CN210319040U - Antidetonation heating pipeline - Google Patents

Abstract

The utility model discloses an antidetonation heating pipeline belongs to building pipeline mounting structure technical field. Its technical essential includes pipeline body and a plurality of being used for connecting the bradyseism subassembly of pipeline body and wall body, the bradyseism subassembly include the mounting bracket and slide connect in two telescoping devices of mounting bracket lower extreme, two be provided with the connecting plate between telescoping device's the lower extreme, can dismantle on the connecting plate and be connected with down fixed hoop, one side of fixed hoop is rotated down and is connected with rather than the complex fixed hoop of going up, just the one end of going up fixed hoop and keeping away from down fixed hoop is provided with and fixes hoop complex fastening bolt down, the inboard of going up fixed hoop and fixed hoop down is provided with the shock pad respectively, the utility model has the advantages of the antidetonation is effectual, and simple structure, easy to assemble.

Description

Antidetonation heating pipeline

Technical Field

The utility model belongs to the technical field of building pipeline mounting structure, more specifically says, it relates to an antidetonation heating pipeline.

Background

The heating pipeline is a heating pipeline used for conveying steam or hot water to a user home so as to meet the requirements of the user in production and life. The heating pipeline often can produce the vibrations of different degrees because reasons such as load, pipeline sneak into air or velocity of flow in transportation process for the pipeline suffers the influence of certain degree, and the pipeline can be damaged to the serious person even, brings adverse effect for user's life.

The Chinese utility model with publication number CN207701926U discloses a heating pipeline anti-seismic support, which comprises a fixed rod, a U-shaped bracket, a left fixed threaded rod and a right fixed threaded rod; the damping device also comprises a supporting rod, a fixed plate, a left connecting plate, a right connecting plate, a left clamping plate, a right clamping plate, a group of left damping springs, a group of right damping springs, a left lower pressing plate and a right lower pressing plate; still include a set of left fixed spring, a set of right fixed spring, left layer board, right layer board, a set of solid fixed ring and a set of elastic fixation rope, a set of left fixed spring and a set of right fixed spring both ends are connected with U type bracket inside wall, left layer board bottom and right layer board bottom respectively, a set of solid fixed ring is installed respectively in U type bracket inside wall half regional on the left side and half regional on the right side, a set of elastic fixation rope both ends are provided with a set of fixed hook respectively, a set of fixed hook is geted in touch respectively on a set of solid fixed ring.

Similar to foretell antidetonation support among the prior art, can alleviate the vibrations problem of pipeline to a certain extent, reduce the influence of external factor to the pipeline. However, the components involved are too complex, requiring complex operations for installation, which is not convenient and increases the speed of installation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an antidetonation heating pipe, it has antidetonation effectual, and simple structure, easy to assemble's advantage.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an antidetonation heating pipe, includes pipeline body and a plurality of connections that are used for of pipeline body and wall body bradyseism subassembly, the bradyseism subassembly include the mounting bracket and slide connect in two telescoping devices of mounting bracket lower extreme, two be provided with the connecting plate between the lower extreme of telescoping device, can dismantle on the connecting plate and be connected with down fixed hoop, one side of fixed hoop is rotated down and is connected with rather than the complex last fixed hoop, just the one end of going up fixed hoop and keeping away from down fixed hoop is provided with and fixes hoop complex fastening bolt down, the inboard of going up fixed hoop and fixed hoop down is provided with the shock pad respectively.

Through adopting above-mentioned technical scheme, when installation heating pipeline, at first with mounting bracket and wall body fixed, then installation telescoping device, connecting plate and fixed hoop down, then can arrange the pipeline body in down on the fixed hoop, make pipeline body and shock pad laminating, then rotatory fixed hoop of going up compresses tightly the pipeline body, will go up fixed hoop and fixed hoop locking down through fastening bolt, accomplish heating pipeline's installation.

