CN214618468U

CN214618468U - Pipeline supporting and hanging frame structure

Info

Publication number: CN214618468U
Application number: CN202120161709.5U
Authority: CN
Inventors: 陈榕; 郭芬阳; 赵俊; 魏煜; 孙梁燕; 江峰; 张�杰
Original assignee: Beideli Energy Equipment Jiangsu Co ltd
Current assignee: Beideli Energy Equipment Jiangsu Co ltd
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2021-11-05
Anticipated expiration: 2031-01-20

Abstract

The utility model provides a pipeline support and hanger structure, which comprises an X-direction hanger plate, a Y-direction hanger plate, a Z-direction hanger plate, a hanger frame, a lower pipe clamp, a first upper pipe clamp and a second upper pipe clamp; an X-direction sliding block is further fixed at the top of the hanging frame, an X-direction sliding groove which is in sliding fit with the X-direction sliding block along the X direction is formed in the bottom of the X-direction hanging plate, and an X-direction spring which abuts against two ends of the X-direction sliding block is further arranged in the X-direction sliding groove; a Y-direction sliding block is further fixed at the top of the X-direction hanging plate, a Y-direction sliding groove which is in sliding fit with the Y-direction sliding block along the Y direction is formed in the bottom of the Y-direction hanging plate, and a Y-direction spring which abuts against two ends of the Y-direction sliding block is further arranged in the Y-direction sliding groove; y still is fixed with Z to the slider to the top of hanger plate, and Z is equipped with and follows Z to sliding fit's Z to the spout to the slider to the inside of hanger plate, and Z still is equipped with the butt in Z to the Z of slider top and bottom to the spring in to the spout, the utility model discloses the shock attenuation effect is better, and can adapt to the adaptability centre gripping of different pipe diameters and pipeline shrinkage phenomenon well pipeline.

Description

Pipeline supporting and hanging frame structure

Technical Field

The utility model relates to a gallows structure, especially a pipeline gallows structure.

Background

The extensive application of pipeline is in each trade, and the workman is in the pipeline installation in-process in the building, and a gallows structure generally establishes the unsettled position between the adjacent stiff end of pipeline to prevent that the pipeline from shaking from the middle production when vibrations, the effect of the joint of protection pipeline. The general diameter of the pipe clamp that corresponds in present pipeline gallows is comparatively single, and when the pipeline took place expend with heat and contract with cold along with temperature variation, or when the different pipeline diameters of adaptation model, then need change pipe clamp or holistic pipeline and hang the support, and also can cause the insecure phenomenon of centre gripping under the expend with heat and contract with cold condition.

Therefore, a pipeline support and hanger structure which has a better damping effect and can adapt to adaptive clamping of pipelines with different pipe diameters and in the phenomenon of pipeline cold contraction is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pipeline gallows structure, the shock attenuation effect is better, and can adapt to the adaptability centre gripping of pipeline in different pipe diameters and the pipeline shrinkage phenomenon.

The utility model provides a following technical scheme:

a pipeline supporting and hanging frame structure comprises an X-direction hanging plate, a Y-direction hanging plate, a Z-direction hanging plate, a hanging frame, a lower pipe clamp, a first upper pipe clamp and a second upper pipe clamp; the lower pipe clamp is fixed in the hanging frame, a first upper pipe clamp and a second upper pipe clamp which are matched with the lower pipe clamp to clamp a pipeline are further arranged above the lower pipe clamp, and a first adjusting group and a second adjusting group are further arranged in the hanging frame, wherein the first adjusting group is used for driving the first upper pipe clamp and the second upper pipe clamp to move in opposite directions or back directions; an X-direction sliding block is further fixed to the top of the hanging frame, an X-direction sliding groove in sliding fit with the X-direction sliding block in the X direction is formed in the bottom of the X-direction hanging plate, and an X-direction spring abutting against two ends of the X-direction sliding block is further arranged in the X-direction sliding groove; a Y-direction sliding block is further fixed at the top of the X-direction hanging plate, a Y-direction sliding groove which is in sliding fit with the Y-direction sliding block along the Y direction is formed in the bottom of the Y-direction hanging plate, and a Y-direction spring which abuts against two ends of the Y-direction sliding block is further arranged in the Y-direction sliding groove; the top of Y to the hanger plate still is fixed with Z to the slider, the inside of Z to the hanger plate be equipped with Z to the slider along Z to sliding fit's Z to the spout, just still be equipped with the Z of butt at Z to slider top and bottom in the Z to the spout and to the spring.

Preferably, the first adjusting group comprises a rotating rod, a Z-direction sliding plate, a nut block, a sliding groove, a rotating motor, a driving wheel, a driven wheel and a bearing with a seat; z is equipped with the edge to the both ends of slide hang frame Z to gliding stopper, its bottom is fixed with two sets of tape seat bearings that are used for erectting the rotary rod, rotary rod external thread connection has two sets of nut pieces, the top of nut piece is fixed with a sliding block, sliding block sliding connection be in Z is to the sliding tray of slide bottom, the bottom of nut piece still is fixed with first last pipe clamp or pipe clamp on the second, the end fixing of rotary rod has from the driving wheel, the rotating electrical machines is installed Z is to the slide on, and its expansion end is connected with and is used for driving from the rotatory action wheel of driving wheel.

