CN220551600U - Pipeline spring support and hanger with stable clamping - Google Patents

Abstract

The utility model discloses a pipeline spring support and hanger with stable clamping, which relates to the technical field of support and hanger, and comprises a base, a buffer unit arranged in the base, and a locking unit arranged at the top end of the buffer unit, wherein the buffer unit is arranged at the bottom end of the buffer unit; the locking unit comprises a first arc-shaped plate fixedly connected to the top end of the base, a pushing component arranged in the first arc-shaped plate, a locking component arranged at the top end of the first arc-shaped plate and connecting components arranged at two sides of the first arc-shaped plate; the buffer unit comprises a support column arranged in the base and a buffer assembly arranged on the side surface of the support column. The pipeline spring support and hanger with stable clamping can be attached to the outer sides of different diameters of pipelines through the arrangement of the locking units, so that different areas of the pipelines are limited, and the applicability of the support and hanger is effectively improved; through buffer unit's setting, when the pipeline receives the vibration, the pipeline can not rock, and stability is stronger.

Description

Pipeline spring support and hanger with stable clamping

Technical Field

The utility model relates to the technical field of supporting and hanging frames, in particular to a pipeline spring supporting and hanging frame with stable clamping.

Background

The use of pipelines is spread throughout the life of people in various fields, such as pipeline transportation in some cities or petroleum transportation, but in the transportation of the mediums, the pipelines are easily deflected due to the fact that the pipelines are impacted by the gas or liquid with certain impact force, so that in order to avoid the situation, the pipelines are usually fixed by using a support and hanger.

Retrieved under publication (bulletin) number: CN218348056U discloses a pipeline gallows with adjustable diameter, including a gallows main part, the inner wall fixedly connected with spring of gallows main part, the one end fixedly connected with fixed clamp splice of spring, the outer wall fixedly connected with movable column of fixed clamp splice, movable groove has been seted up to the inner wall of gallows main part, the movable column slides at the high resistance in the movable groove, the crack fixedly connected with telescopic link of movable groove and fixed clamp splice. This pipeline gallows with adjustable diameter can be according to the diameter size of different pipelines to its fixed centre gripping, avoids the too big laminating degree in space of pipeline outer wall and fixed clamp splice not enough, increases pipeline stability, avoids the pipeline not hard up to increased safety in utilization, conveniently stabilized the reinforcement to the gallows of different diameters, also made things convenient for dismantlement and installation simultaneously, make this gallows circulated use, increase the practicality of this gallows.

Above-mentioned scheme is convenient to stabilize the reinforcement to the gallows of different diameters, has also made things convenient for dismantlement and installation simultaneously, but the different regional diameters of some pipelines are different, and common gallows is difficult to fix the region that the pipeline diameter is different to the vibration that produces influences the stability of pipeline easily to the fixed centre gripping in-process of pipeline.

Disclosure of Invention

The utility model mainly aims to provide a pipeline spring support and hanger with stable clamping, which solves the problem that the common support and hanger is difficult to fix the areas with different diameters of pipelines by arranging a locking unit, and solves the problem that the stability of the pipeline is easily affected by vibration generated in the process of fixing and clamping the pipeline by arranging a buffer unit.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the pipeline spring support and hanger comprises a base, a buffer unit arranged in the base, and a locking unit arranged at the top end of the buffer unit, wherein the buffer unit is arranged on the inner side of the base;

the locking unit comprises a first arc-shaped plate fixedly connected to the top end of the base, a pushing assembly arranged in the first arc-shaped plate, a locking assembly arranged at the top end of the first arc-shaped plate and connecting assemblies arranged at two sides of the first arc-shaped plate;

the buffer unit comprises a support column arranged in the base and a buffer assembly arranged on the side surface of the support column.

Preferably, the pushing component in the locking unit comprises a plurality of placing grooves formed in the first arc-shaped plate, second elastic columns respectively arranged in the placing grooves, second springs fixedly connected to the surfaces of the second elastic columns, and second limiting plates fixedly connected to one ends of the second elastic columns;

the other end of the second elastic column is fixedly connected with the support column.

