CN110921498A - Quick lifting appliance for concrete precast box girder - Google Patents

Abstract

The invention belongs to the field of hoisting of precast concrete box girders, and particularly relates to a quick hoisting tool for precast concrete box girders, which comprises a left hoisting device and a right hoisting device, wherein the left hoisting device and the right hoisting device are provided with adjusting devices for adjusting the distance between the left hoisting device and the right hoisting device, the left hoisting device and the right hoisting device have the same structure and respectively comprise an L-shaped support, a first positioning mechanism and a second positioning mechanism, the first positioning mechanism is arranged on the upper half part of the L-shaped support, the second positioning mechanism is arranged on the lower half part of the L-shaped support, the bottom of the L-shaped support is provided with two auxiliary travelling wheels which are symmetrically arranged, and the top of the L-shaped support is provided with two hanging rings which are symmetrically arranged. The invention can quickly lift the prefabricated box girders with different specifications without binding the steel wire ropes, and the mutual friction between the steel wire ropes and the prefabricated box girders can not be generated in the lifting process, thereby improving the lifting safety.

Description

Quick lifting appliance for concrete precast box girder

Technical Field

The invention belongs to the field of hoisting of concrete precast box girders, and particularly relates to a quick hoisting tool for a concrete precast box girder.

Background

When the concrete precast box girder is hoisted, because the concrete precast box girder has a large volume and is not easy to fix, the concrete precast box girder is generally hoisted by hoisting equipment after being bound by a steel wire rope. The hoisting mode is premised that a gap enough for the steel wire rope to pass through is required to be formed between the concrete precast box girder and the ground, otherwise, the binding of the concrete precast box girder is very difficult to realize; meanwhile, the concrete precast box girder inevitably shakes in the hoisting process, the steel wire rope and the concrete precast box girder are mutually extruded, slid and dislocated, the contact area between the steel wire rope and the concrete precast box girder is small, the pressure is too concentrated, the damage to the concrete precast box girder is easily caused, or the rope strands of the steel wire rope are easily broken by abrasion, and further potential safety hazards are brought.

The present invention has been made in view of this situation.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a quick lifting appliance for a concrete precast box girder.

In order to solve the technical problems, the invention adopts the technical scheme that:

the utility model provides a precast concrete box girder lifts by crane hoist fast, includes left hoisting accessory and right hoisting accessory, be equipped with the adjusting device who adjusts interval between the two on left side hoisting accessory and the right hoisting accessory, left side hoisting accessory is the same with right hoisting accessory's structure and all includes L type support, first positioning mechanism and second positioning mechanism, first positioning mechanism installs first one at L type support, the lower half of second positioning mechanism installation L type support, the bottom of L type support is equipped with the supplementary walking wheel that two symmetries set up, the top of L type support is equipped with the rings that two symmetries set up.

Further, adjusting device includes adjusting screw and two first slide bars, two all be equipped with the installation piece that is vertical setting on the top of L type support, be equipped with two sections opposite spiral direction's screw on the adjusting screw, all be equipped with on two installation pieces with adjusting screw complex regulation seat, adjusting screw's both ends all are equipped with the polygon regulating block, are equipped with the stop nut that two symmetries set up on the adjusting screw to two stop nut are located between two polygon regulating blocks, all set up two on every L type support with two first slide bar one-to-one sliding fit's first slide opening.

Further, first positioning mechanism includes trapezoidal suppression piece, second slide bar and first positioning screw, be equipped with two mounting panels that set up along its direction of height interval on the L type support, the second slide bar is fixed on two mounting panels, first positioning screw rotates and installs on two mounting panels to first positioning screw is located the side of second slide bar, the back of trapezoidal suppression piece is equipped with two lift seats, set up two and two first spouts of lift seat sliding fit one by one on the L type support, be equipped with on one of them lift seat with second slide bar sliding fit's second spout, be equipped with on another lift seat with first screw hole of first positioning screw complex, the driving groove has been seted up to the bottom of first positioning screw.