From this, through mounting bracket, telescoping device, connecting plate, lower fixed hoop, last fixed hoop and shock pad, can utilize simple structure to realize better shock attenuation effect, and need not additionally to hold at the in-process of installation pipeline body, the at utmost makes things convenient for operating personnel's installation.

Furthermore, a plurality of shock absorption lugs are arranged on two sides of the shock absorption pad, and a plurality of buffer springs are arranged on one side, close to the upper fixing hoop and the lower fixing hoop, of the shock absorption pad.

By adopting the technical scheme, the shock absorption lug and the buffer spring are arranged, so that the pipeline body can transmit the shock to the shock absorption lug and then to the shock absorption spring through the shock absorption lug at the other end, thereby fully absorbing the shock generated by the pipeline body and keeping the pipeline body stable; wherein, the deformation space of shock pad also can be increased in the clearance that forms between the shock attenuation lug to strengthen the shock attenuation effect of shock pad.

Furthermore, the shock pad runs through in buffer spring's position and is equipped with spacing hole, be provided with the gag lever post along its length direction in the buffer spring, the one end of gag lever post is connected in last fixed hoop or fixed hoop down, and the other end extends and gets into spacing downthehole.

By adopting the technical scheme, the arrangement of the limiting hole and the limiting rod can limit the displacement direction of the buffer spring when the shock absorption pad absorbs shock and displaces, so that the buffer spring is prevented from being bent to other directions, the buffer spring is prevented from being deformed, and the buffer capacity of the buffer spring is reduced; wherein, spacing hole can make the gag lever post stretch into the inslot to prevent that the gag lever post from hindering the removal of shock pad, reinforcing shock pad's stability when limiting buffer spring displacement direction.

Furthermore, the end, far away from the shock pad, of the shock absorption bump is provided with wave lines.

Through adopting above-mentioned technical scheme, the frictional force between pipeline body and the shock bump can be increased in the setting of wave line to make the stability that pipeline body and shock bump are connected strengthened.

Further, the mounting bracket includes that two one end have the fixed column of mounting hole, be provided with the spout in the fixed column, the telescoping device slides in the spout, just one side of fixed column is seted up along its length direction with the fixed slot of spout intercommunication, the one end that the telescoping device is close the spout is provided with the locking end that extends to outside the fixed slot, threaded connection has the lock nut who is used for fixed telescoping device position on the locking end.

Through adopting above-mentioned technical scheme, when adjusting the telescoping device, only need the loosening lock nut, make the fixed state of telescoping device relieve, then can adjust the position of telescoping device, wait to adjust to suitable position after, its rigidity is fixed with the rethread lock nut, can make things convenient for the position control of telescoping device from this.

Furthermore, a damping spring is arranged between the fixing column and the connecting plate and outside the telescopic device, and two ends of the damping spring are respectively abutted against the fixing column and the connecting plate.

Through adopting above-mentioned technical scheme, damping spring's setting can make the vibrations that are transmitted from by the connecting plate absorbed by damping spring to reduce the vibrations of fixed column, prevent that the fixed column from producing not hard up, strengthen holistic stability.

Further, be provided with a plurality of mounting holes on the connecting plate, the lower extreme of fixed hoop is provided with the mounting panel down, the lower extreme of mounting panel is provided with the tensioning spring that corresponds with the mounting hole, just the both ends threaded connection of mounting panel has the locking bolt who is used for locking mounting panel and connecting plate.

Through adopting above-mentioned technical scheme, when installing fixed hoop down, at first stretch into corresponding mounting hole with the tensioning spring, then lock mounting panel and connecting plate through locking bolt, tensioning spring is in compression state this moment, can absorb the vibrations that the part was transmitted by fixed hoop down to strengthen holistic stability.

Furthermore, a plurality of vacuum cavities are arranged between the inner wall and the outer wall of the pipeline body.

