CN215410573U - Ohm pipe clamp structure for comprehensive pipeline hanger - Google Patents

Abstract

The utility model discloses an ohmic pipe clamp structure for a comprehensive pipeline hanger, relates to a pipeline hanger, aims to solve the problem that the distance between adjacent pipelines is not easy to adjust, and cannot meet the practical use of the comprehensive pipeline hanger, and the technical scheme is as follows: an ohmic pipe clamp structure for a comprehensive pipeline hanger comprises a hanger profile, a plurality of arc-shaped pinch plates arranged on the hanger profile, and a pipe fitting which is fixedly sleeved by the arc-shaped pinch plates and the hanger profile in a matched manner; the section of the hanger profile is U-shaped, inward-turned edges are formed by inward turning of two sides of an opening of the hanger profile, foot attaching plates are respectively formed by bending and forming two ends of the arc-shaped pinch plate, and the foot attaching plates are attached to the upper surfaces of the inward-turned edges; the hanger section bar is connected with a clamping piece corresponding to each foot attaching plate in a sliding mode respectively, and a thread screwing structure is arranged between the clamping piece and the foot attaching plate. The ohmic pipe clamp structure for the comprehensive pipeline hanger effectively solves the problem that the distance between adjacent pipelines is not easy to adjust, and meets the actual use requirement of the comprehensive pipeline hanger.

Description

Ohm pipe clamp structure for comprehensive pipeline hanger

Technical Field

The present invention relates to a pipeline hanger, and more particularly, to an ohmic contact clip structure for a composite pipeline hanger.

Background

In modern large public places, the pipeline construction is gradually changed from buried type to wall buried type in order to facilitate the maintenance of pipelines.

When the mode installation pipeline that the application was hung, generally adopt the ohmic pipe card to realize the installation of pipeline and gallows among the prior art, but discovery in the actual application, different pipeline combinations may be designed to different buildings to lead to when the installation of reality, for the atress homogeneity that improves the gallows, need adjust the interval of adjacent pipeline, when the pipeline of more quantity is installed to needs promptly, need reduce the interval of adjacent pipeline, when the pipeline of less quantity is installed to needs, then need increase the interval of adjacent pipeline.

However, the ohm pipe clamps in the prior art are mostly installed in a fixed position mode, so that the problem that the distance between adjacent pipelines is not easy to adjust exists, and the practical use of the comprehensive pipeline hanger cannot be met; therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide an ohmic pipe clamp structure for a comprehensive pipeline hanger, each arc-shaped buckle plate can be fixed at any position in the length direction of a hanger profile, the problem that the distance between adjacent pipelines is not easy to adjust is effectively solved, and the actual use requirement of the comprehensive pipeline hanger is met.

The technical purpose of the utility model is realized by the following technical scheme: an ohmic pipe clamp structure for a comprehensive pipeline hanger comprises a hanger profile, a plurality of arc-shaped pinch plates arranged on the hanger profile, and a pipe fitting which is fixedly sleeved by the arc-shaped pinch plates and the hanger profile in a matched manner; the section of the hanger profile is U-shaped, inward-turned edges are formed by inward turning of two sides of an opening of the hanger profile, foot attaching plates are respectively formed by bending and forming two ends of the arc-shaped pinch plate, and the foot attaching plates are attached to the upper surfaces of the inward-turned edges; the hanger section bar is connected with a clamping piece corresponding to each foot attaching plate in a sliding mode respectively, and a thread screwing structure is arranged between the clamping piece and the foot attaching plate.

By adopting the technical scheme, when the pipeline and the hanger are fixed by applying the fixing device, the positions of the clamping pieces are roughly adjusted in a sliding manner according to the corresponding positions of the pipe pieces, after the corresponding pipe pieces are pressed on the hanger sectional material, the arc-shaped buckling plates are buckled on the pipe pieces, the positions of the arc-shaped buckling plates and the clamping pieces are adjusted until the foot attaching plates and the corresponding clamping pieces are in a relative state, the thread screwing structure is screwed to tighten the foot attaching plates and the clamping pieces, so that the foot attaching plates and the clamping pieces are matched to clamp the inward-turning edges of the hanger sectional material, the fixing of the pipe pieces and the hanger sectional material is further completed, and the installation process of the single pipe piece is repeated until the fixing of a plurality of pipelines is completed; to sum up, every arc buckle of this application all can be fixed in gallows section bar length direction's optional position, effectively solves the problem of the interval of difficult adjustment adjacent pipeline, accords with the in-service use demand of synthesizing the pipeline gallows.