Preferably, the second adjusting group comprises a screw rod motor, a screw rod body and a screw rod sleeve, the screw rod sleeve is fixed to the top of the Z-direction sliding plate, the screw rod body is in threaded connection with the inside of the screw rod sleeve, the top end of the screw rod body is connected to the driving end of the screw rod motor, and the mounting end of the screw rod motor is fixed to the inside of the hanging frame.

Preferably, the bottom sides of the first upper pipe clamp, the second upper pipe clamp and the top side of the lower pipe clamp are connected with an arc-shaped clamping plate through elastic members.

Preferably, the concave surface of the clamping plate is also provided with a plurality of elastic bulges used for abutting against the outer wall of the pipeline.

Preferably, the elastic member is a damper spring.

The utility model has the advantages that: when the pipeline expend with heat and contract with cold or when need changing different diameter pipelines, the tight regulation of clamp to the pipeline is realized to the first adjustment group of accessible and second adjustment group, and sets up X through the top at the hanging frame to hanger plate, Y to hanger plate, Z to the hanger plate to can realize the shock attenuation buffering to pressing from both sides the pipeline three-dimensional side after pressing from both sides tightly, thereby it is better to reach the shock attenuation effect, and can adapt to the purpose of the adaptability centre gripping of pipeline in different pipe diameters and the pipeline contract with cold phenomenon.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

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

notation in the figure: the device comprises an X-direction hanging plate 1, a Y-direction hanging plate 2, a Z-direction hanging plate 3, a hanging frame 4, a lower pipe clamp 5, a first upper pipe clamp 6, a second upper pipe clamp 7, a first adjusting group 8, a second adjusting group 9, a clamping plate 10, an X-direction sliding block 41, an X-direction sliding groove 42, an X-direction spring 43, a Y-direction sliding block 11, a Y-direction sliding groove 12, a Z-direction sliding block 21, a Z-direction sliding groove 22, a Z-direction spring 23, a rotating rod 81, a Z-direction sliding plate 82, a nut block 83, a sliding block 84, a sliding groove 85, a rotating motor 86, a driving wheel 87, a driven wheel 88, a belt seat bearing 89, a lead screw motor 91, a lead screw body 92 and a lead screw sleeve 93.

Detailed Description

As shown in fig. 1, a structural cross-sectional view of a pipe support and hanger structure includes, in this embodiment, an X-direction hanger plate 1, a Y-direction hanger plate 2, a Z-direction hanger plate 3, a hanger frame 4, a lower pipe clamp 5, a first upper pipe clamp 6, and a second upper pipe clamp 7; the lower pipe clamp 5 is fixed in the hanging frame 4, a first upper pipe clamp 6 and a second upper pipe clamp 7 which are matched with the lower pipe clamp 5 to clamp a pipeline are further arranged above the lower pipe clamp 5, a first adjusting group 8 for driving the first upper pipe clamp 6 and the second upper pipe clamp 7 to move oppositely or backwards and a second adjusting group 9 for driving the first adjusting group 8 to move in the hanging frame 4 along the Z direction are further arranged in the hanging frame 4; an X-direction sliding block 41 is further fixed at the top of the hanging frame 4, an X-direction sliding groove 42 which is matched with the X-direction sliding block 41 in a sliding manner along the X direction is formed in the bottom of the X-direction hanging plate 1, and an X-direction spring 43 which is abutted to two ends of the X-direction sliding block 41 is further arranged in the X-direction sliding groove 42; a Y-direction sliding block 11 is further fixed at the top of the X-direction hanging plate 1, a Y-direction sliding groove 12 which is in sliding fit with the Y-direction sliding block 11 along the Y direction is formed in the bottom of the Y-direction hanging plate 2, and a Y-direction spring which abuts against two ends of the Y-direction sliding block 11 is further arranged in the Y-direction sliding groove 12; a Z-direction sliding block 21 is further fixed at the top of the Y-direction hanging plate 2, a Z-direction sliding groove 22 which is in sliding fit with the Z-direction sliding block 21 along the Z direction is arranged inside the Z-direction hanging plate 3, and a Z-direction spring 23 which is abutted against the top and the bottom of the Z-direction sliding block 21 is further arranged in the Z-direction sliding groove 22.

The first adjusting group 8 comprises a rotating rod 81, a Z-direction sliding plate 82, a nut block 83, a sliding block 84, a sliding groove 85, a rotating motor 86, a driving wheel 87, a driven wheel 88 and a bearing with a seat 89; z is equipped with along the gliding stopper of hanging frame 4Z to slide 82's both ends, its bottom is fixed with two sets of tape seat bearings 89 that are used for erectting rotary rod 81, rotary rod 81 external screw thread connection has two sets of nut pieces 83, the top of nut piece 83 is fixed with a sliding block 84, sliding block 84 sliding connection is in the sliding tray 85 of Z bottom to slide 82, the bottom of nut piece 83 still is fixed with first last pipe clamp 6 or second and goes up pipe clamp 7, rotary rod 81's end fixing has from driving wheel 88, rotating electrical machines 86 installs on Z slides 82, and its expansion end is connected with and is used for driving from the rotatory action wheel 87 of driving wheel 88.