Through adopting above-mentioned technical scheme, certain space can be formed in the setting of vacuum cavity, makes vibrations and the sound that pipeline body transmitted come consume repeatedly in the vacuum cavity to weaken vibrations and sound, reach vibration/noise reduction's effect.

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

(1) through the mounting frame, the telescopic device, the connecting plate, the lower fixing hoop, the upper fixing hoop and the shock pad, a good shock absorption effect can be realized by using a simple structure, extra hands are not needed in the process of mounting the pipeline body, and the mounting of an operator is facilitated to the greatest extent;

(2) by arranging the damping lug and the buffer spring, the pipeline body can transmit the vibration to the damping lug and then to the damping spring through the damping lug at the other end, so that the vibration generated by the pipeline body can be fully absorbed, and the pipeline body is kept stable; the gaps formed among the shock absorption lugs can also increase the deformation space of the shock absorption pad, so that the shock absorption effect of the shock absorption pad is enhanced;

(3) through setting up the vacuum cavity, can form certain space, make vibrations and the sound that pipeline body transmitted come consume repeatedly in the vacuum cavity to weaken vibrations and sound, reach vibration/noise reduction's effect.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic cross-sectional view of the present embodiment;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an exploded view of the present embodiment;

fig. 5 is an enlarged schematic view of a portion B in fig. 4.

Reference numerals: 1. a pipe body; 2. a cushioning component; 3. a lower fixing hoop; 4. mounting a plate; 11. a vacuum chamber; 21. a mounting frame; 22. a telescoping device; 23. a connecting plate; 31. an upper fixing hoop; 32. fastening a bolt; 33. a shock pad; 34. a shock absorbing bump; 35. a buffer spring; 36. a limiting hole; 37. a limiting rod; 38. wave lines; 41. tensioning the spring; 42. locking the bolt; 211. fixing a column; 212. a chute; 213. fixing grooves; 221. a locking end; 222. locking the nut; 223. a damping spring; 224. a hand-pulling plate; 231. and (7) installing holes.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

The utility model provides an antidetonation heating pipe, as shown in figure 1, 2, including pipeline body 1 and a plurality of bradyseism subassembly 2 that are used for connecting pipeline body 1 and wall body, bradyseism subassembly 2 includes mounting bracket 21 and slides and connect two cylindric telescoping devices 22 that are at mounting bracket 21 lower extreme, there is connecting plate 23 through bolt fastening between two telescoping devices 22's the lower extreme, can dismantle on the connecting plate 23 and be connected with down fixed hoop 3, one side of fixed hoop 3 is rotated and is connected with rather than the complex on fixed hoop 31 down, and go up fixed hoop 31 and keep away from its one end of being connected with fixed hoop 3 down and install and fix hoop 3 complex fastening bolt 32 down, the inboard of going up fixed hoop 31 and fixed hoop 3 down is fixed with semicircular shock pad 33 respectively.

Further, as shown in fig. 2 and 3, a plurality of shock absorption bumps 34 are uniformly fixed and extended on two sides of the shock absorption pad 33, a plurality of buffer springs 35 are fixed on one side of the shock absorption pad 33 close to the upper fixing hoop 31 and the lower fixing hoop 3, one end of each buffer spring 35 is connected between adjacent shock absorption bumps 34, the shock absorption bumps 34 and the buffer springs 35 can enable the pipeline body 1 to transmit the shock to the shock absorption bumps 34, and the shock absorption bumps 34 on the other end transmit the shock to the buffer springs 223, so that the shock generated by the pipeline body 1 can be fully absorbed, and the pipeline body 1 can be kept stable; wherein, the gap formed between the shock absorbing protrusions 34 can also increase the deformation space of the shock absorbing pad 33, thereby enhancing the shock absorbing effect of the shock absorbing pad 33.

