CN209009988U - A kind of hoisting device for reinforcement cage - Google Patents

Abstract

The utility model provides a kind of hoisting device for reinforcement cage, is related to suspender field.The hoisting device for reinforcement cage includes stress support；The top of the stress support is provided with lifting suspension centre at two；The lower part of the stress support is provided with multiple connectors for connecting with steel reinforcement cage；The lifting suspension centre with boom hoisting for connecting；Multiple chains correspond to the structure arrangement of steel reinforcement cage, so that the gravity stepless action of steel reinforcement cage is supported in stress after lifting；The top of the stress support is provided with iron sheet；The iron sheet is covered on the upper face of the stress support.The utility model solve it is existing in the prior art can not be by the technical problem in steel reinforcement cage integral hoisting to beam making bench.

Description

A kind of hoisting device for reinforcement cage

Technical field

The utility model relates to suspender technical fields, more particularly, to a kind of hoisting device for reinforcement cage.

Background technique

With the development of high-speed rail technology, social progress, the continuous innovation of bridge construction technique certainly will be had more new Tool generates.After reinforcing bar binding is completed, in order to more easily by steel reinforcement cage integral hoisting to beam making bench, need one kind Conveniently, steel reinforcement cage can be lifted by steel bar binding clamping fixture to the hoisting device for reinforcement cage of beam pedestal.

Based on this, the utility model provides a kind of hoisting device for reinforcement cage to solve above-mentioned technical problem.

Utility model content

The purpose of this utility model is to provide a kind of hoisting device for reinforcement cage, with solve it is existing in the prior art can not By the technical problem in steel reinforcement cage integral hoisting to beam making bench.

Based on above-mentioned purpose, the utility model provides a kind of hoisting device for reinforcement cage, including stress support；

The top of the stress support is provided with lifting suspension centre at two；The lower part of stress support, which is provided with, to be used for and steel Multiple connectors of muscle cage connection；

The lifting suspension centre with boom hoisting for connecting；Multiple connectors correspond to the structure arrangement of steel reinforcement cage, with Support the gravity stepless action of steel reinforcement cage after lifting by crane in stress；

The top of the stress support is provided with iron sheet；The iron sheet is covered on the upper face of the stress support.

Optionally, above-mentioned hoisting device for reinforcement cage, the position-adjustable of multiple connectors.

Optionally, above-mentioned hoisting device for reinforcement cage, stress support are space truss structure, including frame support and Two suspension centre support portions；

Two suspension centre support portions are arranged along the length direction of the frame support, and two suspension centre supports Portion is symmetrical about the middle part of the frame support.

Optionally, above-mentioned hoisting device for reinforcement cage, the cross section of the frame support along its length is trapezoidal, including Upper support unit and lower support unit；

The upper support unit is the trapezoidal frame body of open-bottom；The lower support unit is the closing opening Plane frame plate.

Optionally, above-mentioned hoisting device for reinforcement cage, the upper bottom of the trapezoidal upper support unit by the first I-steel and Second I-steel is arranged composition in length and breadth；The bevel edge of the trapezoidal upper support unit uses the first angle steel；First angle steel It is welded with the first I-steel；

The lower support unit is arranged constituted in length and breadth by third I-steel and the 4th I-steel；

Pass through connection I-steel connection between first I-steel and the third I-steel；

The cross section and longitudinal section of the upper support unit and the lower support unit pass through the reinforcement of the second angle steel Support.

Optionally, above-mentioned hoisting device for reinforcement cage, the suspension centre support portion is by the 5th I-steel of lateral arrangement and longitudinal direction The 6th I-steel composition of arrangement；

The length of 5th I-steel is greater than the length of the 4th I-steel.

Optionally, above-mentioned hoisting device for reinforcement cage, the corresponding two suspension centre support portions setting of two lifting suspension centres.

Optionally, above-mentioned hoisting device for reinforcement cage, the connector are wirerope, chain or plum-blossom-shape button.

Optionally, above-mentioned hoisting device for reinforcement cage, the connector are chain；

The chain connection fixed by snap.

Optionally, above-mentioned hoisting device for reinforcement cage, the stress support are formed by steel-pipe welding.

