CN207551699U - Convenient for disassembly and assembly, the repeatable steel-reinforcement cage hanger utilized - Google Patents

Abstract

Convenient for disassembly and assembly, the repeatable steel-reinforcement cage hanger utilized provided by the utility model includes the first steel grid, the second steel grid including multiple second nodes, two platform slings and the crossbeam being set between two platform slings of multiple first nodes.First steel grid has the suspension centre region of symmetrical two first nodes for including the first quantity, include the first node of the second quantity on center line between two suspension centre regions, reinforcement rod is all provided between adjacent first node, between adjacent second node and between adjacent first node and second node.Each platform sling is connected to each first node in each suspension centre region by the reinforcement rod of the first quantity, and the reinforcement rod of the first quantity is evenly distributedly connected on the bottom end and opposite sides face of each platform sling.Crossbeam is connected to each first node between two suspension centre regions on center line by the reinforcement rod of the second quantity.The steel reinforcement cage of the utility model hangs convenient for disassembly and assembly, repeatable utilize, and more safe and reliable.

Description

Convenient for disassembly and assembly, the repeatable steel-reinforcement cage hanger utilized

Technical field

The utility model is related to a kind of suspender for the integral hoisting of beam field, particularly a kind of profit convenient for disassembly and assembly, repeatable Steel-reinforcement cage hanger.

Background technology

At present, steel reinforcement cage is widely used in newly built railway, bridge, high-building construction, and steel reinforcement cage is in beam making field or applies Rope is usually used in the handling in working hour or hook is completed, and easily generates stretcher strain to steel reinforcement cage, and during allocation and transportation Steel reinforcement cage easily generates deflection, and adjustment is more difficult, cannot accurately be positioned between two sections steel reinforcement cage, to connector sleeve Mating operation bring obstruction, influence the docking effect of steel reinforcement cage, reduce the construction efficiency of pile foundation, reduce the quality of pile foundation.

During prefabricated box -beam, the suspender for being conventionally used to handling steel reinforcement cage is welded using shaped steel.This reinforcing bar Cage suspender usually carries out blanking, welding at the construction field (site), since scene does not have professional blanking tool and accurate welding Mould, therefore welding deformation is difficult to control, if camber and rigidity is not up to standard, it is most likely that suspender is caused to make failure and influence The problem of reinforcing bar cage hoisting quality.In addition, though it can ensure rigidity, but meeting using the mode for increasing steel section size and dosage Largely cost is caused to increase, in turn result in the waste of fund.In addition, this suspender is fixed pattern, due to volume It is huge, be not suitable for transport, can only be used in beam field one-time investment, and transition expense is excessively high.

Utility model content

For above-mentioned technical problem, the utility model provides a kind of utilization convenient for disassembly and assembly, repeatable, and safety is higher Steel-reinforcement cage hanger.

Convenient for disassembly and assembly, the repeatable steel-reinforcement cage hanger utilized of the utility model includes the first steel grid, the second reinforcing bar Grid, two platform slings and crossbeam.First steel grid includes multiple first nodes, and steel is provided between adjacent first node Muscle bar, the first steel grid have symmetrical two suspension centre regions, and each suspension centre region includes the first node of the first quantity, and two Include the first node of the second quantity on center line between a suspension centre region.Second steel grid is correspondingly arranged in the first bar-mat reinforcement The lower section of lattice, the second steel grid include multiple second nodes, are provided with reinforcement rod between adjacent second node, and multiple second The quantity of node is less than the quantity of multiple first nodes, and reinforcement rod is provided between adjacent first node and second node.Two A platform sling is respectively arranged at the top in two suspension centre regions, and each platform sling is connected to each suspension centre by the reinforcement rod of the first quantity Each first node in region, the reinforcement rod of the first quantity are evenly distributedly connected to the bottom end of each platform sling and opposite sides face On.Crossbeam is set between two platform slings, and crossbeam is connected to center line between two suspension centre regions by the reinforcement rod of the second quantity On each first node, the reinforcement rod of the second quantity is evenly distributedly connected to the bottom end of crossbeam.

Preferably, the first steel grid includes MxN first node, the second steel grid includes（M-1）x（N-1）A Two nodes, M, N are respectively the natural number more than 2, and M is more than N.Further, the first steel grid and the second steel grid be all For rectangular mesh, the first steel grid includes（M-1）x（N-1）A grid, the second steel grid include（M-2）x（N-2）A net Lattice.Further, each second node of the second steel grid all corresponds to the grid element center of the first steel grid.

