder clamp for wind power girder plate rolling, and belongs to the technical field of rolling.

Background

Along with the continuous development of wind power related industry, the length of wind power blades is increased, the weight of the blades is increased, and the load of a fan is increased due to the weight of the blades, so that the power of the fan is influenced, and the weight-reducing performance requirement of the blades is also urgent; wind blades are typically made from continuous fibers and reinforced resin based composites that are produced by pultrusion. The composite material is rolled by a rolling device in the production process by using a pultrusion device, and one end of the composite material is fixed on a reel of the rolling device by a clamp during rolling;

The utility model patent with the application number of CN201320401300.1 discloses a cylinder clamp, which comprises a base, a guide rail, a sliding block and a cylinder, wherein the cylinder is fixedly arranged on the side surface of the base, a piston rod head of the cylinder passes through the side surface of the base and is connected with the upper part of the sliding block, the lower part of the sliding block is sleeved on the guide rail, the piston rod head of the cylinder is provided with a part with a through hole, the upper part of the sliding block is provided with a plurality of through holes which are axially arranged and have the same size, the clamp also comprises a screw and a nut, the screw passes through the through hole on the piston rod head of the cylinder and the corresponding through hole on an adjusting device at the same time and is screwed by the nut, and the relative displacement of the cylinder and the sliding block is increased, so that the adjusting range of the clamp is enlarged, thereby achieving the aim of clamping workpieces with various sizes.

Therefore, a cylinder clamp for wind power girder plate rolling is needed, and clamping stability is improved.

Disclosure of utility model

The utility model aims to solve the technical problems that: in order to overcome the defects in the prior art, the air cylinder clamp for wind power girder plate rolling, which improves the clamping stability, is provided.

The utility model solves the problems by adopting the following technical scheme: the cylinder clamp for wind power girder plate winding comprises a frame, wherein a cylinder, an upper clamping seat and a lower clamping seat are arranged on the frame from top to bottom, a cylinder body of the cylinder is fixedly arranged on the frame, a piston end of the cylinder is connected with the upper clamping seat, the cylinder drives the upper clamping seat to move up and down, the lower clamping seat is fixedly arranged on the frame, and an adsorption mechanism is arranged on the lower clamping seat;

The adsorption mechanism comprises an adsorption hole and two adsorption components, a cavity is formed in the lower clamping seat, the adsorption hole is formed in the top of the lower clamping seat, the adsorption hole is communicated with the cavity, and the two adsorption components are respectively located on two sides of the adsorption hole;

The adsorption component comprises a through hole, a moving rod and a transmission unit, wherein the through hole is formed in the outer side wall of the lower clamping seat, the through hole is communicated with the cavity, one end of the moving rod is located in the cavity, the other end of the moving rod is inserted into the through hole, the moving rod is slidably and hermetically connected with the through hole, the moving rod is elastically connected with the lower clamping seat, the transmission unit is arranged on the moving rod, the transmission unit is connected with the upper clamping seat, and the transmission unit is used for controlling the volume of the moving rod extending into the cavity through lifting of the upper clamping seat.

Preferably, a plurality of adsorption holes are formed, and the plurality of adsorption holes are distributed in a matrix.

Preferably, the lower clamp comprises a lower base and a cover plate, a cover plate groove is formed in the top of the lower base, the cover plate is located in the cover plate groove, the cover plate is detachably and fixedly connected with the lower base through screws, and the adsorption holes are formed in the cover plate.

Preferably, the top of the cover plate and the top of the lower seat body are in the same plane.

Preferably, a connecting plate is fixedly arranged at one end of the moving rod, which is positioned in the cavity, a spring is arranged on the connecting plate, the spring is positioned at one side of the connecting plate, which is close to the moving rod, and the connecting plate is connected with the inner wall of the cavity through the spring.

Preferably, the transmission unit comprises a magnet block and a lifting plate, wherein the magnet block is fixedly arranged at one end of the moving rod, which is positioned outside the cavity, the lifting plate is fixedly arranged on the upper clamping seat, the lifting plate is positioned above the lower clamping seat, and the lifting plate is positioned at one side, far away from the moving rod, of the magnet block.

