CN220953017U - Collapsible folding and height-adjusting precast beam diaphragm plate construction hanging basket - Google Patents

Abstract

The utility model relates to a collapsible folding and height-adjustable precast beam diaphragm construction hanging basket, which comprises a bottom frame and two symmetrically distributed hanging frames, wherein the bottom ends of the two hanging frames are respectively connected to two sides of the bottom frame in a hinged manner, so that the folding between the two hanging frames and the bottom frame can be realized; the hanging rack comprises two adjusting rods which are symmetrically distributed and used for adjusting the height of the hanging rack, a cross rod is fixed between the two adjusting rods, a hanging ring is fixed at the upper end of the adjusting rod, and the hanging ring is used for hanging the two hanging racks on two oppositely distributed beam plates through penetrating the supporting rods; a plurality of fixing rings are arranged on two sides of the adjusting rod, the fixing rings are arranged along the length direction of the adjusting rod, and a protection unit is connected between the two hanging frames through the fixing rings; the utility model can smoothly implement the site pouring construction of the diaphragm plates of the bridge deck system, improves the construction speed of the diaphragm plates, reduces the high construction cost caused by adopting a jacking vehicle or a shaping hanging basket as worker ascending operation equipment, and ensures the purposes of construction period and cost saving.

Description

Collapsible folding and height-adjusting precast beam diaphragm plate construction hanging basket

Technical Field

The utility model belongs to the technical field of construction engineering bridge deck construction, and particularly relates to a collapsible folding and height-adjusting precast beam diaphragm plate construction hanging basket.

Background

The general working steps when the cast-in-situ diaphragm plate is constructed by the traditional shaping hanging basket are as follows: setting up a T beam, ascending a height by adopting a jacking trolley or a shaping hanging basket, constructing diaphragm plate steel bars, installing a template, pouring concrete, descending by adopting the jacking trolley or the shaping hanging basket, and repeating to another diaphragm plate construction. In bridge deck system structure diaphragm construction, generally, a jacking car or a shaping hanging basket is adopted as a tool for personnel climbing operation. When the jacking vehicle is adopted, a road for vehicles to pass needs to be provided under the bridge deck, a reliable foundation bearing capacity is needed at a parking place of the jacking vehicle, and after the construction of each diaphragm plate steel plate template is completed, the vehicle needs to be retracted and driven to a diaphragm plate construction place at the next place; when the shaping hanging basket is adopted, corresponding lifting equipment is required to be arranged on the bridge deck, the shaping hanging basket is lifted to the diaphragm construction position from the ground, and after the construction of each diaphragm steel plate template is completed, the lifting equipment and the shaping hanging basket are required to be jointly transferred to the diaphragm construction position at the next position. Both methods have the problems of higher construction cost and longer construction period.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art and provide the collapsible folding and height-adjustable precast beam diaphragm construction hanging basket, so that the bridge deck diaphragm in-situ pouring construction is smoothly implemented, the diaphragm construction speed is improved, the high construction cost caused by adopting a jacking vehicle or a shaping hanging basket as worker climbing operation equipment is reduced, and the purposes of ensuring the construction period and saving the cost are achieved.

The utility model aims at completing the technical scheme that the collapsible folding and height-adjusting precast beam diaphragm construction hanging basket comprises a bottom frame and two hanging frames which are symmetrically distributed, wherein the bottom ends of the two hanging frames are respectively connected to two sides of the bottom frame in a hinged mode, and the folding between the two hanging frames and the bottom frame can be realized; the hanging rack comprises two symmetrically distributed adjusting rods for adjusting the height of the hanging rack, a cross rod is fixed between the two adjusting rods, a hanging ring is fixed at the upper end of each adjusting rod, and the hanging ring is used for hanging the two hanging racks on two oppositely distributed beam plates through penetrating supporting rods; both sides of adjusting the pole all are equipped with a plurality of solid fixed ring, just gu the solid fixed ring is followed the length direction setting of adjusting the pole, two be connected with the protection unit through gu fixed ring between the stores pylon.