Preferably, the locking assembly in the locking unit comprises a plurality of second arc plates arranged at the top ends of the first arc plates, a movable groove arranged in the second arc plates, an adjusting column arranged in the middle of the movable groove, a first limiting plate fixedly connected to the bottom ends of the adjusting column, two first elastic columns symmetrically arranged at the two sides of the adjusting column, and a first spring fixedly connected to the surfaces of the first elastic columns;

the bottom ends of the two first elastic columns are contacted with the top ends of the first limiting plates.

Preferably, the connecting component in the locking unit comprises a first fixing plate, a second fixing plate, a plurality of first threaded holes and a second threaded hole, wherein the first fixing plate is fixedly connected to two sides of the first arc-shaped plate, the second fixing plate is fixedly connected to two sides of the corresponding second arc-shaped plate, the first threaded holes are formed in the first fixing plate, and the second threaded holes are formed in the second fixing plate;

the second threaded holes are formed above the corresponding first threaded holes.

Preferably, the connection assembly in the locking unit includes a locking bolt screwed inside the corresponding first and second screw holes, and a nut screwed on a surface of the locking bolt.

Preferably, the buffering component in the buffering unit comprises a transverse plate arranged at the top end of the side surface of the supporting column, inclined columns symmetrically arranged at the top end of the transverse plate, attaching columns vertically connected to two sides of the inclined columns, and a plurality of triangular supports fixedly connected to the bottom end of the transverse plate.

Preferably, the width of the first arc-shaped plate is larger than the width of the second arc-shaped plate in the locking unit.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, through the arrangement of the locking unit, when a pipeline is required to be fixed, the nuts and the locking bolts are removed firstly, then the second arc plates are removed, the pipeline required to be fixed is placed in the first arc plates, then the second arc plates are placed at the top ends of the pipelines, the inner walls of the second arc plates are attached to the side surfaces of the pipelines, then the positions of different diameters of the pipelines are observed, the second arc plates are moved to the positions of different diameters of the pipelines, the corresponding second threaded holes are overlapped with the first threaded holes, then the locking bolts and the nuts are installed, so that the second arc plates are fixed with the first arc plates, a certain area of the pipeline is limited, then the adjusting column is rotated at the position of the smaller diameter of the pipeline, the bottom ends of the adjusting column are lowered, the bottom ends of the first limiting plate are driven to be attached to the top ends of the smaller diameter of the pipeline, the second elastic column and the second spring in the first arc plates are driven to be lifted, and are further attached to the bottom ends of the smaller diameter of the pipeline, and the corresponding second limiting plate are enabled to be attached to the bottom ends of the pipeline, so that the different areas of the pipeline are limited, and the hanger is effectively improved.

2. According to the utility model, through the arrangement of the buffer unit, when the pipeline is vibrated by external force, the generated vibration is transmitted to the first arc-shaped plate and further transmitted to the inclined column through the first arc-shaped plate, part of vibration energy is transmitted to the shell of the base through the attaching column, other vibration energy is transmitted to the tripod and the support column through the transverse plate and the inclined column, and in the vibration energy transmission process, part of vibration energy is transmitted to air, so that the vibration energy is reduced, and therefore, when the pipeline is vibrated, the pipeline does not shake, and the stability is high.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a base in the present utility model;

FIG. 3 is a cross-sectional view of a second arcuate plate according to the present utility model;

FIG. 4 is a cross-sectional view of the base and the first arcuate plate of the present utility model;

fig. 5 is an enlarged schematic view of the structure a in fig. 4 according to the present utility model.

In the figure:

1. a base;

2. a locking unit; 201. a first arcuate plate; 202. a first fixing plate; 203. a second fixing plate; 204. a nut; 205. a locking bolt; 206. a first limiting plate; 207. a second arcuate plate; 208. an adjusting column; 209. a first threaded hole; 210. a second limiting plate; 211. a second threaded hole; 212. a movable groove; 213. a first elastic column; 214. a first spring; 215. a placement groove; 216. a second spring; 217. a second elastic column;

3. a buffer unit; 301. attaching a column; 302. an inclined column; 303. a cross plate; 304. a tripod; 305. and (5) supporting the column.