Preferably, the lifter plate is made of iron.

Preferably, a connecting seat is arranged between the air cylinder and the upper clamping seat, the connecting seat is fixedly arranged at the piston end of the air cylinder, and the upper clamping seat is fixedly arranged on the connecting seat.

Preferably, two guide shafts are arranged on the frame in a penetrating manner, the two guide shafts are arranged left and right, the guide shafts are parallel to the up-down direction, and the guide shafts are fixedly arranged on the connecting seat.

Preferably, the two adsorption assemblies are distributed left and right, and the moving rod is parallel to the left and right direction.

Compared with the prior art, the utility model has the advantages that:

according to the cylinder clamp for wind power girder plate rolling, materials are clamped through the upper clamping seat and the lower clamping seat, and meanwhile, the materials are adsorbed through the adsorption holes, so that the material clamping stability is improved, and the clamped materials are prevented from falling off.

Drawings

FIG. 1 is a perspective view of a cylinder clamp for wind power girder plate winding;

FIG. 2 is a front view of a cylinder clamp for wind power girder plate winding;

FIG. 3 is a top view of a cylinder clamp for wind power girder plate winding;

FIG. 4 is a left side view of a cylinder clamp for wind power girder plate winding;

FIG. 5 is a perspective view of the lower holder;

FIG. 6 is a cross-sectional view of FIG. 5;

FIG. 7 is a perspective view of the lower housing;

FIG. 8 is a schematic structural view of an adsorption module;

Fig. 9 is a perspective view of the upper holder.

Wherein:

The device comprises a frame 1, an air cylinder 2, a connecting seat 3, an upper clamping seat 4, a lower clamping seat 5, a guide shaft 6 and an adsorption mechanism 7;

Lower seat 51, cover plate 52, screw 53, cover plate groove 54;

an adsorption assembly 71, an adsorption hole 72, and a cavity 73;

Through hole 711, moving rod 712, transmission unit 713, connection plate 714, spring 715;

magnet block 7131, lifter plate 7132.

Detailed Description

As shown in fig. 1-9, the air cylinder clamp for wind power girder plate winding in the embodiment comprises a frame 1, wherein an air cylinder 2, a connecting seat 3, an upper clamping seat 4 and a lower clamping seat 5 are arranged on the frame 1, the air cylinder 2, the connecting seat 3, the upper clamping seat 4 and the lower clamping seat 5 are arranged from top to bottom, a cylinder body of the air cylinder 2 is fixedly arranged on the frame 1, a piston end of the air cylinder 2 is connected with the connecting seat 3, the air cylinder 2 drives the connecting seat 3 to move up and down, the upper clamping seat 4 is fixedly arranged on the connecting seat 3, the lower clamping seat 5 is fixedly arranged on the frame 1, and an adsorption mechanism 7 is arranged on the lower clamping seat 5;

the adsorption mechanism 7 comprises two adsorption components 71 and a plurality of adsorption holes 72, a cavity 73 is formed in the lower clamping seat 5, the adsorption holes 72 are formed in the top of the lower clamping seat 5, the adsorption holes 72 are distributed in a matrix, the adsorption holes 72 are communicated with the cavity 73, the two adsorption components 71 are respectively located on two sides of the adsorption holes 72, and air pressure in the cavity 73 is regulated through the adsorption components 71;

The lower clamping seat 5 comprises a lower seat body 51 and a cover plate 52, a cover plate groove 54 is formed in the top of the lower seat body 51, the cover plate 52 is located in the cover plate groove 54, the cover plate 52 is detachably and fixedly connected with the lower seat body 51 through a screw 53, the adsorption hole 72 is formed in the cover plate 52, and the top of the cover plate 52 and the top of the lower seat body 51 are located on the same plane;