Further, the second positioning mechanism comprises a pressing component, a linkage component and a U-shaped fixing block, the U-shaped fixing block is fixed on the L-shaped support through a bolt, the pressing component is installed on the L-shaped support and the U-shaped fixing block, the linkage component is installed on the L-shaped support, the U-shaped fixing block and the pressing component, and the pressing component is in transmission connection with the linkage component.

Further, support and press the subassembly to include that the roof beam wall supports briquetting and two third slide bars, the back of roof beam wall supports the briquetting is equipped with the mount pad that two symmetries set up, is equipped with the dwang that is the level setting on two mount pads, all be equipped with on L type support and the U type fixed block two with two third slide bar one-to-one sliding fit's third spout, the one end of every third slide bar all be equipped with dwang normal running fit's first seat that rotates.

Further, the linkage subassembly includes second positioning screw, circle seat, circle piece and gear, the circle seat is installed on L type support, be equipped with on the circle seat with circle piece normal running fit's turn trough, the gear is installed on the circle piece, all set up on circle piece and the gear with second positioning screw complex second screw hole, all be equipped with the perforation that supplies second positioning screw to pass on L type support and the U type fixed block, the one end of second positioning screw is equipped with and rotates the seat with dwang normal running fit's second.

Furthermore, a rubber protective pad is arranged below the top of the L-shaped support.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects.

The invention drives two polygonal adjusting blocks to rotate through external driving equipment, the two polygonal adjusting blocks drive adjusting screws to rotate, the adjusting screws drive two L-shaped brackets to move in opposite directions or in reverse directions, then the external driving equipment drives two first positioning screws to rotate through a driving groove, the first positioning screws drive two lifting seats to respectively lift on the first positioning screws and a second sliding rod, the two lifting seats drive a trapezoidal pressing block to clamp the edge of the top of a prefabricated box girder, then the external driving equipment capable of driving the gears to rotate is butted with the gears, the two gears simultaneously rotate to drive corresponding second positioning screws to rotate, the second positioning screws can move towards the outer wall of the prefabricated box girder through matching with second threaded holes on a round block and the gears, the second positioning screws drive a beam wall pressing block to move towards the synchronous outer wall of the prefabricated box girder, and then the beam wall pressing block can be tightly attached to the outer wall of the prefabricated box beam, so that the prefabricated box beam hoisting device can be used for quickly hoisting prefabricated box beams with different specifications without binding steel wire ropes, mutual friction between the steel wire ropes and the prefabricated box beam is avoided in the hoisting process, and the hoisting safety is improved.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention to its proper form. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic perspective view of the present invention in operation;

FIG. 2 is a side wall view of the present invention in operation;

FIG. 3 is a first perspective view of the present invention;

FIG. 4 is a schematic perspective view of the present invention;

FIG. 5 is a third schematic perspective view of the present invention;

fig. 6 is a schematic perspective view of the present invention.