The utility model is further configured to: the hanger is characterized in that concave parts are formed inwards on two sides of the hanger section, the concave parts are matched with the inward-turning edges to form sliding grooves, and embedding blocks which are slidably embedded in the sliding grooves are arranged on two sides of the clamping piece respectively.

Through adopting above-mentioned technical scheme, realize that the both sides of clamping piece and gallows section bar slide and be connected, compare in whole gomphosis in the gallows that slides, not only practiced thrift the material, reduced the influence to anti-seismic performance moreover.

The utility model is further configured to: the inward turning edge is turned over again to form a downward turning edge, and a reinforcing groove for embedding the downward turning edge is formed between the clamping piece main body and the embedded block.

Through adopting above-mentioned technical scheme, add down turn over along and consolidate the groove cooperation to further improve the installation stability that slides of clamping piece.

The utility model is further configured to: the thread screwing structure comprises a stud in threaded fit with the clamping piece and a force application cap arranged at the top end of the stud, the foot attaching plate is provided with a through hole for the stud to penetrate through, and the force application cap is pressed on the upper surface of the foot attaching plate.

Through adopting above-mentioned technical scheme, compare in traditional adoption bolt tensioning pin board and clamping piece, not only improved the alignment convenience of pin board and clamping piece, need not moreover to screw up the double-screw bolt with the help of the instrument.

The utility model is further configured to: the force application cap is sleeved at the top end of the stud, and a connecting pin horizontally penetrates through the force application cap and the stud in an inserted mode.

By adopting the technical scheme, the force application cap can be detachably mounted; when the clamping piece and the foot plate are connected, the stud is guided to pass through the through hole, then the force application cap is installed and used for screwing the stud, and after the stud is screwed down, the force application cap is tightly pressed on the upper surface of the foot plate, so that the connecting pin is tensioned in the opposite direction of the force application cap and the stud under the action of a reaction force, and the abnormal separation of the connecting pin is effectively prevented; when the pipe fitting needs to be overhauled, the stud is firstly unscrewed through the force application cap, so that the pulling-out of the connecting pin is not limited any more, the force application cap can be detached from the stud after the connecting pin is normally pulled out, and the pipe fitting can be directly overhauled or replaced after the arc-shaped buckle plate is detached; to sum up, application of force cap adopts detachable construction, facilitates for connecting skirting board and clamping piece on the one hand, and on the other hand facilitates for overhauing the change pipe fitting.

The utility model is further configured to: the top end of the stud is provided with an outer hexagon, and the lower end face of the force application cap is provided with an inner hexagon groove sleeved with the outer hexagon.

By adopting the technical scheme, the relative rotation capability of the stud and the force application cap is eliminated, so that the problem that the connecting pin is stressed excessively in the process of screwing the stud through the force application cap is solved.

The utility model is further configured to: one end of the connecting pin is provided with a pull ring.

Through adopting above-mentioned technical scheme, provide a application of force point of pulling out the connecting pin to it provides convenience to pull out the connecting pin for the maintainer.

In conclusion, the utility model has the following beneficial effects: each arc-shaped buckle plate can be fixed at any position in the length direction of the hanger profile, so that the problem that the distance between adjacent pipelines is not easy to adjust is effectively solved, and the actual use requirement of the comprehensive pipeline hanger is met; the two sides of the clamping piece are connected with the hanging bracket section in a sliding manner, so that materials are saved, and the influence on the anti-seismic performance is reduced; the downward turning edge is additionally arranged to be matched with the reinforcing groove, so that the sliding installation stability of the clamping piece is further improved; the thread screwing structure comprises a stud in threaded fit with the clamping piece and a force application cap arranged at the top end of the stud, so that the alignment convenience of the foot attaching plate and the clamping piece is improved, and the stud can be screwed down without tools; the force application cap adopts a detachable structure, which facilitates the connection of the foot attaching plate and the clamping piece on one hand and facilitates the maintenance and replacement of the pipe fitting on the other hand; the relative rotation energy of the stud and the force application cap is eliminated, so that the problem that the connecting pin is stressed excessively in the process of screwing the stud through the force application cap is solved; the force application point for pulling out the connecting pin is provided, so that convenience is provided for a maintainer to pull out the connecting pin.

Drawings

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

FIG. 2 is a cross-sectional elevational view of the hanger profile of the present invention;

FIG. 3 is a view showing the relationship between the arcuate clip and the clamping member of the present invention;

fig. 4 is a schematic structural view of the force application cap of the present invention.

