CN210461951U - Hoisting mechanism for lateral anti-seismic support of circular pipeline - Google Patents

Abstract

The utility model discloses a hoisting mechanism for lateral anti-seismic supports of circular pipelines, which belongs to the field of anti-seismic hangers of buildings and comprises a vertical connecting rod part and a pipe clamp part connected below the vertical connecting rod part, one side of the vertical connecting rod part is provided with the lateral connecting rod part, the vertical connecting rod part comprises a lead screw and a vertical C-shaped steel arranged at the periphery of the lead screw, a stiffening bolt is arranged on the vertical C-shaped steel and limits the lead screw in the vertical C-shaped steel, the lateral connecting rod part comprises the lateral C-shaped steel and articulated elements connected at the two ends of the lateral C-shaped steel, the pipe clamp part comprises an upper pipe clamp and a lower pipe clamp, the upper pipe clamp and the lower pipe clamp are connected through bolt bolts at the two sides of the upper pipe clamp, the top of the upper pipe clamp is provided with a mounting hole, the lead screw is connected with the mounting hole and the articulated, the articulated elements of the upper ends of the lateral connecting rod parts are connected with anchor bolts which are configured to be connected with a building, and the connecting lines of the two anchor bolts and the central line of the circular pipeline are in a vertical arrangement state.

Description

Hoisting mechanism for lateral anti-seismic support of circular pipeline

Technical Field

The utility model belongs to building antidetonation gallows field, in particular to circular pipeline side direction antidetonation support hoisting machine constructs.

Background

China is located between the Pacific earthquake zone and the Eurasian earthquake zone and is one of the countries with the most earthquakes in the continental areas of the world. The number of earthquake deaths in China accounts for more than half of the number of deaths worldwide, over 7 grades of earthquakes occur in the world more than 1200 times in the century, one tenth of the earthquakes occur in China, and over 6 grades of earthquakes occur in China in recent years on average every year.

Earthquake disasters are mainly caused by earthquake damage of an engineering structure, so that earthquake fortification of the engineering structure is enhanced, engineering measures for improving the earthquake resistance of the existing engineering structure are important means for reducing disasters, earthquake force can be applied to a building and the interior of the building when an earthquake occurs to damage systems such as pipelines, cable troughs or air pipes, an earthquake-proof support measure can be used for transmitting the earthquake action generated by the pipelines and equipment to a structure body when the earthquake with the intensity of fortification occurs, the earthquake-proof support can resist the damage of the earthquake to electromechanical facilities, can also prevent secondary damage (such as fire, falling objects, leakage and the like) caused by the falling of electromechanical equipment such as electric wires, pipelines or fire-fighting systems, and can reduce life and property loss brought by the earthquake to the minimum.

At present, for the installation of pipelines, a common method is to connect profile steels on a wall surface by bolts directly or by angle-shaped brackets, and by adopting the connection mode, when vibration occurs between the brackets and the wall body, the bolts or the brackets are subjected to impact force generated by vibration and cannot be effectively buffered, so that the stress of the hoisted pipelines is overlarge, under the condition, the pipelines are easy to break or leak, the brackets are easy to loosen, deform, corrode and age, further fracture is caused, the reliability and the service life of the brackets are seriously influenced, and the maintenance cost is increased.

Disclosure of Invention

An object of the utility model is to provide a circular pipeline side direction antidetonation support hoisting machine constructs to solve prior art at the poor, complicated technical problem of hoist and mount construction of hoist and mount circular pipeline formula structural strength.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

a hoisting mechanism for lateral anti-seismic support of circular pipeline comprises a vertical connecting rod component and a pipe clamp component connected below the vertical connecting rod component, wherein one side of the vertical connecting rod component is provided with the lateral connecting rod component, the vertical connecting rod component comprises a lead screw and vertical C-shaped steel arranged at the periphery of the lead screw, a stiffening bolt is arranged on the vertical C-shaped steel and limits the lead screw inside the vertical C-shaped steel, the lateral connecting rod component comprises lateral C-shaped steel and articulated pieces connected at the two ends of the lateral C-shaped steel, the pipe clamp component comprises an upper pipe clamp and a lower pipe clamp, the upper pipe clamp and the lower pipe clamp are connected through the bolt bolts at the two sides of the upper pipe clamp, the top of the upper pipe clamp is provided with a mounting hole, the lead screw is connected with the mounting hole and the articulated piece at the bottom through a nut, the top of the lead screw is connected, the anchor bolts are configured to connect the building, and the connecting line of the two anchor bolts is in a vertical arrangement state with the central line of the circular pipeline.

Further, the upper pipe clamp and the lower pipe clamp of the pipe clamp component are ohmic type pipe clamps, the upper pipe clamp is provided with a frame type connecting portion, the frame type connecting portion are welded above the middle portion of the ohmic type pipe clamp, and a mounting hole is formed in the top of the frame type connecting portion. Can improve installation intensity with the accurate laminating of the body that needs the installation, also be convenient for install to it and construction.

Furthermore, two sides of the frame-shaped connecting part are provided with mounting holes. The side connection and the installation are convenient, and the installation strength is improved.