Preferably, adjacent reinforcement rod is all hinged at each first node using bolt spherical structure, adjacent reinforcement rod It is all hinged at each second node using bolt spherical structure.

Preferably, the opposite sides face in the middle part of crossbeam passes through the reinforcement rod of third quantity between the first steel grid respectively Connection.

Preferably, each platform sling and the reinforcement rod of the first quantity are clamped or are welded and fixed.

Preferably, two platform slings are clamped or are welded and fixed with crossbeam.

Preferably, crossbeam and the reinforcement rod of the second quantity are clamped or are welded and fixed.

Preferably, there are one lifting hole(eyelet)s for the middle part tool of each platform sling.

Compared with prior art, the structure design of the utility model is reasonable, safe and reliable, and steel reinforcement cage is indeformable after lifting.

Description of the drawings

Fig. 1 is convenient for disassembly and assembly, the repeatable side schematic view of steel-reinforcement cage hanger utilized of one embodiment of the utility model.

Fig. 2 is convenient for disassembly and assembly, the repeatable grid node position of steel-reinforcement cage hanger utilized of one embodiment of the utility model Put schematic diagram.

Fig. 3 is the platform sling connection knot of convenient for disassembly and assembly, the repeatable steel-reinforcement cage hanger utilized of one embodiment of the utility model Structure schematic diagram.

Specific embodiment

To make have further understanding to the purpose of this utility model, construction, feature and its function, hereby coordinate embodiment Detailed description are as follows.

Incorporated by reference to referring to Fig. 1 to Fig. 3, Fig. 1 is convenient for disassembly and assembly, the repeatable reinforcing bar utilized of one embodiment of the utility model The side schematic view of cage suspender 100, Fig. 2 are that convenient for disassembly and assembly, the repeatable steel reinforcement cage utilized of one embodiment of the utility model is hung The grid node locations schematic diagram of tool 100, Fig. 3 are convenient for disassembly and assembly, the repeatable reinforcing bar utilized of one embodiment of the utility model The platform sling attachment structure schematic diagram of cage suspender 100.

Convenient for disassembly and assembly, the repeatable steel-reinforcement cage hanger 100 utilized includes the first steel grid 1, the second steel grid 2, two A platform sling 3 and crossbeam 4.

First steel grid 1 includes multiple first nodes 11, and reinforcement rod 12 is provided between adjacent first node 11, the One steel grid 1 has symmetrical two suspension centre regions 10, and each suspension centre region 10 includes the first node 111 of the first quantity, Include the first node 112 of the second quantity on center line between two suspension centre regions 10.

Second steel grid 2 is correspondingly arranged in the lower section of the first steel grid 1, and the second steel grid 2 includes multiple second Node 21, reinforcement rod 22 is provided between adjacent second node 21, and the quantity of multiple second nodes 21 is less than multiple first segments The quantity of point 11, reinforcement rod 121 is provided between adjacent first node 11 and second node 21.

Two platform slings 3 are respectively arranged at the top in two suspension centre regions 10, the reinforcement rod that each platform sling 3 passes through the first quantity 31 are connected to each first node 111 in each suspension centre region 10, and the reinforcement rod 31 of the first quantity is evenly distributedly connected to often On the bottom end of a platform sling 3 and opposite sides face.

For shown in Fig. 1, Fig. 2 and Fig. 3, each suspension centre region 10 includes nine first nodes 111, wherein three reinforcing bars Bar 31 is connected to the one side of platform sling 3（As shown in Fig. 1 visual angles）Between first three first node 111, root reinforcing bar repeatedly Bar 31 is connected to the bottom end of platform sling 3（As shown in Figure 3）Between intermediate three first nodes 111, another three reinforcement rods 31 It is connected to the another side of platform sling 3（It is not shown）Between rear three first nodes 111.It is so designed that greatly enhance and hang The bearing capacity of tool.

In practical applications, each platform sling 3 and the reinforcement rod 31 of the first quantity are clamped or are welded and fixed, the steel of the first quantity Muscle bar 31 is all hinged at first node 111 using bolt spherical structure.

In one embodiment, the middle part tool of each platform sling 3 is there are one lifting hole(eyelet) 30, to install hook.

Crossbeam 4 is set between two platform slings 3, and crossbeam 4 is connected to Liang Ge suspension centres area by the reinforcement rod 41 of the second quantity Each first node 112 between domain 10 on center line, the reinforcement rod 41 of the second quantity are evenly distributedly connected to the bottom of crossbeam 4 End.In one embodiment, two platform slings 3 are clamped or are welded and fixed with crossbeam 4；Crossbeam 4 and the reinforcement rod 41 of the second quantity are clamped Or it is welded and fixed.