Description of the drawings: 1. a hanger profile; 2. an arc buckle plate; 3. a pipe fitting; 4. inward turning edges; 5. sticking a baseboard; 6. a clamping member; 7. an inner concave portion; 8. a chute; 9. an insert block; 10. turning down the edges; 11. a reinforcing groove; 12. a stud; 13. a force application cap; 14. a through hole; 141. a connecting pin; 15. an outer hexagon; 16. an inner hexagonal groove; 17. and (4) a pull ring.

Detailed Description

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

An ohm pipe clamp structure for a comprehensive pipeline hanger is shown in figure 1 and comprises a hanger profile 1, a plurality of arc-shaped pinch plates 2 arranged on the hanger profile 1 and a pipe fitting 3 fixedly sleeved by the arc-shaped pinch plates 2 and the hanger profile 1 in a matched manner; the section of the hanger section bar 1 is U-shaped, the two sides of the opening of the hanger section bar are inwards turned to form inwards turned edges 4, two ends of the arc-shaped buckle plate 2 are respectively bent to form foot attaching plates 5, and the foot attaching plates 5 are attached to the upper surfaces of the inwards turned edges 4; the hanger section bar 1 is connected with clamping pieces 6 corresponding to each foot attaching plate 5 in a sliding mode respectively, and a thread screwing structure is arranged between the clamping pieces 6 and the foot attaching plates 5.

When the application is used for fixing a pipeline and a hanger, the position of the clamping piece 6 is roughly adjusted in a sliding manner according to the corresponding position of the pipe piece 3, after the corresponding pipe piece 3 is pressed on the hanger section bar 1, the arc-shaped buckle plate 2 is buckled on the pipe piece 3, the positions of the arc-shaped buckle plate 2 and the clamping piece 6 are adjusted until the foot attaching plate 5 and the corresponding clamping piece 6 are in a relative state, the thread screwing structure is screwed to pull the foot attaching plate 5 and the clamping piece 6 to be attached to the foot attaching plate 5 and the clamping piece 6, so that the foot attaching plate 5 and the clamping piece 6 are matched with and clamp the inward-turned edge 4 of the hanger section bar 1, the fixing of the pipe piece 3 and the hanger section bar 1 is completed, and the installation process of the single pipe piece 3 is repeated until the fixing of a plurality of pipelines and the hanger is completed; in summary, each arc-shaped buckle plate 2 can be fixed at any position of the hanger section bar 1 in the length direction, the problem that the distance between adjacent pipelines is not easy to adjust is effectively solved, the practical use requirement of the comprehensive pipeline hanger is met,

clamping piece 6 slides and connects in gallows section bar 1 through following mode, as shown in fig. 2, the inside shaping of both sides of gallows section bar 1 has interior concave part 7, interior concave part 7 cooperation enstrophe is formed with spout 8 along 4, the both sides of clamping piece 6 are the machine-shaping respectively have the abaculus 9 of gomphosis in spout 8 that slides to realize that the both sides of clamping piece 6 and gallows section bar 1 slide and be connected, compare in whole gomphosis in gallows section bar 1 that slides, not only practiced thrift the material, reduced moreover to the influence of anti-seismic performance.

In order to improve the sliding installation stability of the clamping member 6, as shown in fig. 1, the inward turned edge 4 is turned over again to form a downward turned edge 10, and a reinforcing groove 11 for embedding the downward turned edge 10 is formed between the main body of the clamping member 6 and the insert block 9, so that the sliding installation stability of the clamping member 6 is further improved.

The specific structure of the thread screwing structure is as follows, as shown in fig. 3, the thread screwing structure comprises a stud 12 in thread fit with the clamping part 6 and a force application cap 13 arranged at the top end of the stud 12, a through hole 14 for the stud 12 to penetrate through is formed in the foot attaching plate 5, the force application cap 13 is tightly pressed on the upper surface of the foot attaching plate 5, compared with the traditional method that the bolt is adopted to pull and tightly attach the foot plate 5 and the clamping part 6, the alignment convenience of the foot attaching plate 5 and the clamping part 6 is improved, and the stud 12 can be screwed without the help of tools.

