CN211946115U - Flexible floating FRP pipe hoisting accessory - Google Patents

Abstract

A telescopic floating type glass steel tube lifting device comprises a frame, a top extension mechanism and a clamping mechanism; the utility model discloses a rotate the rotation driving post to make the screw rod that floats reciprocate, and then drive the upper floating frame and reciprocate in the carriage top down, thereby change the size between the centre gripping that upper floating frame and carriage enclose down, thereby can adjust the interval size of centre gripping according to the glass steel pipe of equidimension not.

Description

Flexible floating FRP pipe hoisting accessory

Technical Field

The utility model relates to a flexible floating FRP pipe hoisting accessory.

Background

At present, in the production and processing of FRP pipe, need lift by crane mounting flange and other processing to whole FRP pipe, lift by crane the technique at present and be immature, mainly drive fixture through the top and stretch the mechanism and carry out the up-and-down motion, carry out the centre gripping location to FRP pipe through fixture, so can realize carrying out the handling to FRP pipe, but in the current handling structure, fixture can not adjust the height of centre gripping according to the size of different FRP pipe, and then make whole overhead hoist's use flexibility very poor, application range has received very big restriction.

Disclosure of Invention

To the weak point of above-mentioned prior art, the utility model provides a problem do: the telescopic floating type glass steel tube lifting device can adjust the clamping height according to the sizes of different glass steel tubes.

In order to solve the above problem, the utility model discloses the technical scheme who takes as follows:

a telescopic floating type glass steel tube lifting device comprises a frame, a top extension mechanism and a clamping mechanism; the rack is of a U-shaped structure; the jacking and extending mechanism is arranged at the lower end of the middle of the rack; the clamping mechanism comprises a lower connecting frame, an upper floating frame, a rotary driving column, a floating screw, a side rubber plate, an end rubber plate and a clamping rod; the outer side of the lower end of the lower connecting frame is arranged at the upper end of the top extension mechanism; two sides of the upper end of the lower connecting frame are respectively and rotatably connected with a rotary driving column; the lower end of the rotary driving column is rotatably clamped on the side part of the upper end of the lower connecting frame; the upper end of the rotary driving column is provided with an internal thread groove; two sides of the lower end of the upper floating frame are respectively provided with a floating screw; the lower end of the floating screw is in threaded connection with the inner thread groove at the upper end of the rotary driving column; the upper floating frame and the lower connecting frame are respectively arranged oppositely up and down and enclose a clamping area; two sides of the interior of the clamping area are respectively provided with a lateral rubber plate; the upper end and the lower end of the inside of the clamping area are respectively provided with an end rubber plate; the outer parts of two sides of the lower connecting frame are respectively provided with a clamping and connecting rod; the inner parts of the two sides of the rack are respectively provided with a sliding clamping groove distributed from top to bottom; the both sides of lower connecting frame slide joint on the slip joint groove through joint pole respectively.

Furthermore, the upper end and the lower end of the side rubber plate are respectively provided with a penetration block; the two sides of the lower connecting frame and the upper floating frame are respectively provided with a penetration groove; the lateral rubber plate is connected in the cross-connecting grooves of the lower connecting frame and the upper floating frame in a cross-connecting mode through cross-connecting blocks at two ends; the penetrating connection groove and the penetrating connection block are both in T-shaped structures.

Furthermore, the outer side surfaces of the end rubber plates are respectively provided with a butting block; the abutting block is provided with a threaded hole; the middle parts of the lower connecting frame and the upper floating frame are respectively provided with a butting groove; adjusting grooves are respectively arranged on the outer sides of the abutting grooves; a through hole is formed between the adjusting groove and the abutting groove; a positioning screw is respectively arranged in the adjusting grooves; the end rubber plates are inserted and installed in the abutting grooves through abutting blocks respectively; the end part of the positioning screw rod penetrates through the through hole and then is in threaded rotary connection with the threaded hole of the abutting block.

Further, the lower end of the rotary driving column is provided with rotary clamping teeth; two sides of the upper end of the lower connecting frame are respectively provided with a rotary clamping groove; the rotary driving column is rotationally clamped on the rotary clamping grooves on two sides of the upper end of the lower connecting frame through the rotary clamping teeth at the lower end.

Further, the lower connecting frame is of a U-shaped structure; the upper floating frame is of an inverted U-shaped structure.