In the figure: the device comprises a left lifting device 1, an L-shaped support 11, an auxiliary travelling wheel 111, a lifting ring 112, a mounting block 113, an adjusting seat 114, a mounting plate 115, a rubber protection pad 116, a first sliding groove 117, a first positioning mechanism 12, a trapezoid pressing block 121, a lifting seat 1211, a second sliding rod 122, a first positioning screw 123, a driving groove 1231, a second positioning mechanism 13, a pressing component 131, a beam wall pressing block 1311, a third sliding rod 1312, a mounting seat 1313, a rotating rod 1314, a first rotating seat 1315, a linkage component 132, a second positioning screw 1321, a round seat 1322, a gear 1323, a second rotating seat 1324, a U-shaped fixing block 133, a right lifting device 2, an adjusting device 3, an adjusting screw 31, a first sliding rod 32, a polygon adjusting block 33 and a limit nut 34.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 to 6, the quick hoisting device for precast concrete box girders according to the present invention comprises a left hoisting device 1 and a right hoisting device 2, wherein the left hoisting device 1 and the right hoisting device 2 are provided with an adjusting device 3 for adjusting a distance therebetween, the left hoisting device 1 and the right hoisting device 2 have the same structure and each comprise an L-shaped bracket 11, a first positioning mechanism 12 and a second positioning mechanism 13, the first positioning mechanism 12 is installed at an upper half portion of the L-shaped bracket 11, the second positioning mechanism 13 is installed at a lower half portion of the L-shaped bracket 11, the bottom of the L-shaped bracket 11 is provided with two auxiliary traveling wheels 111 which are symmetrically arranged, and the top of the L-shaped bracket 11 is provided with two hanging rings 112 which are symmetrically arranged; the distance between the left lifting device 1 and the right lifting device 2 can be adjusted through the adjusting device 3, the edges of two sides of the top of the prefabricated box girder are respectively clamped through the first positioning mechanisms 12 on the left lifting device 1 and the right lifting device 2, the two side walls of the prefabricated box girder are respectively pressed through the second positioning mechanisms 13 of the left lifting device 1 and the right lifting device 2, so that the clamping force of the prefabricated box girder on the whole is further improved, the lifting rings 112 can facilitate the binding of steel wire ropes, the lifting is convenient, and the auxiliary traveling wheels 111 improve the convenience of the left lifting device 1 and the right lifting device 2 during movement.

Referring to fig. 3, the adjusting device 3 according to this embodiment includes an adjusting screw 31 and two first sliding rods 32, the top portions of the two L-shaped brackets 11 are respectively provided with a vertically arranged mounting block 113, the adjusting screw 31 is provided with two sections of threads with opposite spiral directions, the two mounting blocks 113 are respectively provided with an adjusting seat 114 matched with the adjusting screw 31, two ends of the adjusting screw 31 are respectively provided with a polygonal adjusting block 33, the adjusting screw 31 is provided with two symmetrically arranged limit nuts 34, the two limit nuts 34 are located between the two polygonal adjusting blocks 33, and each L-shaped bracket 11 is provided with two first sliding holes in one-to-one sliding fit with the two first sliding rods 32; utilize two polygon regulating blocks 33 of external drive equipment drive to rotate, two polygon regulating blocks 33 drive adjusting screw 31 rotation, adjusting screw 31 drives left hoisting accessory 1 and right hoisting accessory 2 and removes, after both remove the assigned position, rotate two limit nut 34, conflict on corresponding regulation seat 114 up to limit nut 34, can fix a position left hoisting accessory 1 and right hoisting accessory 2 like this, avoid taking place to change after lifting by crane, this external drive equipment is prior art, can be the manipulator, also can be other drive equipment, the following external drive equipment is no longer elucidated.

Referring to fig. 4 and 6, the first positioning mechanism 12 of the present embodiment includes a trapezoidal pressing block 121, a second sliding rod 122 and a first positioning screw 123, the L-shaped bracket 11 is provided with two mounting plates 115 arranged at intervals along the height direction, the second slide bar 122 is fixed on the two mounting plates 115, the first positioning screw 123 is rotatably mounted on the two mounting plates 115, and the first positioning screw 123 is located at the side of the second sliding rod 122, the back of the trapezoidal pressing block 121 is provided with two lifting seats 1211, the L-shaped bracket 11 is provided with two first sliding grooves 117 which are in one-to-one sliding fit with the two lifting seats 1211, one of the lifting seats 1211 is provided with a second sliding chute in sliding fit with the second sliding rod 122, the other lifting seat 1211 is provided with a first threaded hole in fit with the first positioning screw 123, and the bottom of the first positioning screw 123 is provided with a driving groove 1231; the output end of an external driving device is inserted into the driving groove 1231, in order to avoid the phenomenon of slipping during driving, the driving groove 1231 cannot be a circular groove, the external driving device drives the first positioning screw 123 to move automatically by using the driving groove 1231, the first positioning screw 123 drives the two lifting seats 1211 to respectively lift on the first positioning screw 123 and the second sliding rod 122, and the two lifting seats 1211 drive the trapezoidal abutting block 121 to clamp the top edge of the prefabricated box girder.