Furthermore, elastic rubber rings are arranged on the upper pipe clamp and the lower pipe clamp. The pipe clamp component is tightly attached to the pipe body, elasticity is improved, buffering is increased, the pipe body is protected, and shock resistance is improved.

Further, the anchor bolt is an M10/M12 expansion bolt. The connection is stable and the installation is convenient.

Furthermore, the vertical C-shaped steel and the lateral C-shaped steel are both provided with inner curled edges, and the edges of the inner curled edges are provided with sawteeth. The anti-skid device can effectively resist skid and is convenient for the reliable connection of the whole system.

Furthermore, the surfaces of the vertical C-shaped steel, the lateral C-shaped steel, the hinge piece, the upper pipe clamp and the lower pipe clamp are provided with an electro-galvanizing layer or a hot-dip galvanizing layer. The corrosion resistance is improved.

Further, the thickness of the electro-galvanizing layer is more than or equal to 8 um; the thickness of the hot dip galvanizing layer is more than or equal to 55 mu m.

After the scheme is adopted, the utility model discloses contrast prior art has following beneficial benefit:

the anti-seismic support hoisting mechanism constructs a stable right-angled triangle structure perpendicular to the installation pipe body through the vertical connecting rod part and the lateral connecting rod part, so that the structural strength can be improved, the impact force of an earthquake can be relieved, and the pipe body can be protected;

the vertical connecting rod component uses vertical C-shaped steel to protect and reinforce the lead screw, and has the characteristics of good structural strength and convenience in construction and installation;

when the lateral connecting rod component is installed and used, the lateral connecting rod component can be quickly connected and installed through the hinge piece, on-site cutting and welding fixation are not needed during on-site construction, the installation efficiency is high, the construction risk is low, the installation precision is high, and the adjustment is convenient;

the pipe clamp part has the characteristics of convenience in adjustment and construction, and is fixed through the bolts at two sides, so that the structural strength is good, and the shock resistance is strong.

Drawings

Fig. 1 is a schematic view of the overall structure of the preferred embodiment.

FIG. 2 is an exploded view of the vertical link components of the preferred embodiment.

FIG. 3 is an exploded view of the lateral link components of the preferred embodiment.

Figure 4 is an exploded view of the preferred embodiment tube clamp assembly.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples:

referring to fig. 1 and 2, the hoisting mechanism for the lateral anti-seismic support of the circular pipeline comprises a vertical connecting rod part 1 and a pipe clamp part 2 connected below the vertical connecting rod part, wherein a lateral connecting rod part 3 is arranged on one side of the vertical connecting rod part 1, and a pipe 5 is limited inside the pipe clamp part 2.

The vertical connecting rod part 1 comprises a lead screw 11 and a vertical C-shaped steel 12 arranged at the periphery of the lead screw 11, the vertical C-shaped steel 12 is provided with an internal curling edge, the edge of the internal curling edge is provided with sawteeth, two stiffening bolts 13 are arranged at the upper end and the lower end of one side of an opening of the vertical C-shaped steel 12, two sides of a nut piece of each stiffening bolt 13 are provided with tooth holes, the nut piece is arranged in the opening of the vertical C-shaped steel 12, the tooth holes above the nut piece can be meshed with the sawteeth of the vertical C-shaped steel 12, one end of each stiffening bolt 13 is provided with a V-shaped clamping piece which can be attached to the lead screw 11, under the action of bolts, the stiffening nuts 13 can firmly limit the lead screw 11 in the vertical C-shaped steel 12, the bearing capacity of the lead screw 11 is improved, the situations of shaking and the like can be prevented, the top of the lead screw is connected with an expansion bolt 15 through a hexagon nut 14, the expansion bolt 15 can be an M, the connecting structure has the characteristics of stable connection and convenient installation;

at the bottom of the vertical connecting rod part 1 and the lower end of the screw rod 11, the screw rod 11 respectively passes through the mounting holes of the lateral connecting rod part 3 and the pipe clamp part 2 and is tightly and fixedly connected through a nut;

referring to FIG. 3, the lateral connecting rod part 3 includes a lateral C-shaped steel 31 and a hinge 32 at both ends thereof, the lateral C-shaped steel 31 is similar to the vertical C-shaped steel 12 in structure and is easy to procure and process, the lateral C-shaped steel 12 is also provided with an inner curled edge, the edge of the inner curled edge is provided with saw teeth, the hinge 32 includes an installation portion 301 and a connection portion 302, the installation portion 301 and the connection portion 302 are fixedly connected through a bolt 303, the angle between the installation portion 301 and the connection portion 302 can be adjusted under the action of the bolt 303, the connection portion 302 is provided with two connecting holes through which the bolt 304 passes, the other end of the bolt 304 is provided with a wing-shaping bracket 305, the wing-shaping bracket 305 is provided with a through slot for placing a nut 306, the nut 306 is placed inside the opening of the lateral C-shaped steel 31 through the wing-shaping bracket 305, both sides of the nut 306 are provided with tooth holes, the tooth holes can be, the wing-modeling bracket 305 can be conveniently aligned, placed and constructed, the accuracy and the working efficiency are improved, the hinge piece 32 and the lateral C-shaped steel 31 can be tightly and fixedly connected by screwing the bolt 304, the installation operation and the position and the distance between the hinge piece and the lateral C-shaped steel 31 are convenient to install, a mounting hole is formed in the mounting part 301 of the hinge piece 32 at the top of the lateral C-shaped steel 31 and used for connecting an expansion bolt 34, the expansion bolt 34 can be connected to a building, a mounting hole is formed in the mounting part 301 of the hinge piece 32 at the bottom of the lateral C-shaped steel 31 and used for being connected with the lead screw 11, cover plates 33 are arranged at two ends of the lateral C-shaped steel 31, and the cover plates 33 play roles of dust prevention, attractiveness and corrosion resistance and can reduce the possibility of damaging a;