Description of the embodiments

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Example 1

As shown in fig. 1, 2, 3, 4 and 5, the pipeline spring support and hanger with stable clamping comprises a base 1, a buffer unit 3 arranged in the base 1, and a locking unit 2 arranged at the top end of the buffer unit 3;

the locking unit 2 comprises a first arc-shaped plate 201 fixedly connected to the top end of the base 1, a pushing component arranged in the first arc-shaped plate 201, a locking component arranged at the top end of the first arc-shaped plate 201, and connecting components arranged at two sides of the first arc-shaped plate 201;

the buffer unit 3 includes a support column 305 disposed inside the base 1, and a buffer assembly disposed on a side surface of the support column 305.

The pushing assembly in the locking unit 2 comprises a plurality of placing grooves 215 which are formed in the first arc-shaped plate 201, a second elastic column 217 which is respectively arranged in the placing grooves 215, a second spring 216 which is fixedly connected to the surface of the second elastic column 217, and a second limiting plate 210 which is fixedly connected to one end of the second elastic column 217;

the other end of the second elastic post 217 is fixedly connected to the support post 305.

The second elastic post 217 and the second spring 216 in the first arc 201 drive the second limiting plate 210 to rise, so as to be attached to the bottom end of the pipeline, and the bottom end of the smaller diameter of the pipeline is also attached by the second limiting plate 210;

the locking assembly in the locking unit 2 comprises a plurality of second arc plates 207 arranged at the top ends of the first arc plates 201, a movable groove 212 arranged in the second arc plates 207, an adjusting column 208 arranged in the middle of the movable groove 212, a first limiting plate 206 fixedly connected to the bottom ends of the adjusting column 208, two first elastic columns 213 symmetrically arranged at two sides of the adjusting column 208, and a first spring 214 fixedly connected to the surface of the first elastic columns 213;

the bottom ends of the two first elastic columns 213 are in contact with the top ends of the first limiting plates 206.

Rotating the adjusting column 208 at the position with the smaller diameter of the pipeline, so that the bottom end of the adjusting column 208 descends, and the bottom end of the first limiting plate 206 is driven to be attached to the top end of the position with the smaller diameter of the pipeline;

the connecting assembly in the locking unit 2 comprises a first fixing plate 202 fixedly connected to two sides of a first arc-shaped plate 201, a second fixing plate 203 fixedly connected to two sides of a corresponding second arc-shaped plate 207, a plurality of first threaded holes 209 formed in the first fixing plate 202, and a second threaded hole 211 formed in the second fixing plate 203;

the second threaded holes 211 are disposed above the corresponding first threaded holes 209.

The coupling assembly in the locking unit 2 includes a locking bolt 205 screwed inside corresponding first and second screw holes 209 and 211, and a nut 204 screwed to a surface of the locking bolt 205.

When a pipeline needs to be fixed, the plurality of nuts 204 and the locking bolts 205 are removed firstly, then the plurality of second arc plates 207 are removed, the pipeline needing to be fixed is placed in the first arc plate 201, then the plurality of second arc plates 207 are placed at the top end of the pipeline, the inner walls of the plurality of second arc plates 207 are attached to the side surfaces of the pipeline, positions of different diameters of the pipeline are observed, the plurality of second arc plates 207 are moved to the positions above the different diameters of the pipeline, the corresponding second threaded holes 211 are overlapped with the first threaded holes 209, and then the locking bolts 205 and the plurality of nuts 204 are installed, so that the plurality of second arc plates 207 are fixed with the first arc plates 201, and a certain area of the pipeline is limited;

the buffer assembly in the buffer unit 3 comprises a transverse plate 303 arranged at the top end of the side surface of the support column 305, inclined columns 302 symmetrically arranged at the top end of the transverse plate 303, attaching columns 301 vertically connected to two sides of the inclined columns 302, and a plurality of triangular supports 304 fixedly connected to the bottom end of the transverse plate 303.

