CN208039883U - Safe cable architecture for rectangle truss - Google Patents

Abstract

The utility model is related to construction safety technical fields, disclose a kind of safe cable architecture for rectangle truss, it is vertically installed with fixing bracket on four angles of rectangle truss, girder safety line is fixedly connected between adjacent fixing bracket, be connected with sliding safety line between two opposite girder safety lines, the both ends of the sliding safety line respectively the girder safety line opposite with two be fixedly connected and can in two girder safety lines slidable adjustment.It is simple and reasonable, the hanging point of safety belt can be provided for rectangle truss installa-tion operating personnel, meanwhile, the cost of safety line setting is reduced, construction and installation efficiency is improved.

Description

Safe cable architecture for rectangle truss

Technical field

The utility model is related to construction safety technical fields, more particularly to a kind of safe cable architecture for rectangle truss.

Background technology

The setting of rectangle truss life safety line is to install a kind of safety prevention measure of truss, as shown in Figure 1, traditional The setting of rectangle truss life safety line is mainly arranged along the girder and secondary beam of rectangle truss one by one successively, i.e., girder safety line and Secondary beam safety line is fixedly installed with girder and secondary beam correspondingly respectively；Although the structure setting of this safety line can be fine Ground provides the hanging point of safety belt for rectangle truss installa-tion operating personnel, but this structure need will along rectangle truss primary-secondary beam according to It is secondary that safety line is set one by one, so consumptive material is more, it is more to take, lead to cost increase and low construction efficiency.

Utility model content

The goal of the invention of the utility model is：In view of the above problems, a kind of peace for rectangle truss is provided All fronts structure, it is simple and reasonable, the hanging point of safety belt can be provided for rectangle truss installa-tion operating personnel, meanwhile, it reduces The cost of safety line setting, improves construction and installation efficiency.

The technical solution adopted in the utility model is such：For the safe cable architecture of rectangle truss, in rectangle truss Four angles on be vertically installed with fixing bracket, girder safety line is fixedly connected between adjacent fixing bracket, two It is connected with sliding safety line between the opposite girder safety line of root, the both ends of the sliding safety line master opposite with two respectively Safety beam line be fixedly connected and can in two girder safety lines slidable adjustment.

In safe cable architecture described in the utility model for rectangle truss, the sliding safety line and rectangle truss Secondary beam is parallel.

In safe cable architecture described in the utility model for rectangle truss, the sliding safety line and rectangle truss Secondary beam is vertical.

The both ends of safe cable architecture described in the utility model for rectangle truss, the sliding safety line have sliding Ring, correspondence is sleeved in two opposite girder safety lines two slip rings respectively, has threaded hole, the screw thread on the slip ring Clamping screw is installed, the end of the clamping screw can hold out against the girder safety line in hole.

The end of safe cable architecture described in the utility model for rectangle truss, the clamping screw has arc pressure Plate, the arc pressuring plate are rotatablely connected with the clamping screw end, have anti-rotary column, the slip ring on the arc pressuring plate It is upper that there is anti-rotating hole, the anti-rotary column to pass through the anti-rotating hole.

Safe cable architecture described in the utility model for rectangle truss, the girder safety line and the fixing bracket Between achieved a fixed connection by U-shaped card.

Safe cable architecture described in the utility model for rectangle truss, the girder safety line and sliding safety line are equal For steel wire rope.

In conclusion by adopting the above-described technical solution, the utility model has the beneficial effects that：The utility model structure Advantages of simple can provide the hanging point of safety belt for rectangle truss installa-tion operating personnel, meanwhile, reduce safety line setting Cost improves construction and installation efficiency.

Description of the drawings

Fig. 1 is the traditional safe cable architecture of rectangle truss；

Fig. 2 is the structural schematic diagram of the utility model；

Fig. 3 is that safety line, girder safety line, slip ring, clamping screw, arc pressuring plate and anti-rotation are slided in the utility model The scheme of installation of column.

It is marked in figure：1 is girder, and 2 be secondary beam, and 3 be fixing bracket, and 4 be main safety beam line, and 5 be secondary beam safety line, and 6 are Safety line is slided, 7 be slip ring, and 8 be clamping screw, and 9 be arc pressuring plate, and 10 be anti-rotary column.

Specific implementation mode

Below in conjunction with the accompanying drawings, the utility model is described in detail.