The hoisting device for reinforcement cage provided by the utility model, including stress support；The top of the stress support is set It is equipped with lifting suspension centre at two；The lower part of the stress support is provided with multiple connectors for connecting with steel reinforcement cage；Described Suspension centre with boom hoisting for connecting；Multiple chains correspond to the structure arrangement of steel reinforcement cage, so that steel reinforcement cage after lifting Gravity stepless action is supported in stress；The top of the stress support is provided with iron sheet；The iron sheet is covered on the stress branch The upper face of support.Hoisting device for reinforcement cage provided by the utility model, the steel reinforcement cage that can will be bound in steel bar binding clamping fixture It is whole connect with the connector in hoisting device for reinforcement cage, then by stress support two at lifting suspension centre and external lift Connection is set, slings steel reinforcement cage using boom hoisting, in stress support, two are hung for the gravity stepless action of steel reinforcement cage at this time Point coordinated balance work, control boom hoisting is synchronous, at the uniform velocity, slowly advances, can be smoothly by reinforcing bar cage hoisting to Liang Tai Seat, greatly improves work efficiency.When rainy day carries out, the iron sheet being covered in stress support can be used for rain cover, to guarantee spar-box It can continue to construct when unexpected rainfall in concreting process.

Based on this, the utility model has the advantages that improve reinforcing bar cage hoisting efficiency compared with original technology.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of hanging beam structure provided by the embodiment of the utility model middle and upper part support unit；

Fig. 2 is the structural schematic diagram of hanging beam structure provided by the embodiment of the utility model middle and lower part support unit；

Fig. 3 is the cross-section diagram of suspension centre support portion in hanging beam structure provided by the embodiment of the utility model；

Fig. 4 is the cross-sectional view in Fig. 3 at A-A；

Fig. 5 is the cross-section diagram of non-suspension centre support portion position in hanging beam structure provided by the embodiment of the utility model；

Fig. 6 is the cross-section diagram lifted by crane at suspension centre in hanging beam structure provided by the embodiment of the utility model；

Fig. 7 is the structural schematic diagram of the first steel plate in hanging beam structure provided by the embodiment of the utility model.

Icon: 100- stress support；110- upper support unit；The first I-steel of 1101-；The second I-steel of 1102-； The first angle steel of 1103-；The second angle steel of 1104-；1105- connection I-steel；111- lifts by crane suspension centre；The first steel plate of 1111-；1112- Lifting hole(eyelet)；The second steel plate of 1113-；120- lower support unit；1201- third I-steel；The 4th I-steel of 1202-；1203- the 5th I-steel；121- connector.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Embodiment one

Fig. 1 is the structural schematic diagram of hanging beam structure provided by the embodiment of the utility model middle and upper part support unit；Fig. 2 is this The structural schematic diagram for the hanging beam structure middle and lower part support unit that utility model embodiment provides；Fig. 3 is the utility model embodiment The cross-section diagram of suspension centre support portion in the hanging beam structure of offer；Fig. 4 is the cross-sectional view in Fig. 3 at A-A；Fig. 5 is that the utility model is real The cross-section diagram of non-suspension centre support portion position in the hanging beam structure of example offer is provided；Fig. 6 is hanging beam provided by the embodiment of the utility model The cross-section diagram at suspension centre is lifted by crane in structure；Fig. 7 is the structure of the first steel plate in hanging beam structure provided by the embodiment of the utility model Schematic diagram.

As shown in Figure 1 to Figure 3, a kind of hanging beam structure is provided in the present embodiment, and the hanging beam structure includes for space The stress support 100 of truss structure；

The stress support 100 frame support and two suspension centres trapezoidal including cross section along its length Support portion；

Two suspension centre support portions are arranged along the length direction of the frame support, and two suspension centre supports Portion is symmetrical about the middle part of the frame support；The connector for connecting with steel reinforcement cage is provided on the suspension centre support portion 121；

There are two lift by crane suspension centre 111 for the position setting of corresponding two suspension centre support portions on the frame support.

