CN214744125U - Long heat transfer network arch pipe support structure - Google Patents

Abstract

The utility model is suitable for a heat supply technical field provides a long heat transfer net arch pipe support structure, including the support frame, the top bolt of support frame has the mounting bracket, the top bolt of mounting bracket has a plurality of fixed boxes, the top sliding connection of fixed box inner wall has the connecting plate, the bottom of fixed box inner wall has seted up the fixed slot, the inside bolt of fixed slot has the dead lever; the utility model discloses when can carrying out steady support to the pipeline, can also carry out shock attenuation buffering protection to bearing structure, effectively improve the support effect of device, easy to assemble, it is impaired to prevent the pipeline, it adopts the hoist cable structure mostly to have solved current pipeline laying scheme, can produce vibrations at the during operation when the pipeline, can lead to the hoist cable to take place to rock, cause certain influence to the stability of hoist cable structure, but also can cause fatigue damage to pipeline and hoist cable structure, bring troublesome problem for the staff.

Description

Long heat transfer network arch pipe support structure

Technical Field

The utility model belongs to the technical field of the heat supply, especially, relate to a long heat transfer network arch pipe support structure.

Background

Heat supply mainly aims at northern cities; and (4) heat preservation measures. At present, the main measures adopted in China are that heat is concentrated in a larger area, and a concentrated heat source is utilized to supply heat for production, life and heating to factories and civil buildings in the area; central heating has been known for nearly a hundred years. It has the advantages of saving fuel, reducing city pollution, etc. and thus has fast development speed. There have been more than 20 countries in the world that use central heating.

At present, the construction and operation of a 42km long-distance heat supply pipeline can be realized in China, and the long-distance heat supply pipeline is bound to become a mainstream technology in the heat supply field of China in the long-distance view. But because the topography of china is complicated, especially the large-scale river of midwest, the trench is more, it is great to cause the pipeline span, the application of heat supply has led to the fact not little challenge for long distance, but present pipeline laying scheme adopts the hoist cable structure mostly, can produce vibrations when the pipeline is at the during operation, can lead to the hoist cable to take place to rock, cause certain influence to the stability of hoist cable structure, and still can cause fatigue damage to pipeline and hoist cable structure, bring the trouble for the staff, for this reason we propose one kind can carry out steady support to the pipeline, can also carry out shock attenuation buffering protection to bearing structure, effectively improve the support effect of device, easy to assemble, prevent that the impaired pipe support structure of pipeline from solving this problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a long defeated heat supply network arch pipe support structure aims at solving the problem that proposes among the above-mentioned background art.

The utility model is realized in such a way, an arched pipe frame structure of a long heat transfer network comprises a support frame, wherein the top of the support frame is bolted with a mounting frame, the top of the mounting frame is bolted with a plurality of fixing boxes, the upper parts of the inner walls of the fixing boxes are slidably connected with a connecting plate, the bottom parts of the inner walls of the fixing boxes are provided with fixing rods, the fixing rods are bolted in the fixing grooves, the front and the back of the surface of each fixing rod are sleeved with a sliding sleeve, the surface of one side, opposite to the sliding sleeve, of each sliding sleeve is bolted with a first compression spring, the first compression spring is sleeved on the surface of each fixing rod, the top parts of the sliding sleeves are hinged with connecting rods, the top ends of the connecting rods are hinged with the bottom parts of the connecting plates, the front and the back sides of the top parts of the connecting plates are provided with fixing plates, the surface of one side, opposite to the fixing plates, is provided with a first chute, the bottom parts of the fixing plates are bolted with first sliding blocks, and the inner wall sliding connection of first slider and first spout, the top of fixed plate is provided with the mounting panel, the second spout has been seted up to the bottom of mounting panel, the top bolt of fixed plate has connect the second slider, and the inner wall sliding connection of second slider and second spout, the top of fixed plate one side in opposite directions articulates there is the installation pole, one side of installation pole is provided with fixed knot and constructs.

Preferably, fixed knot constructs including stationary blade, bolt and screw hole, the stationary blade bolt joint is in the one end that the fixed plate was kept away from to the installation pole, and the inner wall sliding connection of stationary blade and second spout, the screw has been seted up on the surface of stationary blade, and the screw threaded connection on bolt and stationary blade surface, the top at second spout inner wall is seted up to the screw hole, and bolt and screw hole threaded connection.