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

Embodiment 1

As shown in Figures 2 and 3, it is used for the safe cable architecture of rectangle truss, is vertically fixed on four angles of rectangle truss Fixing bracket 3 is installed, girder safety line 4 is fixedly connected between adjacent fixing bracket 3, girder safety line 4 is corresponding with girder 1 Setting, specifically, is achieved a fixed connection between the girder safety line 4 and the fixing bracket 3 by U-shaped card so that girder Being fixedly connected between safety line 4 and fixing bracket 3 is convenient and efficient, and cunning is connected between two opposite girder safety lines 4 Dynamic safety line 6, the girder safety line 4 opposite with two is fixedly connected and can be in two master respectively for the both ends of the sliding safety line 6 Slidable adjustment on safety beam line 4, the sliding safety line 6 is parallel with the secondary beam 2 in rectangle truss, 4 He of girder safety line It is steel wire rope to slide safety line 6, is needed in operation on which root secondary beam 2, and 6 slidable adjustment of safety line so far secondary beam 2 will be slided Top, so set, convenient working personnel carry out operation on every corresponding secondary beam 2, sliding safety line 6 can be Slidable adjustment in two girder safety lines 4 disclosure satisfy that operating personnel has reliable safety belt on all girders 1 and secondary beam 2 Hanging point reduces material cost, improves happy construction and installation efficiency.

Further, the both ends of the sliding safety line 6 have slip ring 7, and correspondence is sleeved on two-phase to two slip rings 7 respectively To girder safety line 4 on, on the slip ring 7 have threaded hole（It is not shown in figure）, locking is installed in the threaded hole The end of bolt 8, the clamping screw 8 can hold out against the girder safety line 4, be arranged such so that sliding safety line 6 is in two masters Slidable adjustment on safety beam line 4 is more convenient, and can be achieved to be locked after the completion of adjusting, the safety belt of convenient working personnel System hangs.

Specifically, the end of the clamping screw 8 has arc pressuring plate 9, the arc pressuring plate 9 and the clamping screw 8 End is rotatablely connected, and has anti-rotary column 10 on the arc pressuring plate 9, has anti-rotating hole on the slip ring 7（It is not shown in figure）, The anti-rotary column 10 passes through the anti-rotating hole, and rotation lock bolt 8, which can be realized, drives arc pressuring plate 9 to compress girder safety line 4, makes Fixed locking between winner's safety beam line 4 and slip ring 7, during locking, the cooperation of anti-rotary column 10 and anti-rotating hole can anti-rotation arc Shape pressing plate 9 is rotated relative to slip ring 7, ensures that the curved portion on arc pressuring plate 9 can smoothly be bonded contact girder safety line 4, Arc pressuring plate 9 enables clamping screw 8 more reliably to hold out against girder safety line 4.

Embodiment 2

Difference lies in the sliding safety line 6 is vertical with the secondary beam 2 in rectangle truss with embodiment 1 for the present embodiment 2 Setting, can also conveniently realize operating personnel and carry out operation on every corresponding secondary beam 2.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.

Claims (7)

1. for the safe cable architecture of rectangle truss, fixing bracket is vertically installed on four angles of rectangle truss （3）, adjacent fixing bracket（3）Between be fixedly connected with girder safety line（4）, it is characterised in that：In two opposite girder peaces Completely（4）Between be connected with sliding safety line（6）, the sliding safety line（6）Both ends opposite with two girder peace respectively Completely（4）It is fixedly connected and can be in two girder safety lines（4）Upper slidable adjustment.

2. the safe cable architecture according to claim 1 for rectangle truss, it is characterised in that：The sliding safety line （6）With the secondary beam in rectangle truss（2）It is parallel.

3. the safe cable architecture according to claim 1 for rectangle truss, it is characterised in that：The sliding safety line （6）With the secondary beam in rectangle truss（2）Vertically.

4. the safe cable architecture according to claim 1 for rectangle truss, it is characterised in that：The sliding safety line （6）Both ends have slip ring（7）, two slip rings（7）Correspondence is sleeved on two opposite girder safety lines respectively（4）On, it is described Slip ring（7）It is upper that there is threaded hole, clamping screw is installed in the threaded hole（8）, the clamping screw（8）End Ke Ding The tight girder safety line（4）.

5. the safe cable architecture according to claim 4 for rectangle truss, it is characterised in that：The clamping screw（8） End have arc pressuring plate（9）, the arc pressuring plate（9）With the clamping screw（8）End is rotatablely connected, the arc pressure Plate（9）It is upper that there is anti-rotary column（10）, the slip ring（7）It is upper that there is anti-rotating hole, the anti-rotary column（10）Across the anti-rotating hole.

6. the safe cable architecture according to claim 1 for rectangle truss, it is characterised in that：The girder safety line （4）With the fixing bracket（3）Between achieved a fixed connection by U-shaped card.

7. the safe cable architecture according to claim 1 for rectangle truss, it is characterised in that：The girder safety line （4）With sliding safety line（6）It is steel wire rope.