The hanging beam structure provided by the utility model, stress support 100 are a space truss structure, the space truss Structure includes a trapezoidal frame support and two suspension centre support portions；Frame support is arranged in two suspension centre support portions Lower surface, and central symmetry of two suspension centre support portions about frame support.Corresponding two on the upper surface of frame support The position setting of a suspension centre support portion is arranged symmetrically there are two suspension centre 111, two lifting suspension centres 111 are lifted by crane, and meets suspension centre position The demand for the stress equalization set.During reinforcing bar cage hoisting, connector 121 and steel reinforcement cage on suspension centre support portion are set Be attached, lifting suspension centre 111 with outside boom hoisting connect, using hanging beam structure provided by the utility model to steel reinforcement cage into Row lifting, while guaranteeing construction efficiency, makes the safety and stability of whole device also get a promotion.

Based on this, the utility model has the advantages that Hoisting Security, stabilization and construction efficiency are high compared with original technology.

As shown in Figure 1 to Figure 3, in the optinal plan of the present embodiment, the cross section of the frame support along its length In isosceles trapezoid, including upper support unit 110 and lower support unit 120；

The upper support unit 110 is the isosceles trapezoid frame body of open-bottom；The lower support unit 120 is closing The plane frame body of the opening.

In the above-mentioned technical solutions, further, the upper bottom of the trapezoidal upper support unit 110 is by the first I-steel 1101 and second I-steel 1102 arrange in length and breadth composition；The bevel edge of the trapezoidal upper support unit 110 uses the first angle steel 1103；First angle steel 1103 is connect with the first I-steel 1101；

The lower support unit 120 is arranged in length and breadth by third I-steel 1201 and the 4th I-steel 1202 and is constituted；

It is connected between first I-steel 1101 and the third I-steel 1201 by connection I-steel 1105.

Specifically, the present embodiment middle and upper part support unit 110 and lower support unit 120 are by different model and different length The I-steel welding fabrication of degree.The upper bottom of upper support unit 110 by the first I-steel 1101 and the second I-steel 1102 in length and breadth Arrangement is constituted, and the first I-steel 1101 is 160 I-steel of three longitudinal arrangements, and the length is the total of upper support unit 110 Length；Second I-steel 1102 is 100 I-steel laterally arranged, the quantity of the second I-steel 1102 in this case, it is 25, It is arranged along the length direction of the first I-steel 1101, the first I-steel 1101 arrangement by two close end is closer, middle part First I-steel 1101 is arranged sparse；The two sides bevel edge of upper support unit 110 uses the first angle steel 1103, the first angle steel 1103 be 75 angle steel, all there is a company after the end connection of first I-steel 1101 and the second I-steel 1102 at edge Contact, every first angle steel 1103 are connect with the tie point.Lower support unit 120 is by third I-steel 1201 and the 4th work Word steel 1202 is arranged composition in length and breadth, and third I-steel 1201 is 220 I-steel of three longitudinal arrangements, and the length is lower support The total length of unit 120；4th I-steel 1202 is 100 I-steel laterally arranged；4th I-steel 1202 in lower part branch The arrangement of support unit 120 is divided into three parts using two suspension centre support portions as line of demarcation, wherein being located on the outside of two suspension centre support portions 4th I-steel 1202 of arrangement is relatively closer, and the 4th I-steel 1202 arrangement between two suspension centre support portions is diluter It dredges.Arrangement mode can guarantee the rigidity of structure of entire frame support in this.

In the above-mentioned technical solutions, further, the upper support unit 110 connects with the lower support unit 120 It connects cross section and longitudinal section on position and passes through the reinforcement of the second angle steel 1104 support.

Specific second angle steel 1104 is 75 angle steel, and the second angle steel 1104 is in tilted layout in upper and lower corresponding first I-steel Between 1101 and third I-steel 1201, more second angle steel 1104 join end to end arrangement wave-shaped.It has greatly reinforced entire The rigidity of structure of frame support.

In the above-mentioned technical solutions, further, the suspension centre support portion includes the 5th I-steel 1203 of lateral arrangement With longitudinally arranged 6th I-steel；

The length of 5th I-steel 1203 is greater than the length of the 4th I-steel 1202.