Referring to fig. 5 and 6, the second positioning mechanism 13 of the present embodiment includes a pressing component 131, a linking component 132, and a U-shaped fixing block 133, the U-shaped fixing block 133 is fixed on the L-shaped bracket 11 by bolts, the pressing component 131 is installed on the L-shaped bracket 11 and the U-shaped fixing block 133, the linking component 132 is installed on the L-shaped bracket 11, the U-shaped fixing block 133, and the pressing component 131 is in transmission connection with the linking component 132; the external driving device is butted with the linkage assembly 132, the linkage assembly 132 can drive the pressing assembly 131 to move towards the prefabricated box girder until the pressing assembly 131 presses against the outer wall of the prefabricated box girder, so that the outer walls of two sides of the prefabricated box girder are clamped, and the stability during hoisting is improved.

Referring to fig. 5 and 6, the pressing assembly 131 according to this embodiment includes a beam wall pressing block 1311 and two third sliding rods 1312, two symmetrically disposed installation bases 1313 are disposed on a back of the beam wall pressing block 1311, two horizontal rotating rods 1314 are disposed on the two installation bases 1313, two third sliding grooves slidably engaged with the two third sliding rods 1312 are disposed on the L-shaped bracket 11 and the U-shaped fixing block 133, and a first rotating base 1315 rotatably engaged with the rotating rods 1314 is disposed at one end of each third sliding rod 1312.

Referring to fig. 5 and 6, the linkage assembly 132 according to this embodiment includes a second positioning screw 1321, a circular seat 1322, a circular block, and a gear 1323, where the circular seat 1322 is installed on the L-shaped bracket 11, the circular seat 1322 is provided with a rotating slot that is rotationally matched with the circular block, the gear 1323 is installed on the circular block, the circular block and the gear 1323 are both provided with a second threaded hole that is matched with the second positioning screw 1321, the L-shaped bracket 11 and the U-shaped fixing block 133 are both provided with a through hole through which the second positioning screw 1321 passes, and one end of the second positioning screw 1321 is provided with a second rotating seat 1324 that is rotationally matched with the rotating rod 1314.

As described in the above two sections, the gear 1323 is driven to rotate by butting the external driving device capable of driving the gear 1323 to rotate with the gear 1323, the gear 1323 drives the round block to rotate in the rotating groove of the round seat 1322, then the round block and the second threaded hole in the gear 1323 can drive the second positioning screw 1321 to rotate, the second positioning screw 1321 can electrically rotate the rod 1314 to move towards the side wall of the prefabricated box beam, the rotating rod 1314 drives the beam wall pressing block 1311 to move towards the side wall of the prefabricated box beam, in order to enable the beam wall pressing block 1311 to be attached to the side wall of the prefabricated box beam, the first rotating seat 1315 and the second rotating seat 1324 are provided, so that the beam wall pressing block 1311 can tilt, and further enable the beam wall pressing block 1311 to be attached to the side wall of the prefabricated box beam, and the two third sliding rods 1312 can guide the beam wall pressing block 1311.

Referring to fig. 2, a rubber protection pad 116 is disposed under the top of the L-shaped bracket 11 according to the embodiment; this reduces the wear of the L-shaped bracket 11 on the precast box girder.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a precast concrete case roof beam lifts by crane hoist fast which characterized in that: including left hoisting accessory (1) and right hoisting accessory (2), be equipped with adjusting device (3) of adjusting interval between the two on left hoisting accessory (1) and right hoisting accessory (2), left side hoisting accessory (1) is the same with the structure of right hoisting accessory (2) and all includes L type support (11), first positioning mechanism (12) and second positioning mechanism (13), first positioning mechanism (12) are installed in the first half of L type support (11), the lower half of L type support (11) is installed in second positioning mechanism (13), the bottom of L type support (11) is equipped with two auxiliary traveling wheel (111) that the symmetry set up, the top of L type support (11) is equipped with rings (112) that two symmetries set up.