The second adjusting set 9 comprises a screw rod motor 91, a screw rod body 92 and a screw rod sleeve 93, the screw rod sleeve 93 is fixed at the top of the Z-direction sliding plate 82, the screw rod body 92 is connected to the inner thread of the screw rod sleeve 93, the top end of the screw rod body 92 is connected to the driving end of the screw rod motor 91, and the mounting end of the screw rod motor 91 is fixed in the hanging frame 4.

The bottom sides of the first upper pipe clamp 6, the second upper pipe clamp 7 and the top side of the lower pipe clamp 5 are connected with an arc-shaped clamping plate 10 through elastic members. The concave surface of the clamping plate 10 is also provided with a plurality of elastic bulges which are used for abutting against the outer wall of the pipeline. The elastic piece is damping spring to can realize the buffering shock attenuation effect when pressing from both sides tight to the pipeline.

The utility model discloses a theory of operation is: when the pipeline expend with heat and contract with cold or when need changing different diameter pipelines, the tight regulation of clamp to the pipeline is realized to the first adjustment group of accessible 8 and the tight regulation of second adjustment group 9, and sets up X through the top at hanging frame 4 to hanger plate 1, Y to hanger plate 2, Z is to hanger plate 3, thereby can realize the shock attenuation buffering to the pipeline three-dimensional side after pressing from both sides tightly, thereby it is better to reach the shock attenuation effect, and can adapt to the purpose of the adaptability centre gripping of pipeline in different pipe diameters and the pipeline contract with cold phenomenon.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A pipeline supporting and hanging frame structure is characterized by comprising an X-direction hanging plate, a Y-direction hanging plate, a Z-direction hanging plate, a hanging frame, a lower pipe clamp, a first upper pipe clamp and a second upper pipe clamp; the lower pipe clamp is fixed in the hanging frame, a first upper pipe clamp and a second upper pipe clamp which are matched with the lower pipe clamp to clamp a pipeline are further arranged above the lower pipe clamp, and a first adjusting group and a second adjusting group are further arranged in the hanging frame, wherein the first adjusting group is used for driving the first upper pipe clamp and the second upper pipe clamp to move in opposite directions or back directions;

an X-direction sliding block is further fixed to the top of the hanging frame, an X-direction sliding groove in sliding fit with the X-direction sliding block in the X direction is formed in the bottom of the X-direction hanging plate, and an X-direction spring abutting against two ends of the X-direction sliding block is further arranged in the X-direction sliding groove; a Y-direction sliding block is further fixed at the top of the X-direction hanging plate, a Y-direction sliding groove which is in sliding fit with the Y-direction sliding block along the Y direction is formed in the bottom of the Y-direction hanging plate, and a Y-direction spring which abuts against two ends of the Y-direction sliding block is further arranged in the Y-direction sliding groove; the top of Y to the hanger plate still is fixed with Z to the slider, the inside of Z to the hanger plate be equipped with Z to the slider along Z to sliding fit's Z to the spout, just still be equipped with the Z of butt at Z to slider top and bottom in the Z to the spout and to the spring.

2. The pipe hanger structure of claim 1, wherein the first adjustment group comprises a rotary rod, a Z-direction sliding plate, a nut block, a sliding groove, a rotary motor, a driving wheel, a driven wheel and a belt seat bearing; z is equipped with the edge to the both ends of slide hang frame Z to gliding stopper, its bottom is fixed with two sets of tape seat bearings that are used for erectting the rotary rod, rotary rod external thread connection has two sets of nut pieces, the top of nut piece is fixed with a sliding block, sliding block sliding connection be in Z is to the sliding tray of slide bottom, the bottom of nut piece still is fixed with first last pipe clamp or pipe clamp on the second, the end fixing of rotary rod has from the driving wheel, the rotating electrical machines is installed Z is to the slide on, and its expansion end is connected with and is used for driving from the rotatory action wheel of driving wheel.

3. The pipe support and hanger structure of claim 2, wherein the second adjustment set comprises a screw motor, a screw body and a screw sleeve, the screw sleeve is fixed on the top of the Z-direction sliding plate, the screw body is connected with the screw sleeve through internal threads, the top end of the screw body is connected to the driving end of the screw motor, and the mounting end of the screw motor is fixed in the hanger frame.

4. A pipe hanger structure according to claim 3, wherein an arc-shaped clamping plate is connected to each of the bottom sides of said first upper pipe clamp, said second upper pipe clamp and said lower pipe clamp through an elastic member.

5. The pipe hanger structure of claim 4, wherein the concave surface of the clamp plate is further provided with a plurality of elastic protrusions for abutting against the outer wall of the pipe.

6. A pipe hanger structure according to claim 5, wherein said resilient member is a shock absorbing spring.