Furthermore, the top extension mechanism is a telescopic cylinder.

The beneficial effects of the utility model

1. The utility model discloses a rotate the rotation driving post to make the screw rod that floats reciprocate, and then drive the upper floating frame and reciprocate in the carriage top down, thereby change the size between the centre gripping that upper floating frame and carriage enclose down, thereby can adjust the interval size of centre gripping according to the glass steel pipe of equidimension not.

2. The utility model discloses the equal swing joint of lateral part rubber slab and tip rubber slab in the centre gripping interval, the cross-under piece cross-under at both ends of lateral part rubber slab passes through the cross-under inslot of lower carriage and last carriage, and screw thread swivelling joint is in the threaded hole of butt joint piece behind the cross-under hole is passed through positioning screw, so realized the equal swing joint of lateral part rubber slab and tip rubber slab, it is convenient to change, has avoided colliding with of glass steel pipe.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic structural view of the clamping mechanism of the present invention.

Detailed Description

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

As shown in fig. 1 and 2, a telescopic floating type glass reinforced plastic pipe hoisting device comprises a frame 1, a top extension mechanism 2 and a clamping mechanism 3; the frame 1 is of a U-shaped structure; the jacking and extending mechanism 2 is arranged at the lower end of the middle of the rack 1; the clamping mechanism 3 comprises a lower connecting frame 31, an upper floating frame 32, a rotary driving column 33, a floating screw 37, a side rubber plate 35, an end rubber plate 36 and a clamping rod 34; the outer side of the lower end of the lower connecting frame 31 is arranged at the upper end of the top extension mechanism 2; two sides of the upper end of the lower connecting frame 31 are respectively and rotatably connected with a rotary driving column 33; the lower end of the rotary driving column 33 is rotatably clamped on the upper end side part of the lower connecting frame 31; the upper end of the rotary driving column 33 is provided with an internal thread groove 332; two sides of the lower end of the upper floating frame 32 are respectively provided with a floating screw 37; the lower end of the floating screw rod 37 is in threaded connection with the inner thread groove 332 at the upper end of the rotary driving column 33; the upper floating frame 32 and the lower connecting frame 31 are respectively arranged oppositely up and down and enclose a clamping area; two sides of the interior of the clamping area are respectively provided with a lateral rubber plate 35; the upper end and the lower end of the interior of the clamping area are respectively provided with an end rubber plate 36; the clamping rods 34 are respectively arranged outside the two sides of the lower connecting frame 31; the two sides of the frame 1 are respectively provided with a sliding clamping groove 11 distributed from top to bottom; both sides of the lower connection frame 31 are slidably engaged with the sliding engagement grooves 11 through engagement rods 34, respectively.

As shown in fig. 1 and 2, it is further preferable that the upper and lower ends of the side rubber plate 35 are respectively provided with a penetration block 351; the two sides of the lower connecting frame 31 and the upper floating frame 32 are respectively provided with a penetration groove 4; the lateral rubber plate 35 is inserted into the insertion grooves 4 of the lower connecting frame 31 and the upper floating frame 32 through the insertion blocks 351 at the two ends; the penetration groove 4 and the penetration block 351 are both in T-shaped structures. Further, the outer side surfaces of the end rubber plates 36 are respectively provided with a butting block 361; a threaded hole is formed in the abutting block 361; the middle parts of the lower connecting frame 31 and the upper floating frame 32 are respectively provided with a butt joint groove 5; the outer sides of the abutting grooves 5 are respectively provided with an adjusting groove 6; a through hole is arranged between the adjusting groove 6 and the abutting groove 5; a positioning screw 7 is respectively arranged in the adjusting grooves 6; the end rubber plates 36 are inserted into the abutting grooves 5 through abutting blocks 361; the end of the positioning screw 7 passes through the through hole and then is in threaded rotary connection with the threaded hole of the abutting block 361. Further, the lower end of the rotary driving column 33 is provided with a rotary clamping tooth 331; the two sides of the upper end of the lower connecting frame 31 are respectively provided with a rotary clamping groove 311; the rotary driving column 33 is rotatably engaged with the rotary engaging grooves 311 at both sides of the upper end of the lower connecting frame 31 by the rotary engaging teeth 331 at the lower end. Further, the lower connecting frame 31 is of a U-shaped structure; the upper floating frame 32 is of an inverted U-shaped structure. Further, the jacking mechanism 2 is a telescopic cylinder.