As shown in fig. 3, a limiting hole 36 is formed through the shock pad 33 at the position of the buffer spring 35, a limiting rod 37 is fixed in the buffer spring 35 along the length direction thereof, one end of the limiting rod 37 is fixedly connected to the inner surface of the upper fixing hoop 31 or the lower fixing hoop 3, and the other end extends into the limiting hole 36, so that the displacement direction of the buffer spring 35 can be limited when the shock pad 33 absorbs the shock and displaces through the limiting hole 36 and the limiting rod 37, thereby preventing the shock spring 223 from bending to other directions, causing the deformation of the buffer spring 35, and reducing the buffering capacity thereof; wherein, spacing hole 36 can make gag lever post 37 stretch into the inslot to prevent that gag lever post 37 from hindering the removal of shock pad 33, reinforcing shock pad 33's stability when limiting buffer spring 35 displacement direction.

As shown in fig. 3, a plurality of spherical vacuum chambers 11 are disposed between the inner wall and the outer wall of the duct body 1, and a certain space can be formed by the vacuum chambers 11, so that the vibration and the sound transmitted by the duct body 1 are repeatedly consumed in the vacuum chambers 11, thereby weakening the vibration and the sound and achieving the effects of vibration and noise reduction.

As shown in fig. 2 and 4, the mounting frame 21 includes two rectangular fixing posts 211 having mounting holes 231 at one end thereof, a sliding slot 212 formed in the fixing post 211 and matching with the shape of the expansion device 22, the expansion device 22 slides in the sliding slot 212, a rectangular fixing slot 213 communicating with the sliding slot 212 is formed in one side of the fixing post 211 along the length direction thereof, a locking end 221 extending to the outside of the fixing slot 213 is fixed at one end of the expansion device 22 close to the sliding slot 212, a locking nut 222 for fixing the position of the expansion device 22 is connected to the locking end 221 through a thread, and a hand dial plate 224 is symmetrically fixed at one end of the locking nut 222 far from the sliding slot 212. When the telescopic device 22 is adjusted, the locking nut 222 is only required to be unscrewed to release the fixed state of the telescopic device 22, then the position of the telescopic device 22 can be adjusted, and after the telescopic device 22 is adjusted to a proper position, the position of the telescopic device is fixed by screwing the locking nut 222, so that the telescopic device 22 can be conveniently adjusted.

Further, damping spring 223 is installed to the outside that is located telescoping device 22 between fixed column 211 and the connecting plate 23, and damping spring 223's both ends respectively the butt on fixed column 211 and connecting plate 23, can make the vibrations that are transmitted by connecting plate 23 absorbed by damping spring 223 through damping spring 223 to reduce the vibrations of fixed column 211, prevent that fixed column 211 from producing not hard up, reinforcing holistic stability.

As shown in fig. 4, a plurality of mounting holes 231 are formed in the connecting plate 23, a mounting plate 4 is fixedly connected to the lower end of the lower fixing hoop 3, a tension spring 41 corresponding to the mounting holes 231 is fixed to the lower end of the mounting plate 4, and locking bolts 42 for locking the mounting plate 4 and the connecting plate 23 are threadedly connected to both ends of the mounting plate 4. When the lower fixing hoop 3 is installed, the tension spring 41 firstly extends into the corresponding installation hole 231, then the installation plate 4 is locked with the connecting plate 23 through the locking bolt 42, and at the moment, the tension spring 41 is in a compressed state, so that part of the vibration transmitted by the lower fixing hoop 3 can be absorbed, and the overall stability is enhanced.

As shown in fig. 5, the shock absorption bump 34 is far away from the shock absorption pad 33, and the wave line 38 is fixedly formed at one end of the shock absorption bump 34, so that the friction force between the pipeline body 1 and the shock absorption bump 34 can be increased through the wave line 38, and the stability of the connection between the pipeline body 1 and the shock absorption bump 34 is enhanced.