It should be noted that, as shown in fig. 3 and 4, the force application cap 13 is sleeved on the top end of the stud 12, and a connecting pin 141 is inserted and connected to horizontally penetrate through the force application cap 13 and the stud 12, so as to realize the detachable installation of the force application cap 13; when the clamping piece 6 is connected with the foot plate 5, the stud 12 is firstly guided to pass through the through hole 14, then the force application cap 13 is installed for screwing the stud 12, and after the stud 12 is screwed down, the force application cap 13 is pressed on the upper surface of the foot plate 5, so that the connecting pin 141 is tensioned in the opposite direction of the force application cap 13 and the stud 12 under the action of a reaction force, and the abnormal separation of the connecting pin 141 is effectively prevented; when the pipe fitting 3 needs to be overhauled, the stud 12 is firstly unscrewed through the force application cap 13, so that the extraction of the connecting pin 141 is not limited any more, after the connecting pin 141 is normally extracted, the force application cap 13 can be detached from the stud 12, and then the pipe fitting 3 can be directly overhauled or replaced after the arc-shaped buckle plate 2 is detached; in conclusion, the force application cap 13 adopts a detachable structure, which facilitates the connection of the foot attaching plate 5 and the clamping member 6 on the one hand, and facilitates the maintenance and replacement of the pipe fitting 3 on the other hand.

In practical applications, it is found that a large relative torque force exists between the stud 12 and the force application cap 13 when the stud 12 is screwed by the force application cap 13, and therefore, as shown in fig. 3 and 4, an outer hexagon 15 is formed at the top end of the stud 12, and an inner hexagon 16 sleeved with the outer hexagon 15 is formed on the lower end surface of the force application cap 13, so that the relative rotation capability between the stud 12 and the force application cap 13 is eliminated, and the problem of excessive stress on the connecting pin 141 when the stud 12 is screwed by the force application cap 13 is avoided.

To facilitate the extraction of the connecting pin 141, as shown in fig. 3, one end of the connecting pin 141 is provided with a pull ring 17, thereby providing a force application point for extracting the connecting pin 141, and facilitating the extraction of the connecting pin 141 by the service man.

The specific embodiments are only for explaining the present invention, and the present invention is not limited thereto, and those skilled in the art can make modifications without inventive contribution to the present embodiments as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (7)

1. An ohmic pipe clamp structure for a comprehensive pipeline hanger comprises a hanger profile (1), a plurality of arc-shaped pinch plates (2) arranged on the hanger profile (1), and a pipe fitting (3) fixedly sleeved by the arc-shaped pinch plates (2) and the hanger profile (1) in a matched manner; the method is characterized in that: the section of the hanger profile (1) is U-shaped, inward-turned edges (4) are formed by inward turning of two sides of an opening of the hanger profile, two ends of the arc-shaped buckle plate (2) are respectively bent to form foot attaching plates (5), and the foot attaching plates (5) are attached to the upper surfaces of the inward-turned edges (4); the hanger section bar (1) is connected with a clamping piece (6) corresponding to each foot attaching plate (5) in a sliding mode respectively, and a thread screwing structure is arranged between the clamping piece (6) and the foot attaching plates (5).

2. The ohm clip construction for integrated piping hangers of claim 1 further comprising: the hanging bracket is characterized in that concave parts (7) are formed inwards on two sides of the hanging bracket section bar (1), sliding grooves (8) are formed in the concave parts (7) in a matched mode and on the inward turning edges (4), and embedding blocks (9) which are slidably embedded in the sliding grooves (8) are arranged on two sides of the clamping piece (6) respectively.

3. An ohmic card structure for an integrated piping hanger as claimed in claim 2, wherein: the inward turning edge (4) is turned over again to form a downward turning edge (10), and a reinforcing groove (11) for embedding the downward turning edge (10) is formed between the main body of the clamping piece (6) and the embedded block (9).

4. The ohm clip construction for integrated piping hangers of claim 1 further comprising: the thread screwing structure comprises a stud (12) in thread fit with the clamping piece (6) and a force application cap (13) arranged at the top end of the stud (12), the foot plate (5) is provided with a through hole (14) for the stud (12) to penetrate through, and the force application cap (13) is pressed on the upper surface of the foot plate (5).

5. An ohmic card structure for an integrated piping hanger as claimed in claim 4, wherein: the force application cap (13) is sleeved at the top end of the stud (12), and a connecting pin (141) horizontally penetrates through the force application cap (13) and the stud (12) in an inserted mode.

6. An ohmic card structure for an integrated piping hanger as claimed in claim 5, wherein: an outer hexagon body (15) is arranged at the top end of the stud (12), and an inner hexagonal groove (16) which is sleeved with the outer hexagon body (15) is arranged on the lower end face of the force application cap (13).

7. An ohmic card structure for an integrated piping hanger as claimed in claim 5, wherein: one end of the connecting pin (141) is provided with a pull ring (17).

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