CN208546615U - A kind of industrial premises integrated pipe frame vibration prevention system - Google Patents

Abstract

The utility model discloses a kind of industrial premises integrated pipe frame vibration prevention systems, belong to technical field of buildings, including two girders, steel column is fixedly connected to below the both ends of each girder, bracket is fixedly connected on two steel columns, it is fixedly connected with frame body at steel column below the both ends of each bracket, the lower end of frame body is fixedly connected with antidetonation component at the steel column towards the steel column, and antidetonation component steel column adjacent thereto is fixedly connected；The antidetonation component includes channel steel base, and channel steel base has been bolted channel steel, and the both ends of channel steel are arranged with steel structure girder folder respectively, and channel steel base is fixedly connected with frame body at the steel column；The advantages of the utility model has structure simple, and installation, which is all made of, to be bolted, and does not need the angle between adjustment channel steel base, channel steel and steel structure girder folder, improves installation effectiveness and convenient disassembly.

Description

A kind of industrial premises integrated pipe frame vibration prevention system

Technical field

The utility model belongs to technical field of buildings, and in particular to a kind of industrial premises integrated pipe frame vibration prevention system.

Background technique

Line holder used in industrial premises uses traditional welding suspension and support at present, and drawback also gradually highlights, especially It is poor seismic behavior, and the bending of line holder is be easy to cause in earthquake or is collapsed, and is used to influence normal maintenance.Weldering The manufacture craft for connecing suspension and support is usually: being cut at the construction field (site) using profiles such as channel steel, angle steel, simmering and bending, welding, brill Hole, brush paint etc..Traditional welding suspension and support has the disadvantage that

1. waste of material: welding suspension and support often causes to do over again or scrap because of dimensional discrepancy in the production process；Installation Also it will appear in the process because of branch crane system local directed complete set, the component as a result made is unrenewable, to cause waste of material.

2. security risk: in section steel cutting, welding process, sparks flying off in all directions, and powder is flown upward, and causes fire hazard.

3. environmental pollution: noise, arc light and dust smog can be generated in cutting, welding process；It can be produced again in painting process Raw penetrating odor, leads to environmental pollution.

4. installation cost is high: weld suspension and support production, installation need construction site to satisfy the requirements, need cutting machine, weldering The tool equipments such as machine are transported to scene, and numerous personnel of different work posts are participated in by progress, and process is more, time-consuming, causes to be mounted to This height.

5. maintenance cost is high: transformation inconvenience is repaired in later maintenance, cannot be recycled.

6. poor seismic behavior.

For the above problem existing for traditional welding suspension and support, proposes to use finished product bracket in the prior art, can solve The problems such as waste of material, installation cost, but it is limited to main structure component layout, installation risk is high, and without earthquake resistant construction, causes Poor seismic behavior.

Utility model content

The purpose of this utility model is that asking for installation risk height existing for above-mentioned finished product bracket and poor seismic behavior Topic, the utility model provide a kind of industrial premises integrated pipe frame vibration prevention system.

The technical solution adopted in the utility model is as follows:

The both ends lower section of a kind of industrial premises integrated pipe frame vibration prevention system, including two girders, each girder is fixed It is connected with steel column, is fixedly connected to bracket on two steel columns, is fixedly connected with frame at steel column below the both ends of each bracket Body, the lower end of frame body is fixedly connected with antidetonation component at the steel column towards the steel column, and antidetonation component steel column adjacent thereto is solid Fixed connection；

The antidetonation component includes channel steel base, and channel steel base has been bolted channel steel, and the both ends of channel steel are arranged with respectively Steel structure girder folder, channel steel base are fixedly connected with frame body at the steel column.

Preferably, it is fixedly connected below two girders there are two frame body at span centre, at two span centres between frame body It is provided with pull rod, the both ends of pull rod are fixedly connected with the lower end of frame body at two span centres respectively, and pull rod is parallel with the girder.