When the pipeline receives external force to produce vibration, the vibration that produces can conduct to first arc 201, further conduct to slope post 302 through first arc 201 in, the energy of part vibration is conducted to the casing of base 1 through laminating post 301 in, other vibration's energy is conducted to tripod 304 and support column 305 through diaphragm 303 and slope post 302 in to at vibration energy conduction's in-process, the partial energy of vibration can transmit for the air, and then make vibration's energy reduce, when the pipeline receives the vibration like this, the pipeline can not rock, stability is stronger.

The width of the first arcuate plate 201 in the locking unit 2 is greater than the width of the second arcuate plate 207.

Example 2

As shown in fig. 1, 2, 3, 4 and 5, the pipeline spring support and hanger with stable clamping comprises a base 1, a buffer unit 3 arranged in the base 1, and a locking unit 2 arranged at the top end of the buffer unit 3;

the locking unit 2 comprises a first arc-shaped plate 201 fixedly connected to the top end of the base 1, a pushing component arranged in the first arc-shaped plate 201, a locking component arranged at the top end of the first arc-shaped plate 201, and connecting components arranged at two sides of the first arc-shaped plate 201;

the buffer unit 3 includes a support column 305 disposed inside the base 1, and a buffer assembly disposed on a side surface of the support column 305.

The pushing assembly in the locking unit 2 comprises a plurality of placing grooves 215 which are formed in the first arc-shaped plate 201, a second elastic column 217 which is respectively arranged in the placing grooves 215, a second spring 216 which is fixedly connected to the surface of the second elastic column 217, and a second limiting plate 210 which is fixedly connected to one end of the second elastic column 217;

the other end of the second elastic post 217 is fixedly connected to the support post 305.

The second elastic post 217 and the second spring 216 in the first arc 201 drive the second limiting plate 210 to rise, so as to be attached to the bottom end of the pipeline, and the bottom end of the smaller diameter of the pipeline is also attached by the second limiting plate 210;

the locking assembly in the locking unit 2 comprises a plurality of second arc plates 207 arranged at the top ends of the first arc plates 201, a movable groove 212 arranged in the second arc plates 207, an adjusting column 208 arranged in the middle of the movable groove 212, a first limiting plate 206 fixedly connected to the bottom ends of the adjusting column 208, two first elastic columns 213 symmetrically arranged at two sides of the adjusting column 208, and a first spring 214 fixedly connected to the surface of the first elastic columns 213;

the bottom ends of the two first elastic columns 213 are in contact with the top ends of the first limiting plates 206.

Rotating the adjusting column 208 at the position with the smaller diameter of the pipeline, so that the bottom end of the adjusting column 208 descends, and the bottom end of the first limiting plate 206 is driven to be attached to the top end of the position with the smaller diameter of the pipeline;

the connecting assembly in the locking unit 2 comprises a first fixing plate 202 fixedly connected to two sides of a first arc-shaped plate 201, a second fixing plate 203 fixedly connected to two sides of a corresponding second arc-shaped plate 207, a plurality of first threaded holes 209 formed in the first fixing plate 202, and a second threaded hole 211 formed in the second fixing plate 203;

the second threaded holes 211 are disposed above the corresponding first threaded holes 209.

The coupling assembly in the locking unit 2 includes a locking bolt 205 screwed inside corresponding first and second screw holes 209 and 211, and a nut 204 screwed to a surface of the locking bolt 205.

When a pipeline needs to be fixed, the plurality of nuts 204 and the locking bolts 205 are removed firstly, then the plurality of second arc plates 207 are removed, the pipeline needing to be fixed is placed in the first arc plate 201, then the plurality of second arc plates 207 are placed at the top end of the pipeline, the inner walls of the plurality of second arc plates 207 are attached to the side surfaces of the pipeline, positions of different diameters of the pipeline are observed, the plurality of second arc plates 207 are moved to the positions above the different diameters of the pipeline, the corresponding second threaded holes 211 are overlapped with the first threaded holes 209, and then the locking bolts 205 and the plurality of nuts 204 are installed, so that the plurality of second arc plates 207 are fixed with the first arc plates 201, and a certain area of the pipeline is limited;

the buffer assembly in the buffer unit 3 comprises a transverse plate 303 arranged at the top end of the side surface of the support column 305, inclined columns 302 symmetrically arranged at the top end of the transverse plate 303, attaching columns 301 vertically connected to two sides of the inclined columns 302, and a plurality of triangular supports 304 fixedly connected to the bottom end of the transverse plate 303.