Preferably, first guide grooves are formed in the front side and the rear side of the inner wall of the fixing box, guide blocks are bolted to the bottoms of the front side and the rear side of the connecting plate, one side of each guide block extends to the inside of the corresponding first guide groove and is in sliding connection with the inner wall of the corresponding first guide groove, guide rods are bolted to the inside of the corresponding first guide groove and penetrate through the guide blocks and are in sliding connection with the guide blocks.

Preferably, a second compression spring is fixedly installed at the bottom of the inner wall of the first guide groove, the top of the second compression spring is bolted with the guide block, and the second compression spring is sleeved on the surface of the guide rod.

Preferably, the second guide groove is formed in the left side and the right side of the inner wall of the first sliding groove, the connecting shafts are bolted to the left side and the right side of the first sliding block, one end of each connecting shaft extends to the inside of the corresponding second guide groove and is provided with a roller, and the rollers are connected with the inner wall of the corresponding second guide groove in a rolling mode.

Preferably, the fixed orifices has all been seted up on the surface of one side that the fixed plate is in opposite directions, and the fixed orifices is the annular setting, the inside of fixed orifices is provided with the screw, and the fixed orifices uses with the screw cooperation on installation pipeline surface, the fixed plate bonds in opposite directions the surface of one side has the protection pad, and the protection pad is made by heat-resisting rubber material.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses when can carrying out steady support to the pipeline, can also carry out shock attenuation buffering protection to bearing structure, effectively improve the support effect of device, easy to assemble, it is impaired to prevent the pipeline, it adopts the hoist cable structure mostly to have solved current pipeline laying scheme, can produce vibrations at the during operation when the pipeline, can lead to the hoist cable to take place to rock, cause certain influence to the stability of hoist cable structure, but also can cause fatigue damage to pipeline and hoist cable structure, bring troublesome problem for the staff.

Drawings

FIG. 1 is a front sectional view of the structure of the present invention;

FIG. 2 is a left side sectional view of the partial structure of the present invention;

FIG. 3 is a perspective view of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1;

fig. 5 is a partial enlarged view of the utility model at B in fig. 2;

in the figure: 1. a support frame; 2. a mounting frame; 3. a fixing box; 4. a connecting plate; 5. fixing grooves; 6. fixing the rod; 7. a sliding sleeve; 8. a first compression spring; 9. a connecting rod; 10. a fixing plate; 11. a first chute; 12. a first slider; 13. mounting a plate; 14. a second chute; 15. a second slider; 16. mounting a rod; 17. a fixed structure; 171. a fixing sheet; 172. a bolt; 173. a threaded hole; 18. a first guide groove; 19. a guide block; 20. a guide bar; 21. a second compression spring; 22. a second guide groove; 23. a connecting shaft; 24. a roller; 25. a fixing hole; 26. and (6) a protective pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-5, the utility model provides an arched pipe frame structure of a long heat transfer network, which comprises a support frame 1, a mounting frame 2 is bolted on the top of the support frame 1, a plurality of fixing boxes 3 are bolted on the top of the mounting frame 2, a connecting plate 4 is slidably connected on the upper part of the inner wall of the fixing boxes 3, a fixing groove 5 is arranged on the bottom of the inner wall of the fixing box 3, a fixing rod 6 is bolted on the inner part of the fixing groove 5, sliding sleeves 7 are respectively sleeved on the front and back sides of the surface of the fixing rod 6, a first compression spring 8 is bolted on the surface of one side of the sliding sleeve 7, the surface of the fixing rod 6 is sleeved with the first compression spring 8, a connecting rod 9 is hinged on the top of the sliding sleeve 7, the top end of the connecting rod 9 is hinged with the bottom of the connecting plate 4, fixing plates 10 are respectively arranged on the front and back sides of the top of the connecting plate 4, the surface of one side of the fixing plates 10 is arranged in a semicircular arc shape, a first chute 11 is arranged on the top of the connecting plate 4, first slider 12 has been bolted to the bottom of fixed plate 10, and the inner wall sliding connection of first slider 12 and first spout 11, and the top of fixed plate 10 is provided with mounting panel 13, and second spout 14 has been seted up to the bottom of mounting panel 13, and the top of fixed plate 10 is bolted and is connected second slider 15, and the inner wall sliding connection of second slider 15 and second spout 14, and the top of fixed plate 10 one side in opposite directions articulates there is installation pole 16, and one side of installation pole 16 is provided with fixed knot and constructs 17.