Preferably, the opposite sides face at 4 middle part of crossbeam can pass through third quantity between the first steel grid 1 respectively Reinforcement rod（It is not shown）Connection can further enhance the bearing capacity of suspender in this way.

In one embodiment, the first steel grid 1 includes MxN first node 11, and the second steel grid 2 includes（M-1）x （N-1）A second node 21, M, N are respectively the natural number more than 2, and M is more than N.Preferably, the first steel grid 1 and second Steel grid 2 is all rectangular mesh, and the first steel grid 1 includes（M-1）x（N-1）A grid 13, the second steel grid 2 include （M-2）x（N-2）A grid 23.Preferably, each second node 21 of the second steel grid 2 all corresponds to the first steel grid 1 13 center of grid so that stress point is more homodisperse.

In practical applications, adjacent reinforcement rod is all hinged at each first node 11 using bolt spherical structure, adjacent Reinforcement rod be all hinged at each second node 21 using bolt spherical structure.It is connected herein using bolt sphere, this connection mode It is hinged, conducive to the dissipation and absorption of entire load in the structure.It is connect with respect to steel（Girder steel welds entirely）For node, bolt sphere connects The suspender globality and antifatigue damage capability connect is stronger, and suspender itself has the performance of dual safety, and safety is more guaranteed.

The structure design of the utility model is reasonable, convenient for disassembly and assembly, repeatable to utilize, and securely and reliably, after lifting steel reinforcement cage is not Deformation.

The utility model is described by above-mentioned related embodiment, however above-described embodiment is only to implement the utility model Example.It must be noted that the embodiment disclosed is not limiting as the scope of the utility model.On the contrary, not departing from this That is made in the spirit and scope of utility model changes and retouches, and belongs to the scope of patent protection of the utility model.

Claims (10)

1. a kind of steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized, it is characterised in that including：

Including multiple first nodes, reinforcement rod is provided between adjacent first node for first steel grid, first bar-mat reinforcement Lattice have symmetrical two suspension centre regions, and each suspension centre region includes the first node of the first quantity, two suspension centre regions it Between center line on include the first node of the second quantity；

Second steel grid is correspondingly arranged in the lower section of first steel grid, which includes the multiple second sections Point, reinforcement rod is provided between adjacent second node, and the quantity of multiple second node is less than the number of multiple first node Amount, reinforcement rod is provided between adjacent first node and second node；

Two platform slings, are respectively arranged at the top in two suspension centre regions, and each platform sling is connected by the reinforcement rod of the first quantity Each first node in each suspension centre region, the reinforcement rod of first quantity are evenly distributedly connected to the bottom end of each platform sling And on opposite sides face；And

Crossbeam is set between two platform slings, which is connected to two suspension centre regions by the reinforcement rod of the second quantity Between each first node on center line, the reinforcement rod of second quantity is evenly distributedly connected to the bottom end of the crossbeam.

2. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as described in claim 1, which is characterized in that first reinforcing bar Grid includes MxN first node, which includes（M-1）x（N-1）A second node, M, N are respectively to be more than 2 Natural number, and M be more than N.

3. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as claimed in claim 2, which is characterized in that first reinforcing bar Grid and second steel grid are all rectangular mesh, which includes（M-1）x（N-1）A grid, second steel Reinforced net includes（M-2）x（N-2）A grid.

4. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as claimed in claim 3, which is characterized in that second reinforcing bar Each second node of grid all corresponds to the grid element center of first steel grid.

5. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as described in claim 1, which is characterized in that adjacent reinforcing bar Bar is all hinged at each first node using bolt spherical structure, and adjacent reinforcement rod all uses bolt at each second node Spherical structure is hinged.

6. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as described in claim 1, which is characterized in that in the middle part of the crossbeam Opposite sides face connect between first steel grid by the reinforcement rod of third quantity respectively.

7. the as described in claim 1 steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized, which is characterized in that each platform sling with The reinforcement rod clamping of first quantity is welded and fixed.

8. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as described in claim 1, which is characterized in that two platform slings It is clamped or is welded and fixed with the crossbeam.

9. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as described in claim 1, which is characterized in that the crossbeam is with being somebody's turn to do The reinforcement rod clamping of second quantity is welded and fixed.

10. the steel-reinforcement cage hanger convenient for disassembly and assembly, repeatable utilized as described in claim 1, which is characterized in that each platform sling There are one lifting hole(eyelet)s for middle part tool.