The utility model discloses a working process and beneficial effect as follows: when installing heating pipe way, at first with mounting bracket 21 and wall body fixed, then install telescoping device 22, connecting plate 23 and fixed hoop 3 down, then can arrange pipeline body 1 in down on fixed hoop 3, make pipeline body 1 and the laminating of shock pad 33, then rotatory fixed hoop 31 of going up compresses tightly pipeline body 1, will go up fixed hoop 31 and fix hoop 3 locking down through fastening bolt 32, accomplishes heating pipe way's installation.

In conclusion, through the mounting frame 21, the telescopic device 22, the connecting plate 23, the lower fixing hoop 3, the upper fixing hoop 31 and the shock pad 33, a good shock absorption effect can be achieved by using a simple structure, extra hand holding is not needed in the process of mounting the pipeline body 1, and the mounting of an operator is facilitated to the greatest extent.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides an antidetonation heating pipe, its characterized in that includes pipeline body (1) and a plurality of connection that is used for the bradyseism subassembly (2) of pipeline body (1) and wall body, bradyseism subassembly (2) including mounting bracket (21) and slide connect in two telescoping device (22) of mounting bracket (21) lower extreme, two be provided with connecting plate (23) between the lower extreme of telescoping device (22), can dismantle on connecting plate (23) and be connected with down fixed hoop (3), one side of fixed hoop (3) is rotated and is connected with rather than complex and goes up fixed hoop (31) down, just the one end of going up fixed hoop (3) is kept away from down fixed hoop (31) is provided with and fixes hoop (3) complex fastening bolt (32) down, the inboard of going up fixed hoop (31) and fixed hoop (3) down is provided with shock pad (33) respectively.

2. An earthquake-resistant heating pipe according to claim 1, characterised in that shock-absorbing lugs (34) are provided on both sides of the shock-absorbing pad (33), and that buffer springs (35) are provided on the side of the shock-absorbing pad (33) close to the upper fixing hoop (31) and the lower fixing hoop (3).

3. An anti-seismic heating pipe according to claim 2, wherein the shock absorbing pad (33) is provided with a limiting hole (36) at the position of the buffer spring (35) in a penetrating manner, a limiting rod (37) is arranged in the buffer spring (35) along the length direction of the buffer spring, one end of the limiting rod (37) is connected to the upper fixing hoop (31) or the lower fixing hoop (3), and the other end of the limiting rod extends into the limiting hole (36).

4. An earthquake-resistant heating pipe as claimed in claim 2, characterised in that the end of the shock-absorbing projection (34) remote from the shock-absorbing pad (33) is provided with a wave pattern (38).

5. An earthquake-resistant heating pipe according to claim 1, wherein the mounting frame (21) comprises two fixing columns (211) with mounting holes (231) at one ends, sliding grooves (212) are formed in the fixing columns (211), the expansion device (22) slides in the sliding grooves (212), fixing grooves (213) communicated with the sliding grooves (212) are formed in one sides of the fixing columns (211) along the length direction of the fixing columns, locking ends (221) extending out of the fixing grooves (213) are arranged at one ends of the expansion device (22) close to the sliding grooves (212), and locking nuts (222) used for fixing the positions of the expansion device (22) are in threaded connection with the locking ends (221).

6. An earthquake-resistant heating pipe according to claim 5, characterized in that a damping spring (223) is arranged between the fixed column (211) and the connecting plate (23) on the outer side of the expansion device (22), and two ends of the damping spring (223) are respectively abutted on the fixed column (211) and the connecting plate (23).

7. An earthquake-resistant heating pipe according to claim 1, characterized in that a plurality of mounting holes (231) are provided on the connecting plate (23), a mounting plate (4) is provided at the lower end of the lower fixing hoop (3), a tension spring (41) corresponding to the mounting holes (231) is provided at the lower end of the mounting plate (4), and a locking bolt (42) for locking the mounting plate (4) and the connecting plate (23) is threadedly connected to both ends of the mounting plate (4).

8. An earthquake-resistant heating pipe according to claim 1, characterised in that vacuum chambers (11) are provided between the inner and outer walls of the pipe body (1).

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