Specifically, the 5th I-steel 1203 is 160 I-steel, the 6th I-steel is 100 I-steel.In the present embodiment, Each suspension centre support portion three 160 I-steel of horizontally-parallel setting, three 160 I-steel are vertically welded in third I-steel It is boundary with outermost two third I-steel 1201 on 1201, the 5th I-steel 1203 is divided for three parts, the 6th I-steel longitudinal direction 5th I-steel 1203 is set on two parts of close end.Connector 121 for connecting with steel reinforcement cage is along the 5th work The length direction of word steel 1203 is uniformly arranged, and after the distance between two connectors 121 are fixed, the quantity of connector 121 is more, That is the join domain of connector 121 is bigger, then the size for being capable of fixing steel reinforcement cage is bigger.For existing common steel reinforcement cage knot Structure, the present embodiment are preferably uniformly arranged 11 connectors 121 on every 5th I-steel 1203.

In the above-mentioned technical solutions, further, the connector 121 is wirerope, chain or plum-blossom-shape button.

Connector 121 for connecting steel reinforcement cage can be for steel reinforcement cage, chain or plum-blossom-shape button, in the present embodiment, preferably Connector 121 of the chain as steel reinforcement cage, the length of chain are divided into two kinds, and one of length is 1.5 meters, another length Degree is 4.5 meters.Chain is arranged on suspension centre support portion, can also be arranged around frame support, so that entire frame support The uniform gravity for bearing steel reinforcement cage.Chain is connect by buckle with lower support unit 120, is welded using 10mm diameter round steel In the position of the fixed chain of lower support unit 120.

In the optinal plan of the present embodiment, the lifting suspension centre 111 includes being fixedly connected on first I-steel 1101 On the first steel plate 1111；Lifting hole(eyelet) 1112 is provided on first steel plate 1111.

In the above-mentioned technical solutions, further, first I-steel 1101 and about the 1201 third I-steel Corresponding arrangement；The two sides of first I-steel 1101 and the third I-steel 1201 are welded with the second steel plate 1113.

In the above-mentioned technical solutions, further, between first I-steel 1101 and second steel plate 1113, institute It states between third I-steel 1201 and the second steel plate 1113 and is all made of between the first steel plate 1111 and the second steel plate 1113 double Face is fully welded, and weld bead height is not less than 8mm.

For connecting with boom hoisting, the intensity that structure needs to have certain, the present embodiment is symmetrically set lifting suspension centre 111 Two lifting suspension centres 111 have been set, ensure that the stabilization of entire hanging beam structure.Each lifting suspension centre 111 includes the first steel plate 1111, the first steel plate 1111 is fixed on the first I-steel 1101 using two-sided be fully welded, and is provided with lifting hole(eyelet) on the first steel plate 1111 1112。

First I-steel 1101 and the corresponding arrangement of about 1201 third I-steel, in order to further increase lifting suspension centre 111 The intensity of position, in the present embodiment, the two sides of the first I-steel 1101 and third I-steel 1201 are welded with the second steel plate 1113.Between first I-steel 1101 and the second steel plate 1113, third I-steel 1201 and the second steel plate 1113, the first steel plate 1111 and second be all made of between steel plate 1113 it is two-sided be fully welded, and weld bead height is not less than 8mm.

Embodiment two

The hanging beam structure provided in this embodiment is further changing for the hanging beam structure provided embodiment one Into technical solution described in embodiment one also belongs to the embodiment, and the technical solution that embodiment one has been described is not repeated Description.

Specifically, providing a kind of hanging beam structure in the present embodiment, including stress support 100；

The top of the stress support 100 is provided with lifting suspension centre 111 at two；The lower part setting of the stress support 100 There are multiple connectors 121 for connecting with steel reinforcement cage；

The lifting suspension centre 111 with boom hoisting for connecting；Multiple chains correspond to the structure arrangement of steel reinforcement cage, with The gravity stepless action of steel reinforcement cage after lifting by crane is set to support 100 in stress；

The top of the stress support 100 is provided with iron sheet；The iron sheet is covered on the top table of the stress support 100 Face.