referring to fig. 4, pipe clamp part 2 includes upper pipe clamp 21 and lower pipe clamp 22, it is ohm type pipe clamp, upper pipe clamp 22 is equipped with frame connecting portion 23, frame connecting portion 23 welds the top at ohm type pipe clamp middle part, the top and the side of frame connecting portion 23 all are equipped with the mounting hole, the mounting hole at top is used for being connected with lead screw 11, the mounting hole of side can be used for the side position to be connected, improve the convenience of installation intensity and installation, the both sides of upper pipe clamp 21 and lower pipe clamp 22 all are equipped with the mounting hole, can closely fix pipe fitting 5 that needs the installation inside it through spiral shell formula 25, all set elastic rubber circle 24 in upper pipe clamp 21 and lower pipe clamp 22 circular arc department, can make pipe clamp part 2 and body 5 closely laminate, improve elasticity, protect the body, increase the buffering, improve the shock resistance.

In the actual installation process, body 5 is closely restricted in pipe clamp part 1, in perpendicular connecting rod part 1, can adjust the height position of lead screw 11 through hexagon nut 15, in side direction connecting rod part 3, can adjust the position between side direction C shaped steel 31 and articulated elements 32 through bolt 304, finally guarantee that perpendicular connecting rod part 1 and side direction connecting rod part 3 and the connecting wire between two expansion bolts form a firm triangle-shaped structure, guarantee simultaneously that the connecting wire between two expansion bolts becomes the vertical arrangement state with the central line of body 5, finally form a firm mounting structure.

Through this circular pipeline side direction antidetonation support hoisting machine constructs, can improve the shock resistance of whole system greatly, need not on-the-spot cutting and welded fastening simultaneously when site operation, the installation effectiveness is high, and the construction risk is low, and the installation accuracy is high, and it is convenient to adjust, is convenient for maintain and promote.

Claims (8)

1. The utility model provides a circular pipeline side direction antidetonation support hoisting machine constructs which characterized in that: including, vertical connecting rod part and the pipe clamp part of connection in vertical connecting rod part below, one side of vertical connecting rod part is provided with side direction connecting rod part, vertical connecting rod part includes the lead screw and sets up in lead screw outlying perpendicular C shaped steel, be provided with the bolt of putting more energy into on the perpendicular C shaped steel, the bolt of putting more energy into will the lead screw restriction is inside perpendicular C shaped steel, side direction connecting rod part includes side direction C shaped steel and connects the articulated elements at side direction C shaped steel both ends, pipe clamp part includes upper tube clamp and lower tube clamp, upper tube clamp is connected through the bolt of its both sides with lower tube clamp, the upper tube clamp top is equipped with the mounting hole, the lead screw pass through the nut with the mounting hole and bottom articulated elements are connected, the top of lead screw is connected with the crab-bolt, the articulated elements of side direction connecting rod part upper end are connected with the crab-, the connecting line of the two anchor bolts and the central line of the circular pipeline are in a vertical arrangement state.

2. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 1, characterized in that: the upper pipe clamp and the lower pipe clamp of the pipe clamp component are ohmic type pipe clamps, the upper pipe clamp is provided with a frame type connecting portion, the frame type connecting portion are welded above the middle portion of the ohmic type pipe clamp, and the top of the frame type connecting portion is provided with a mounting hole.

3. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 1, characterized in that: two sides of the frame-shaped connecting part are provided with mounting holes.

4. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 1, characterized in that: and elastic rubber rings are arranged on the upper pipe clamp and the lower pipe clamp.

5. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 1, characterized in that: the anchor bolt is an M10/M12 expansion bolt.

6. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 1, characterized in that: the vertical C-shaped steel and the lateral C-shaped steel are both provided with inner curled edges, and sawteeth are arranged on the edges of the inner curled edges.

7. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 1, characterized in that: and the surfaces of the vertical C-shaped steel, the lateral C-shaped steel, the hinge piece, the upper pipe clamp and the lower pipe clamp are provided with an electro-galvanizing layer or a hot-dip galvanizing layer.

8. The hoisting mechanism for the lateral anti-seismic support of the circular pipeline according to claim 7, wherein: the thickness of the electrogalvanizing layer is more than or equal to 8 um; the thickness of the hot dip galvanizing layer is more than or equal to 55 mu m.

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