The adsorption assembly 71 comprises a through hole 711, a moving rod 712 and a transmission unit 713, wherein the through hole 711 is arranged on the outer side wall of the lower clamping seat 5, the through hole 711 is communicated with the cavity 73, the moving rod 712 is parallel to the left-right direction, one end of the moving rod 712 is positioned in the cavity 73, the other end of the moving rod 712 is inserted into the through hole 711, the moving rod 712 is slidably and hermetically connected with the through hole 711, the moving rod 712 is elastically connected with the lower clamping seat 5, the transmission unit 713 is arranged on the moving rod 712, the transmission unit 713 is connected with the upper clamping seat 4, and the transmission unit 713 controls the volume of the moving rod 712 extending into the cavity 73 through the lifting of the upper clamping seat 4;

A connecting plate 714 is fixedly arranged at one end of the moving rod 712, which is positioned in the cavity 73, a spring 715 is arranged on the connecting plate 714, the spring 715 is positioned at one side of the connecting plate 714, which is close to the moving rod 712, and the connecting plate 714 is connected with the inner wall of the cavity 73 through the spring 715;

The transmission unit 713 comprises a magnet block 7131 and a lifting plate 7132, wherein the magnet block 7131 is fixedly arranged at one end of the moving rod 712, which is positioned outside the cavity 73, the lifting plate 7132 is fixedly arranged on the upper clamping seat 4, the lifting plate 7132 is positioned above the lower clamping seat 5, and the lifting plate 7132 is positioned at one side of the magnet block 7131, which is far away from the moving rod 712;

The lifting plate 7132 is made of iron;

Two guide shafts 6 are arranged on the frame 1 in a penetrating manner, the two guide shafts 6 are arranged left and right, the guide shafts 6 are parallel to the up-down direction, and the guide shafts 6 are fixedly arranged on the connecting seat 3;

When the material is rolled, one end of the material is placed between the upper clamping seat 4 and the lower clamping seat 5, the material is attached to the top of the upper clamping seat 4 and blocks the adsorption hole 72, then the connecting seat 3 is driven by the air cylinder 2 to descend, the upper clamping seat 4 is driven by the descending of the connecting seat 3 to descend synchronously until the lower clamping seat 5 is attached to the material and clamped, and thus, the end part of the material is fixed;

The lower clamping seat 5 descends and drives the lifting plate 7132 to synchronously descend, along with the reduction of the distance between the lifting plate 7132 and the magnet block 7131, the magnetic attraction between the lifting plate 7132 and the magnet block 7131 is larger than the elastic acting force of the spring 715, so that the magnet block 7131 drives the moving rod 712 to move, the volume of the moving rod 712 inserted into the cavity 73 is reduced, and meanwhile, the spring 715 is deformed, so that the air pressure in the cavity 73 and the adsorption hole 72 is reduced, the adsorption hole 72 adsorbs materials under the action of the air pressure, and the material clamping stability is improved;

After the material is rolled, the air cylinder 2 drives the connecting seat 3 to ascend to realize resetting, at the moment, the distance between the lifting plate 7132 and the magnet block 7131 is increased, namely the magnetic attraction between the lifting plate 7132 and the magnet block 7131 is smaller than the elastic acting force of the spring 715, so that the spring 715 drives the connecting plate 714 to move reversely, namely the moving rod 712 and the magnet block 7131 are driven to move reversely to realize resetting, the volume of the moving rod 712 inserted into the cavity 73 is increased, the air pressure in the cavity 73 and the adsorption hole 72 is restored, the adsorption hole 72 stops adsorbing the material, and the end part of the material can be removed normally;

In addition to the above embodiments, the present utility model also includes other embodiments, and all technical solutions that are formed by equivalent transformation or equivalent substitution should fall within the protection scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a wind-powered electricity generation girder cylinder (2) anchor clamps for panel rolling, includes frame (1), top-down is provided with cylinder (2), goes up cassette (4) and lower cassette (5) on frame (1), the cylinder body of cylinder (2) is fixed to be set up on frame (1), the piston end and the last cassette (4) of cylinder (2) are connected, the upper cassette (4) of cylinder (2) drive reciprocates, lower cassette (5) are fixed to be set up on frame (1), its characterized in that: an adsorption mechanism (7) is arranged on the lower clamping seat (5);