The width of the first arcuate plate 201 in the locking unit 2 is greater than the width of the second arcuate plate 207.

When the pipeline receives external force to produce vibration, the vibration that produces can conduct to first arc 201, further conduct to slope post 302 through first arc 201 in, the energy of part vibration is conducted to the casing of base 1 through laminating post 301 in, other vibration's energy is conducted to tripod 304 and support column 305 through diaphragm 303 and slope post 302 in to at vibration energy conduction's in-process, the partial energy of vibration can transmit for the air, and then make you of vibration energy reduction, when the pipeline receives the vibration like this, the pipeline can not rock, stability is stronger.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The pipeline spring support and hanger with stable clamping comprises a base (1) and is characterized by further comprising a buffer unit (3) arranged in the base (1) and a locking unit (2) arranged at the top end of the buffer unit (3);

the locking unit (2) comprises a first arc-shaped plate (201) fixedly connected to the top end of the base (1), a pushing component arranged in the first arc-shaped plate (201), a locking component arranged at the top end of the first arc-shaped plate (201) and connecting components arranged at two sides of the first arc-shaped plate (201);

the buffer unit (3) comprises a support column (305) arranged in the base (1) and a buffer assembly arranged on the side surface of the support column (305).

2. The stable-clamping pipe spring support and hanger of claim 1, wherein: the pushing assembly in the locking unit (2) comprises a plurality of placing grooves (215) formed in the first arc-shaped plate (201), second elastic columns (217) respectively arranged in the placing grooves (215), second springs (216) fixedly connected to the surfaces of the second elastic columns (217), and second limiting plates (210) fixedly connected to one ends of the second elastic columns (217);

the other end of the second elastic column (217) is fixedly connected with the support column (305).

3. The stable-clamping pipe spring support and hanger of claim 2, wherein: the locking assembly in the locking unit (2) comprises a plurality of second arc plates (207) arranged at the top ends of the first arc plates (201), a movable groove (212) formed in the second arc plates (207), an adjusting column (208) arranged in the middle of the movable groove (212), a first limiting plate (206) fixedly connected to the bottom ends of the adjusting column (208), two first elastic columns (213) symmetrically arranged at the two sides of the adjusting column (208), and a first spring (214) fixedly connected to the surfaces of the first elastic columns (213);

the bottom ends of the two first elastic columns (213) are contacted with the top ends of the first limiting plates (206).

4. A stable gripping tubing spring hanger as claimed in claim 3 wherein: the connecting assembly in the locking unit (2) comprises a first fixing plate (202) fixedly connected to two sides of the first arc-shaped plate (201), a second fixing plate (203) fixedly connected to two sides of the corresponding second arc-shaped plate (207), a plurality of first threaded holes (209) formed in the first fixing plate (202), and a second threaded hole (211) formed in the second fixing plate (203);

the second threaded holes (211) are arranged above the corresponding first threaded holes (209).

5. The stable-clamping pipe spring hanger of claim 4, wherein: the connecting assembly in the locking unit (2) comprises a locking bolt (205) which is in threaded connection with the inside of the corresponding first threaded hole (209) and the second threaded hole (211), and a nut (204) which is in threaded connection with the surface of the locking bolt (205).

6. The stable-clamping pipe spring hanger of claim 5, wherein: the buffer assembly in the buffer unit (3) comprises a transverse plate (303) arranged at the top end of the side surface of the supporting column (305), inclined columns (302) symmetrically arranged at the top end of the transverse plate (303), attaching columns (301) vertically connected to two sides of the inclined columns (302), and a plurality of triangular supports (304) fixedly connected to the bottom end of the transverse plate (303).

7. The stable-clamping pipe spring hanger of claim 6, wherein: the width of the first arc-shaped plate (201) in the locking unit (2) is larger than the width of the second arc-shaped plate (207).