Hanging beam structure provided by the utility model, can the steel reinforcement cage that bound in steel bar binding clamping fixture is whole and hanging beam knot Connector 121 in structure connects, then lifting suspension centre 111 at two in stress support 100 is connect with external boom hoisting, benefit Steel reinforcement cage is sling with boom hoisting, the gravity stepless action of steel reinforcement cage at this time supports on 100 in stress, two lifting suspension centres 111 Coordinated balance work, control boom hoisting is synchronous, at the uniform velocity, slowly advances, can smoothly by reinforcing bar cage hoisting to beam pedestal, It greatly improves work efficiency.When rainy day carries out, the iron sheet being covered in stress support 100 can be used for rain cover, to guarantee spar-box It can continue to construct when unexpected rainfall in concreting process.

In the optinal plan of the present embodiment, the position-adjustable of multiple connectors 121.

The steel reinforcement cage for needing to lift may have different structure sizes, in order to adapt to the steel reinforcement cage of more sizes, The present embodiment sets connector 121 to the structure of position-adjustable.Adjustable structure can be on the basis of embodiment one On connector 121 is connect by sliding rail with frame support, when the reinforcement cage structure size that needs lift is larger, can pass through Mobile connection part 121, to expand the distance between each connector 121；When the reinforcement cage structure size for needing to lift is smaller When, removable follower link 121 reduces the distance between each connector 121.Using the adjustable structure of chain, so that every Chain uniform stressed can guarantee the whole machine balancing in hoisting process.

In the optinal plan of the present embodiment, the stress support 100 is formed by steel-pipe welding.

In embodiment one, entire stress support 100 has I-steel welding fabrication, in order to reduce entire reinforcing bar cage hoisting dress The weight set, the present embodiment substitute I-steel using steel pipe.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (9)

1. a kind of hoisting device for reinforcement cage, which is characterized in that supported including stress；

The top of the stress support is provided with lifting suspension centre at two；The lower part of stress support, which is provided with, to be used for and steel reinforcement cage Multiple connectors of connection；

The lifting suspension centre with boom hoisting for connecting；Multiple connectors correspond to the structure arrangement of steel reinforcement cage, so as to rise The gravity stepless action for hanging rear steel reinforcement cage is supported in stress；

The top of the stress support is provided with iron sheet；The iron sheet is covered on the upper face of the stress support；

The stress support is space truss structure, including frame support and two suspension centre support portions；

Two suspension centre support portions are arranged along the length direction of the frame support, and two suspension centre support portions close It is symmetrical in the middle part of the frame support.

2. hoisting device for reinforcement cage according to claim 1, which is characterized in that the position of multiple connectors is adjustable Section.

3. hoisting device for reinforcement cage according to claim 1, which is characterized in that the frame support is along its length Cross section is trapezoidal, including upper support unit and lower support unit；

The upper support unit is the trapezoidal frame body of open-bottom；The lower support unit is the plane for closing the opening Frame plate.

4. hoisting device for reinforcement cage according to claim 3, which is characterized in that the trapezoidal upper support unit it is upper It is arranged and is constituted in length and breadth by the first I-steel and the second I-steel in bottom；The bevel edge of the trapezoidal upper support unit uses first jiao Steel；First angle steel and the first I-steel weld；

The lower support unit is arranged constituted in length and breadth by third I-steel and the 4th I-steel；

Pass through connection I-steel connection between first I-steel and the third I-steel；

The cross section and longitudinal section of the upper support unit and the lower support unit pass through the second angle steel and reinforce supporting.

5. hoisting device for reinforcement cage according to claim 4, which is characterized in that the suspension centre support portion is by lateral arrangement 5th I-steel and longitudinally arranged 6th I-steel composition；

The length of 5th I-steel is greater than the length of the 4th I-steel.

6. hoisting device for reinforcement cage according to claim 1, which is characterized in that two the lifting suspension centre corresponding two are hung Point support portion setting.

7. hoisting device for reinforcement cage according to claim 1, which is characterized in that the connector be wirerope, chain or Plum-blossom-shape button.

8. hoisting device for reinforcement cage according to claim 7, which is characterized in that the connector is chain；

The chain connection fixed by snap.

9. hoisting device for reinforcement cage according to claim 1, which is characterized in that stress support by steel-pipe welding at Type.