The utility model discloses a rotate rotary driving post 33 to make unsteady screw rod 37 reciprocate, and then drive upper floating frame 32 and reciprocate in the lower connecting frame top, thereby change the size between the centre gripping that upper floating frame 32 and lower connecting frame 31 enclose, thereby can adjust the interval size of centre gripping according to the glass steel pipe of equidimension not. The utility model discloses the interval interior equal swing joint of lateral part rubber slab 35 and tip rubber slab 36 of centre gripping is between the centre gripping, lateral part rubber slab 35 cross-under through the cross-under block 351 cross-under at both ends is in the cross-under groove 4 of lower connecting frame 31 and last floating frame 32, tip rubber slab 36 passes cross-under hole back screw thread swivelling joint in the threaded hole of butt joint block 361 through positioning screw 7, so realized the equal swing joint of lateral part rubber slab 35 and tip rubber slab 36, it is convenient to change, the glass steel pipe has been avoided colliding with.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A telescopic floating type glass steel tube lifting device is characterized by comprising a rack, a top stretching mechanism and a clamping mechanism; the rack is of a U-shaped structure; the jacking and extending mechanism is arranged at the lower end of the middle of the rack; the clamping mechanism comprises a lower connecting frame, an upper floating frame, a rotary driving column, a floating screw, a side rubber plate, an end rubber plate and a clamping rod; the outer side of the lower end of the lower connecting frame is arranged at the upper end of the top extension mechanism; two sides of the upper end of the lower connecting frame are respectively and rotatably connected with a rotary driving column; the lower end of the rotary driving column is rotatably clamped on the side part of the upper end of the lower connecting frame; the upper end of the rotary driving column is provided with an internal thread groove; two sides of the lower end of the upper floating frame are respectively provided with a floating screw; the lower end of the floating screw is in threaded connection with the inner thread groove at the upper end of the rotary driving column; the upper floating frame and the lower connecting frame are respectively arranged oppositely up and down and enclose a clamping area; two sides of the interior of the clamping area are respectively provided with a lateral rubber plate; the upper end and the lower end of the inside of the clamping area are respectively provided with an end rubber plate; the outer parts of two sides of the lower connecting frame are respectively provided with a clamping and connecting rod; the inner parts of the two sides of the rack are respectively provided with a sliding clamping groove distributed from top to bottom; the both sides of lower connecting frame slide joint on the slip joint groove through joint pole respectively.

2. The telescopic floating type FRP pipe hoisting device as claimed in claim 1, wherein the upper and lower ends of the side rubber plates are respectively provided with a penetration block; the two sides of the lower connecting frame and the upper floating frame are respectively provided with a penetration groove; the lateral rubber plate is connected in the cross-connecting grooves of the lower connecting frame and the upper floating frame in a cross-connecting mode through cross-connecting blocks at two ends; the penetrating connection groove and the penetrating connection block are both in T-shaped structures.

3. The telescopic floating type FRP pipe hoisting device as claimed in claim 1, wherein the outer side surfaces of the end rubber plates are respectively provided with a butting block; the abutting block is provided with a threaded hole; the middle parts of the lower connecting frame and the upper floating frame are respectively provided with a butting groove; adjusting grooves are respectively arranged on the outer sides of the abutting grooves; a through hole is formed between the adjusting groove and the abutting groove; a positioning screw is respectively arranged in the adjusting grooves; the end rubber plates are inserted and installed in the abutting grooves through abutting blocks respectively; the end part of the positioning screw rod penetrates through the through hole and then is in threaded rotary connection with the threaded hole of the abutting block.

4. The telescopic floating type FRP pipe hoisting device as claimed in claim 1, wherein the lower end of the rotary driving column is provided with rotary clamping teeth; two sides of the upper end of the lower connecting frame are respectively provided with a rotary clamping groove; the rotary driving column is rotationally clamped on the rotary clamping grooves on two sides of the upper end of the lower connecting frame through the rotary clamping teeth at the lower end.

5. The telescopic floating type FRP pipe hoisting device as claimed in claim 1, wherein the lower connecting frame is in a U-shaped structure; the upper floating frame is of an inverted U-shaped structure.

6. The telescopic floating type FRP pipe lifting device as claimed in claim 1, wherein the jacking mechanism is a telescopic cylinder.

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