2. The quick hoisting sling for the concrete precast box girder according to claim 1, which is characterized in that: adjusting device (3) include adjusting screw (31) and two first slide bar (32), two all be equipped with installation piece (113) that are vertical setting on the top of L type support (11), be equipped with two sections opposite spiral direction's screw thread on adjusting screw (31), all be equipped with on two installation pieces (113) with adjusting screw (31) complex regulation seat (114), the both ends of adjusting screw (31) all are equipped with polygon regulating block (33), be equipped with stop nut (34) that two symmetries set up on adjusting screw (31) to two stop nut (34) are located between two polygon regulating block (33), all seted up two and two first slide bar (32) one-to-one sliding fit's first slide opening on every L type support (11).

3. The quick hoisting sling for the concrete precast box girder according to claim 1, which is characterized in that: the first positioning mechanism (12) comprises a trapezoid pressing block (121), a second sliding rod (122) and a first positioning screw rod (123), two mounting plates (115) are arranged on the L-shaped support (11) at intervals along the height direction of the L-shaped support, the second sliding rod (122) is fixed on the two mounting plates (115), the first positioning screw rod (123) is rotatably mounted on the two mounting plates (115), the first positioning screw rod (123) is located on the side of the second sliding rod (122), two lifting seats (1211) are arranged on the back of the trapezoid pressing block (121), two first sliding grooves (117) which are in one-to-one sliding fit with the two lifting seats (1211) are formed in the L-shaped support (11), one of the lifting seats (1211) is provided with a second sliding groove which is in sliding fit with the second sliding rod (122), and the other lifting seat (1211) is provided with a first threaded hole which is matched with the first positioning screw rod (123), the bottom of the first positioning screw rod (123) is provided with a driving groove (1231).

4. The quick hoisting sling for the concrete precast box girder according to claim 1, which is characterized in that: the second positioning mechanism (13) comprises a pressing component (131), a linkage component (132) and a U-shaped fixing block (133), the U-shaped fixing block (133) is fixed on the L-shaped support (11) through bolts, the pressing component (131) is installed on the L-shaped support (11) and the U-shaped fixing block (133), the linkage component (132) is installed on the L-shaped support (11), the U-shaped fixing block (133) and the pressing component (131), and the pressing component (131) is in transmission connection with the linkage component (132).

5. The quick hoisting sling for the concrete precast box girder according to claim 4, is characterized in that: the pressing component (131) comprises a beam wall pressing block (1311) and two third sliding rods (1312), two symmetrically arranged installation seats (1313) are arranged on the back of the beam wall pressing block (1311), rotating rods (1314) horizontally arranged are arranged on the two installation seats (1313), two third sliding grooves in one-to-one sliding fit with the two third sliding rods (1312) are formed in the L-shaped support (11) and the U-shaped fixing block (133), and a first rotating seat (1315) in rotating fit with the rotating rods (1314) is arranged at one end of each third sliding rod (1312).

6. The quick hoisting sling for the concrete precast box girder according to claim 5, is characterized in that: linkage subassembly (132) include second positioning screw (1321), circle seat (1322), circle piece and gear (1323), install on L type support (11) circle seat (1322), be equipped with on circle seat (1322) with circle piece normal running fit's turn trough, gear (1323) are installed on the circle piece, all set up on circle piece and gear (1323) with second positioning screw (1321) complex second screw hole, all be equipped with the perforation that supplies second positioning screw (1321) to pass on L type support (11) and U type fixed block (133), the one end of second positioning screw (1321) is equipped with rotates seat (1324) with dwang (1314) normal running fit's second.

7. The quick hoisting sling for the concrete precast box girder according to claim 1, which is characterized in that: and a rubber protective pad (116) is arranged below the top of the L-shaped bracket (11).

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