The beneficial effects of the utility model are as follows: by the arrangement of the structure, the bridge deck diaphragm plate on-site pouring construction can be smoothly implemented, the diaphragm plate construction speed is improved, the high construction cost caused by adopting a jacking vehicle or a shaping hanging basket as worker climbing operation equipment is reduced, and the purposes of construction period and cost saving are ensured; meanwhile, the hanging frame component is connected with the underframe in a hinged mode, so that the folding of the construction hanging basket can be realized, and the construction hanging basket can be quickly transferred to the next diaphragm plate for construction after the construction of one diaphragm plate is completed; and the adjustable rod with adjustable height can be used for operations of diaphragm plates with different sizes and different heights, so that hanging baskets with different sizes can be prevented from being manufactured due to height adjustment.

Preferably, the adjusting rod comprises a first steel pipe and a second steel pipe, the first steel pipe is inserted into the second steel pipe, at least two adjusting holes which are distributed at equal intervals are formed in the top circumferential wall of the first steel pipe, one adjusting hole is formed in the bottom circumferential wall of the second steel pipe, and the length difference between the first steel pipe and the second steel pipe is adjusted through the inserting and fixing of the adjusting holes and the steel bolts; through the setting of above-mentioned structure for the length adjustment of regulating lever is very convenient, thereby makes stores pylon altitude mixture control very convenient.

Preferably, a first semicircular ring is fixed on the side surface of the bottom of the first steel pipe, second semicircular rings are fixed on four end corners of the underframe connected with the first semicircular ring, and the first semicircular ring and the second semicircular rings are hinged together; through the setting of above-mentioned structure for realize folding and propping up between stores pylon and the chassis, be convenient for improve the efficiency of construction.

Preferably, cross bars are arranged between the adjacent first steel pipes and between the adjacent second steel pipes, and the cross bars are arranged at equal intervals along the length direction of the adjusting rod; through the arrangement of the structure, the overall strength of the hanger can be increased, and the hanger can also be used as a ladder stand for constructors up and down.

Preferably, the underframe comprises two transverse connecting rods, a plurality of equidistant longitudinal connecting rods are fixed between the two transverse connecting rods, and the transverse connecting rods and the longitudinal connecting rods are welded in a crisscross manner to form a netlike underframe; the second semicircular rings are fixed on the side surfaces of the circumferential walls at the two ends of the transverse connecting rod; through the arrangement of the structure, the underframe is convenient to form, the cost is reduced, and meanwhile, the strength can also meet the construction requirement.

Preferably, the fixing rings are fixed on the side surface of the circumferential wall of the adjusting rod, are arranged at equal intervals along the length direction of the adjusting rod, and are consistent with the first semicircular ring in orientation; through the setting of above-mentioned structure for the protection unit can install many between two stores pylon, and the security performance promotes greatly.

Preferably, the protection unit comprises a steel wire rope and buckles connected with the fixing rings, wherein the buckles are fixed at two ends of the steel wire rope, and the steel wire rope is connected between the two hanging frames through the buckles; through the setting of protection unit for whole hanging basket forms four sides and has the rail, and the security performance promotes greatly, and the dismouting between protection unit and the stores pylon is also more convenient simultaneously.

Drawings

Fig. 1 is a schematic view of a construction hanging basket according to the present utility model.

Fig. 2 is a schematic structural view of the construction hanging basket of the present utility model hung on a beam plate.

Fig. 3 is a schematic view of the construction hanging basket of the present utility model in a lowered state.

Fig. 4 is a schematic structural view of the construction basket of the present utility model to the next construction site.

The reference numerals in the drawings are respectively: 1. a chassis; 2. a hanging rack; 3. a support rod; 4. a beam plate; 5. a protection unit; 11. a second semicircle ring; 12. a transverse connecting rod; 13. a longitudinal connecting rod; 21. hanging a circular ring; 22. a fixing ring; 23. a first semi-circular ring; 24. an adjusting rod; 25. a cross bar; 26. a first steel pipe; 27. a second steel pipe; 28. an adjustment aperture; 29. a steel bolt; 51. a wire rope; 52. and (5) a buckle.