In this embodiment, the device can carry out the steady support to the pipeline when, can also carry out shock attenuation buffering protection to bearing structure, effectively improve the support effect of device, easy to assemble, it is impaired to prevent the pipeline, it adopts the hoist cable structure mostly to have solved current pipeline laying scheme, can produce vibrations when the pipeline at the during operation, can lead to the hoist cable to take place to rock, cause certain influence to the stability of hoist cable structure, but also can lead to the fact fatigue damage to pipeline and hoist cable structure, bring troublesome problem for the staff.

Further, the fixing structure 17 includes a fixing plate 171, a bolt 172 and a threaded hole 173, the fixing plate 171 is bolted to one end of the mounting rod 16 far away from the fixing plate 10, the fixing plate 171 is slidably connected to the inner wall of the second sliding chute 14, the surface of the fixing plate 171 is provided with the threaded hole, the bolt 172 is in threaded connection with the threaded hole on the surface of the fixing plate 171, the threaded hole 173 is provided at the top of the inner wall of the second sliding chute 14, and the bolt 172 is in threaded connection with the threaded hole 173.

In this embodiment, the fixing plate 171, the bolt 172 and the threaded hole 173 are provided to facilitate adjustment and fixation of the position of the fixing plate 10, and to facilitate subsequent pipe installation work.

Further, first guide way 18 has all been seted up to fixed box 3 inner wall around both sides, and the bottom of both sides all bolted connection has guide block 19 around connecting plate 4, and one side of guide block 19 extend to the inside of first guide way 18 and with the inner wall sliding connection of first guide way 18, the inside bolted connection of first guide way 18 has guide bar 20, and guide bar 20 runs through guide block 19 and with guide block 19 sliding connection.

In the present embodiment, the effect of fixing the fixing box 3 to the connecting plate 4 is improved by the provision of the first guide groove 18, the guide block 19, and the guide rod 20.

Further, a second compression spring 21 is fixedly installed at the bottom of the inner wall of the first guide groove 18, the top of the second compression spring 21 is bolted with the guide block 19, and the second compression spring 21 is sleeved on the surface of the guide rod 20.

In the present embodiment, the second compression spring 21 is provided, thereby further improving the damping effect of the shock absorber on the pipe.

Further, second guide way 22 has all been seted up to the left and right sides of first spout 11 inner wall, and the left and right sides of first slider 12 all is bolted connection has connecting axle 23, and the one end of connecting axle 23 extends to the inside of second guide way 22 and installs gyro wheel 24, and gyro wheel 24 and the inner wall roll connection of second guide way 22.

In the present embodiment, the position of the fixing plate 10 is easily moved by the arrangement of the second guide groove 22, the connecting shaft 23 and the roller 24.

Further, the fixed plate 10 has all seted up fixed orifices 25 on the surface of one side in opposite directions, and fixed orifices 25 are the annular setting, and the inside of fixed orifices 25 is provided with the screw, and fixed orifices 25 uses with the screw cooperation on installation pipeline surface, and the surface of one side in opposite directions of fixed plate 10 bonds has protection pad 26, and protection pad 26 is made by heat-resisting rubber material.

In the present embodiment, the fixing holes 25 are provided to facilitate the fixing of the fixing plate 10 to the pipe, and the protection pad 26 is provided to protect the pipe.