The adsorption mechanism (7) comprises an adsorption hole (72) and two adsorption components (71), a cavity (73) is formed in the lower clamping seat (5), the adsorption hole (72) is formed in the top of the lower clamping seat (5), the adsorption hole (72) is communicated with the cavity (73), and the two adsorption components (71) are respectively located on two sides of the adsorption hole (72);

The adsorption component (71) comprises a through hole (711), a moving rod (712) and a transmission unit (713), wherein the through hole (711) is formed in the outer side wall of the lower clamping seat (5), the through hole (711) is communicated with the cavity (73), one end of the moving rod (712) is located in the cavity (73), the other end of the moving rod (712) is inserted into the through hole (711), the moving rod (712) is slidably and hermetically connected with the through hole (711), the moving rod (712) is elastically connected with the lower clamping seat (5), the transmission unit (713) is arranged on the moving rod (712), the transmission unit (713) is connected with the upper clamping seat (4), and the transmission unit (713) is used for controlling the volume of the moving rod (712) extending into the cavity (73) through lifting of the upper clamping seat (4).

2. The cylinder (2) clamp for wind power girder plate rolling according to claim 1, wherein: the adsorption holes (72) are arranged in a plurality, and the adsorption holes (72) are distributed in a matrix.

3. The cylinder (2) clamp for wind power girder plate rolling according to claim 1, wherein: the lower clamping seat (5) comprises a lower seat body (51) and a cover plate (52), a cover plate groove (54) is formed in the top of the lower seat body (51), the cover plate (52) is located in the cover plate groove (54), the cover plate (52) is detachably and fixedly connected with the lower seat body (51) through a screw (53), and the adsorption hole (72) is formed in the cover plate (52).

4. A wind-powered electricity generation girder panel wind-up is with cylinder (2) anchor clamps according to claim 3, characterized in that: the top of the cover plate (52) and the top of the lower seat body (51) are positioned on the same plane.

5. The cylinder (2) clamp for wind power girder plate rolling according to claim 1, wherein: one end of the moving rod (712) located in the cavity (73) is fixedly provided with a connecting plate (714), a spring (715) is arranged on the connecting plate (714), the spring (715) is located on one side, close to the moving rod (712), of the connecting plate (714), and the connecting plate (714) is connected with the inner wall of the cavity (73) through the spring (715).

6. The cylinder (2) clamp for wind power girder plate rolling according to claim 1, wherein: the transmission unit (713) comprises a magnet block (7131) and a lifting plate (7132), wherein the magnet block (7131) is fixedly arranged at one end of the moving rod (712) outside the cavity (73), the lifting plate (7132) is fixedly arranged on the upper clamping seat (4), the lifting plate (7132) is positioned above the lower clamping seat (5), and the lifting plate (7132) is positioned at one side, far away from the moving rod (712), of the magnet block (7131).

7. The cylinder (2) clamp for wind power girder plate rolling according to claim 6, wherein: the lifting plate (7132) is made of iron.

8. The cylinder (2) clamp for wind power girder plate rolling according to claim 1, wherein: a connecting seat (3) is arranged between the air cylinder (2) and the upper clamping seat (4), the connecting seat (3) is fixedly arranged at the piston end of the air cylinder (2), and the upper clamping seat (4) is fixedly arranged on the connecting seat (3).

9. The cylinder (2) clamp for wind power girder plate rolling according to claim 8, wherein: two guide shafts (6) are arranged on the frame (1) in a penetrating mode, the two guide shafts (6) are arranged left and right, the guide shafts (6) are parallel to the upper and lower directions, and the guide shafts (6) are fixedly arranged on the connecting seat (3).

10. The cylinder (2) clamp for wind power girder plate rolling according to claim 1, wherein: the two adsorption assemblies (71) are distributed left and right, and the moving rod (712) is parallel to the left and right directions.