Detailed Description

The utility model will be described in detail below with reference to the attached drawings: as shown in fig. 1 to 4, the utility model comprises a bottom frame 1 and two symmetrically distributed hanging frames 2, wherein the bottom ends of the two hanging frames 2 are respectively connected to two sides of the bottom frame 1 in a hinged manner, so that the folding between the two hanging frames 2 and the bottom frame 1 can be realized; the hanging frame 2 comprises two symmetrically distributed adjusting rods 24 for adjusting the height of the hanging frame 2, a cross rod 25 is fixed between the two adjusting rods 24, a hanging circular ring 21 is fixed at the upper end of the adjusting rod 24, and the hanging circular ring 21 is used for hanging the two hanging frames 2 on two oppositely distributed beam plates 4 through penetrating the supporting rods 3; both sides of the adjusting rod 24 are provided with a plurality of fixing rings 22, the fixing rings 22 are arranged along the length direction of the adjusting rod 24, and the two hanging frames 2 are connected with a protection unit 5 through the fixing rings 22. When the foldable hanging basket is used for constructing the diaphragm, lifting operators do not need to lift the diaphragm from the lower part by using a jacking vehicle or a shaping hanging basket, the transfer of the reinforced concrete construction surface of the diaphragm can be quickly realized, the foldable hanging basket is not limited by the topography under a bridge, the overturning risk of the jacking vehicle is avoided, the operators can be quickly transferred to the next diaphragm for construction after the construction of one diaphragm is completed, and the height-adjustable adjusting rod can be used for the operation of diaphragms with different sizes and different heights, so that the hanging basket with different sizes is prevented from being manufactured due to the height adjustment; therefore, the foldable hanging basket can be used for rapidly implementing diaphragm construction, so that foundation treatment required by a jacking vehicle and installation and transfer of lifting equipment required by road traffic conservation and hanging basket are avoided, and the foldable hanging basket is suitable for operation of diaphragm plates of different sizes and different heights, thereby achieving the effects of saving cost and accelerating construction progress. The supporting rod 3 adopts phi 32 steel bars.

The adjusting rod 24 comprises a first steel pipe 26 and a second steel pipe 27, the first steel pipe 26 is inserted into the second steel pipe 27, at least two adjusting holes 28 which are distributed at equal intervals are formed in the top circumferential wall of the first steel pipe 26, the distance between the adjusting holes 28 is 20cm, one adjusting hole 28 is formed in the bottom circumferential wall of the second steel pipe 27, and the length difference between the first steel pipe 26 and the second steel pipe 27 is adjusted through the insertion and fixation of the adjusting holes 28 and the steel bolts 29. Namely: when the adjusting rod 24 needs to be extended, the first steel tube 26 is pulled outwards along the second steel tube 27, and the two adjusting holes 28 are aligned and inserted with the steel bolts 29 to fix the adjusting rod.

The bottom side of the first steel pipe 26 is fixed with a first semicircle ring 23, the four end corners of the underframe 1 connected with the first semicircle ring 23 are respectively fixed with a second semicircle ring 11, and the first semicircle ring 23 and the second semicircle ring 11 are hinged together.

The cross bars 25 are arranged between the adjacent first steel pipes 26 and between the adjacent second steel pipes 27, and the cross bars 25 are arranged at equal intervals along the length direction of the adjusting rod 24.

The underframe 1 comprises two transverse connecting rods 12, a plurality of equidistant longitudinal connecting rods 13 are fixed between the two transverse connecting rods 12, and the transverse connecting rods 12 and the longitudinal connecting rods 13 are welded in a crisscross manner to form the netlike underframe 1; the second semicircular rings 11 are fixed to the side surfaces of the circumferential walls at both ends of the transverse link 12. The transverse connecting rod 12 and the longitudinal connecting rod 13 are made of phi 25 screw steel.

The fixed rings 22 are fixed on the side surface of the circumferential wall of the adjusting rod 24 and are arranged at equal intervals along the length direction of the adjusting rod 24, and the fixed rings 22 and the first semicircular ring 23 are oriented in the same direction; the protection unit 5 comprises a steel wire rope 51 and a buckle 52 connected with the fixed ring 22, wherein the buckle 52 is fixed at both ends of the steel wire rope 51, and the steel wire rope 51 is connected between the two hanging frames 2 through the buckle 52.