Preferably, oblique pull is provided between the upper end of the lower end of frame body bracket adjacent thereto at each described span centre Bar, the both ends of brace are fixedly connected with the upper end of the lower end of frame body at span centre and bracket respectively.

Preferably, it is provided with several top cross-bars being parallel to each other between two girders, each top cross-bar Both ends are fixedly connected with two girders, are provided with several rows from top to bottom between frame body at two steel columns and are parallel to each other Transverse beam assembly.

In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are:

1. the antidetonation component of the utility model is formed using channel steel base, channel steel and steel structure girder folder, frame body at steel column Lower end protrude into channel steel base and be bolted, the seat bottom of channel steel base is connect by bolt with channel steel, the two of channel steel End respectively penetrates in the U-shaped hole of two steel structure girders folder, and steel structure girder, which is pressed from both sides, to be contacted close to one end of bolt with steel column, steel structure girder The other end of folder is contacted with channel steel, the bolt on steel structure girder folder is tightened, to reach the earthquake lotus for being subject to frame body at steel column Load passes to steel column；The structure of the antidetonation component is simple, and installation, which is all made of, to be bolted, and does not need adjustment channel steel base, channel steel And the angle between steel structure girder folder, improve installation effectiveness and convenient disassembly.

2. pipeline load is passed to bracket by girder by frame body at span centre, bracket passes to steel column again, increases girder Stability and bearing load；Pull rod is for keeping the distance between frame body at two span centres, for increasing frame at two span centres The stability of body.

3. brace is arranged, for a part of power suffered by frame body at span centre to be directly passed to bracket, bracket is passed to Steel column, the power for avoiding girder from bearing are excessive.

4. top cross-bar is arranged for keeping the distance between two girders, increase the stability of two girders；Crossbeam group Part is for placing pipeline.

5. industrial premises integrated pipe frame system provided by the utility model can be used for rail transport vehicle base rolling stock section Etc. the Maintenance Bases being related to library, maintenance library and other comprehensive pipe support vibration prevention systems.

Detailed description of the invention

The utility model will illustrate by example and with reference to the appended drawing,

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram in the direction B in Fig. 1；

Fig. 3 is the enlarged drawing of a-quadrant in Fig. 1；

Fig. 4 is the structural schematic diagram in the direction C in Fig. 3；

Fig. 5 is the structural schematic diagram of channel steel base；

Fig. 6 is the structural schematic diagram of steel structure girder folder；

Wherein: 1- bracket；2- girder；Frame body at 3- steel column；Frame body at 4- span centre；5- pull rod；6- brace；7- antidetonation structure Part；71- steel structure girder folder；72- channel steel base；73- channel steel；8- steel column；9- top cross-bar；10- transverse beam assembly.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.It elaborates with reference to the accompanying drawing to the utility model.

Embodiment one

The technical solution of the present embodiment are as follows: a kind of industrial premises integrated pipe frame vibration prevention system, including two girders 2, it is each It is fixedly connected to steel column 8 below the both ends of root girder 2, is fixedly connected to bracket 1 on two steel columns 8, each bracket 1 Frame body 3 at steel column are fixedly connected with below both ends, the lower end of frame body 3 is fixedly connected with antidetonation at the steel column towards the steel column 8 Component 7, the steel column 8 adjacent thereto of antidetonation component 7 are fixedly connected；

The antidetonation component 7 includes channel steel base 72, and channel steel base 72 has been bolted channel steel 73, the both ends point of channel steel 73 It is not arranged with steel structure girder folder 71, channel steel base 72 is fixedly connected with frame body 3 at the steel column.

As shown in figures 1 to 6, the lower end of frame body 3 is protruded into channel steel base 72 and is bolted, channel steel base at steel column 72 seat bottom is connect by bolt with channel steel 73, and the both ends of channel steel 73 respectively penetrate in the U-shaped hole of two steel structure girder folders 71, steel Structural beams folder 71 is contacted close to one end of bolt with steel column 8, and the other end of steel structure girder folder 71 is contacted with channel steel 73, tightens steel knot Bolt on structure beam folder 71, passes to steel column 8 for the earthquake load that frame body 3 is subject at steel column to reach；The antidetonation component 7 Structure is simple, and installation, which is all made of, to be bolted, and does not need between adjustment channel steel base 72, channel steel 73 and steel structure girder folder 71 Angle improves installation effectiveness and convenient disassembly.