The utility model discloses a theory of operation and use flow: when a pipeline needs to be laid, the supporting frame 1 is installed at a gully of the laid pipeline, the bolts 172 are removed from the fixing plates 171, then the fixing plates 10 are pulled towards two sides, the pipeline is moved to a position between the fixing plates 10, after the pipeline is moved, the fixing plates 10 are pushed towards the pipeline direction, so that the fixing plates 10 at two sides clamp the pipeline, then the fixing plates 10 are fixedly installed with the pipeline through the fixing holes 25 and the screw holes on the pipeline, after the installation is finished, the bolts 172 are reinstalled into the fixing plates 171 and the corresponding screw holes 173, the fixing of the fixing plates 10 is finished, so as to finish the installation work of the pipeline, when the pipeline shakes, the connecting plate 4 is moved up and down in the fixing box 3, the connecting rod 9 pushes the sliding sleeve 7 to extrude or stretch the first compression spring 8, so as to buffer the shake, when the connecting plate 4 moves, the guide block 19 presses the second compression spring 21 to buffer and protect the pipeline, so that the buffer and damping operation of the device and the pipeline is completed.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a long heat supply network arch pipe support structure, includes support frame (1), its characterized in that: the top of the support frame (1) is bolted with a mounting frame (2), the top of the mounting frame (2) is bolted with a plurality of fixing boxes (3), a connecting plate (4) is slidably connected above the inner wall of the fixing boxes (3), a fixing groove (5) is formed in the bottom of the inner wall of the fixing boxes (3), a fixing rod (6) is bolted inside the fixing groove (5), sliding sleeves (7) are sleeved on the front and rear sides of the surface of the fixing rod (6), a first compression spring (8) is bolted on the surface of one opposite side of each sliding sleeve (7), the surface of the fixing rod (6) is sleeved with the first compression spring (8), a connecting rod (9) is hinged to the top of each sliding sleeve (7), the top end of each connecting rod (9) is hinged to the bottom of the corresponding connecting plate (4), fixing plates (10) are arranged on the front side and the rear side of the top of each connecting plate (4), and the surface of one opposite side of each fixing plate (10) is in a semicircular arc shape, first spout (11) have been seted up at the top of connecting plate (4), the bottom of fixed plate (10) has been bolted first slider (12), and the inner wall sliding connection of first slider (12) and first spout (11), the top of fixed plate (10) is provided with mounting panel (13), second spout (14) have been seted up to the bottom of mounting panel (13), the top of fixed plate (10) has been bolted second slider (15), and the inner wall sliding connection of second slider (15) and second spout (14), the top of fixed plate (10) one side in opposite directions articulates there is installation pole (16), one side of installation pole (16) is provided with fixed knot structure (17).

2. The arched pipe rack structure for long heat transfer nets of claim 1, wherein: fixed knot constructs (17) including stationary blade (171), bolt (172) and screw hole (173), the one end of fixed plate (10) is kept away from in installation pole (16) to stationary blade (171) bolt, and the inner wall sliding connection of stationary blade (171) and second spout (14), the screw has been seted up on the surface of stationary blade (171), and bolt (172) and the screw threaded connection on stationary blade (171) surface, screw hole (173) are seted up at the top of second spout (14) inner wall, and bolt (172) and screw hole (173) threaded connection.

3. The arched pipe rack structure for long heat transfer nets of claim 1, wherein: first guide way (18) have all been seted up to fixed box (3) inner wall around both sides, the bottom of both sides all bolted connection has guide block (19) around connecting plate (4), and one side of guide block (19) extend to the inside of first guide way (18) and with the inner wall sliding connection of first guide way (18), the inside bolt of first guide way (18) has connect guide bar (20), and guide bar (20) run through guide block (19) and with guide block (19) sliding connection.

4. The arched pipe rack structure for long heat transfer nets of claim 3, wherein: and a second compression spring (21) is fixedly installed at the bottom of the inner wall of the first guide groove (18), the top of the second compression spring (21) is bolted with the guide block (19), and the second compression spring (21) is sleeved on the surface of the guide rod (20).

5. The arched pipe rack structure for long heat transfer nets of claim 1, wherein: second guide way (22) have all been seted up to the left and right sides of first spout (11) inner wall, all bolted connection has connecting axle (23) in the left and right sides of first slider (12), the one end of connecting axle (23) extends to the inside of second guide way (22) and installs gyro wheel (24), and the inner wall roll connection of gyro wheel (24) and second guide way (22).

6. The arched pipe rack structure for long heat transfer nets of claim 1, wherein: fixed plate (10) the surface of one side in opposite directions has all been seted up fixed orifices (25), and fixed orifices (25) are the annular setting, the inside of fixed orifices (25) is provided with the screw, and fixed orifices (25) use with the screw cooperation on installation pipeline surface, the surface bonding of fixed plate (10) one side in opposite directions has protection pad (26), and protection pad (26) are made by heat-resisting rubber material.

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