The working principle of the utility model is as follows: 1) The height of the adjusting rod 24 is adjusted according to the actual operation height, 2) the beam plate 1 is erected and fixed, and then the hanging basket in the folded state is manually lowered; 3) After the hanging basket is unfolded, the hanging ring 21 on the top of the hanging basket adjusting rod 24 is penetrated by the two supporting rods 3 to put the hanging basket on the beam plate 1, and the two supporting rods 3 are fixed on the bridge deck by combining the bridge deck topography; 4) The personnel steps on the cross bar 25 and goes down to the underframe 1 to start the operation; 5) Two ends of the steel wire rope 51 are fixedly connected to the fixed ring 22 of the adjusting rod 24 through the buckles 52 to realize four-side sealing; 6) Removing the protection unit 5 after construction is completed; 7) Lifting one side of the hanging frame 2 to fold the hanging basket, so that the hanging basket can be quickly lowered and lifted; 8) And (5) lifting the hanging basket to the next construction point, and repeating the steps 1 to 7.

The present utility model is not limited to the above embodiments, and any modification of the structural design provided by the present utility model, regardless of any changes in shape or material composition, should be considered as being within the scope of the present utility model.

Claims (7)

1. The utility model provides a collapsible folding and height-adjusting precast beam diaphragm construction hanging basket, includes chassis (1) and two stores pylon (2) that are symmetric distribution, its characterized in that: the bottom ends of the two hanging frames (2) are respectively connected to two sides of the underframe (1) in a hinged mode, so that the two hanging frames (2) and the underframe (1) can be folded; the hanging rack (2) comprises two symmetrically distributed adjusting rods (24) for adjusting the height of the hanging rack (2), a cross rod (25) is fixed between the two adjusting rods (24), a hanging ring (21) is fixed at the upper end of each adjusting rod (24), and the hanging ring (21) is used for hanging the two hanging racks (2) on two oppositely distributed beam plates (4) through penetrating the supporting rods (3); both sides of adjusting pole (24) all are equipped with a plurality of solid fixed ring (22), just gu fixed ring (22) are followed adjust the length direction setting of pole (24), two between stores pylon (2) through gu fixed ring (22) are connected with protection unit (5).

2. The collapsible folding and height-adjusting precast beam diaphragm construction hanging basket of claim 1, wherein: the adjusting rod (24) comprises a first steel pipe (26) and a second steel pipe (27), the first steel pipe (26) is inserted into the second steel pipe (27), at least two adjusting holes (28) which are distributed at equal intervals are formed in the circumferential wall of the top of the first steel pipe (26), one adjusting hole (28) is formed in the circumferential wall of the bottom of the second steel pipe (27), and the length difference between the first steel pipe (26) and the second steel pipe (27) is adjusted by inserting and fixing the adjusting holes (28) and the steel bolts (29).

3. The collapsible folding and height-adjusting precast beam diaphragm construction hanging basket of claim 2, wherein: the bottom side of first steel pipe (26) is fixed with first semicircle ring (23), with be connected with first semicircle ring (23) all be fixed with second semicircle ring (11) on the four terminal angles of chassis (1), first semicircle ring (23) with second semicircle ring (11) are articulated to be connected together.

4. The collapsible folding and height-adjusting precast beam diaphragm construction hanging basket of claim 2, wherein: and transverse rods (25) are arranged between the adjacent first steel pipes (26) and between the adjacent second steel pipes (27), and the transverse rods (25) are arranged at equal intervals along the length direction of the adjusting rod (24).

5. A collapsible folding and height-adjusting precast beam diaphragm construction hanging basket according to claim 3, characterized in that: the underframe (1) comprises two transverse connecting rods (12), a plurality of equidistant longitudinal connecting rods (13) are fixed between the two transverse connecting rods (12), and the transverse connecting rods (12) and the longitudinal connecting rods (13) are welded in a crisscross manner to form the netlike underframe (1); the second semicircular rings (11) are fixed on the side surfaces of the circumferential walls at the two ends of the transverse connecting rod (12).

6. A collapsible folding and height-adjusting precast beam diaphragm construction hanging basket according to claim 3, characterized in that: the fixing rings (22) are fixed on the side surface of the circumferential wall of the adjusting rod (24) and are arranged at equal intervals along the length direction of the adjusting rod (24), and the fixing rings (22) and the first semicircular ring (23) are oriented in the same direction.

7. The collapsible folding and height-adjusting precast beam diaphragm panel construction hanging basket of claim 1 or 6, wherein: the protection unit (5) comprises a steel wire rope (51) and buckles (52) connected with the fixing rings (22), wherein the buckles (52) are fixed at two ends of the steel wire rope (51), and the steel wire rope (51) is connected between the two hanging frames (2) through the buckles (52).