Embodiment two

On the basis of example 1, the technical solution of the present embodiment are as follows: the lower section of two girders 2 is fixedly connected with Frame body 4 at two span centres, is provided with pull rod 5 at two span centres between frame body 4, the both ends of pull rod 5 respectively with frame at two span centres The lower end of body 4 is fixedly connected, and pull rod 5 is parallel with the girder 2.

As shown in Figure 1, pipeline load by girder 2 is passed to bracket 1 by frame body 4 at span centre, bracket 1 passes to steel column again 8, increase the stability and bearing load of girder 2；Pull rod 5 is for keeping the distance between frame body 4 at two span centres, for increasing Add the stability of frame body 4 at two span centres.

Embodiment three

On the basis of example 2, the technical solution of the present embodiment are as follows: at each described span centre the lower end of frame body 4 with Be provided with brace 6 between the upper end of its adjacent bracket 1, the both ends of brace 6 respectively with the lower end of frame body 4 and ox at span centre The upper end of leg 1 is fixedly connected.

As shown in Figure 1, setting brace 6, for a part of power suffered by frame body 4 at span centre to be directly passed to bracket 1, Bracket 1 passes to steel column 8, and the power for avoiding girder 2 from bearing is excessive.

Example IV

On the basis of example 1, the technical solution of the present embodiment are as follows: be provided with several phases between two girders 2 Mutually parallel top cross-bar 9, the both ends of each top cross-bar 9 are fixedly connected with two girders 2, at two steel columns The transverse beam assembly 10 that several rows are parallel to each other is provided between frame body 3 from top to bottom.

As shown in Figure 1, setting top cross-bar 9 increases the steady of two girders 2 for keeping the distance between two girders 2 It is qualitative；Transverse beam assembly 10 is for placing pipe fitting.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (4)

1. a kind of industrial premises integrated pipe frame vibration prevention system, which is characterized in that including two girders (2), each girder (2) It is fixedly connected to steel column (8) below both ends, is fixedly connected to bracket (1) on two steel columns (8), each bracket (1) It is fixedly connected with frame body at steel column (3) below both ends, the lower end of frame body (3) is fixedly connected at the steel column towards the steel column (8) Have antidetonation component (7), antidetonation component (7) steel column (8) adjacent thereto is fixedly connected；

The antidetonation component (7) includes channel steel base (72), and channel steel base (72) has been bolted channel steel (73), channel steel (73) Both ends are arranged with steel structure girder folder (71) respectively, and channel steel base (72) is fixedly connected with frame body (3) at the steel column.

2. a kind of industrial premises integrated pipe frame vibration prevention system according to claim 1, which is characterized in that two girders (2) it is fixedly connected below there are two frame body (4) at span centre, is provided with pull rod (5), pull rod between frame body (4) at two span centres (5) both ends are fixedly connected with the lower end of frame body (4) at two span centres respectively, and pull rod (5) is parallel with the girder (2).

3. a kind of industrial premises integrated pipe frame vibration prevention system according to claim 2, which is characterized in that each it is described across It is provided with brace (6) between the upper end of the lower end of middle place's frame body (4) bracket (1) adjacent thereto, the both ends point of brace (6) It is not fixedly connected with the upper end of the lower end of frame body at span centre (4) and bracket (1).

4. a kind of industrial premises integrated pipe frame vibration prevention system according to claim 1, which is characterized in that two girders (2) several top cross-bars (9) being parallel to each other, the both ends of each top cross-bar (9) and two girders are provided between (2) it is fixedly connected, is provided with the transverse beam assembly that several rows are parallel to each other at two steel columns between frame body (3) from top to bottom (10)。