CN220745081U - Suspension protection structure capable of adjusting deformation of existing pipeline - Google Patents

Abstract

The utility model provides a suspension protection structure capable of adjusting deformation of an existing pipeline, which comprises a suspension frame module, a suspension steel rope and a movement adjusting mechanism, wherein two ends of the suspension steel rope are connected to the suspension frame module, and the suspension steel rope is used for suspending the existing pipeline; the movable adjusting mechanism comprises a sliding part and a lifting driving assembly, the sliding part is slidably arranged on the suspension frame module along the length direction of the suspension frame module, the lifting driving assembly is used for being supported on the construction ground, and the lifting driving assembly is connected with the sliding part; when the existing pipeline suspended by the suspension steel rope moves downwards to deform, the lifting driving assembly drives the sliding piece to lift together with the suspension frame module and the suspension steel rope, so that the existing pipeline is lifted. The suspension protection structure capable of adjusting the deformation of the existing pipeline can realize active control of the deformation of the protected existing pipeline caused by the loosening of the suspension steel rope and the compression and sedimentation of the ground, and reduce the damage risk of the pipeline.

Description

Suspension protection structure capable of adjusting deformation of existing pipeline

Technical Field

The utility model relates to the technical field of pipeline engineering excavation construction, in particular to a suspension protection structure capable of adjusting deformation of an existing pipeline.

Background

With the increasing of market construction scale and building density of domestic pipe network construction, various types of existing pipe networks are often present in the new pipe network engineering range, the new pipe construction in the pipeline dense range is mainly constructed by adopting an open cut method, the protection of the existing pipeline in the new pipe open cut groove range is mainly carried out by adopting a suspension method, the existing pipeline is mainly protected by suspending the existing pipeline through a steel wire rope, but the steel wire rope is a flexible material and is easy to loose, so that the existing pipeline at the construction position is lowered, the existing pipeline is deformed too much or damaged, the purpose of protecting the existing pipeline cannot be completed, and great economic loss and social influence are caused.

Therefore, it is necessary to provide a suspension protection structure capable of adjusting the deformation of the existing pipeline, which can realize active control of the deformation of the protected existing pipeline caused by the loosening of the suspension steel rope and the compression and sedimentation of the ground, and reduce the damage risk of the pipeline.

Disclosure of Invention

The utility model aims to provide a suspension protection structure capable of adjusting deformation of an existing pipeline, which can actively control the deformation of the protected existing pipeline caused by loosening of a suspension steel rope and compression and sedimentation of the ground, reduce the risk of pipeline damage and is applicable to different foundation trench widths.

In order to achieve the above purpose, the utility model provides a suspension protection structure capable of adjusting deformation of an existing pipeline, which comprises a suspension frame module, a suspension steel rope and a movement adjusting mechanism, wherein two ends of the suspension steel rope are connected to the suspension frame module, and the suspension steel rope is used for suspending the existing pipeline; the movable adjusting mechanism comprises a sliding part and a lifting driving assembly, the sliding part is slidably arranged on the suspension frame module along the length direction of the suspension frame module, the lifting driving assembly is used for supporting on the construction ground, and the lifting driving assembly is connected with the sliding part; when the existing pipeline suspended by the suspension steel rope moves downwards to deform, the lifting driving assembly drives the sliding piece to lift together with the suspension frame module and the suspension steel rope, so that the existing pipeline is lifted.

Preferably, the suspension frame module comprises a suspension frame body and a lifting lug, wherein the lifting lug is arranged on the suspension frame body, two ends of the suspension steel rope are connected to the suspension frame body, and the sliding piece is slidably arranged on the suspension frame body along the length direction of the suspension frame body.

Preferably, the two lifting lugs are symmetrically arranged on the suspension frame body.

Preferably, the hanging steel rope is sleeved on the hanging frame module, and two ends of the hanging steel rope are connected through steel rope buckles.

Preferably, the lifting driving assembly is a jack.

Preferably, the movement adjusting mechanism further comprises a limit bolt, and the sliding piece is sleeved on the suspension bracket module; the limiting bolt penetrates through the sliding piece and is connected with the suspension bracket module, so that the sliding piece is locked on the suspension bracket module; and the limit bolt is separated from the suspension bracket module by screwing the limit bolt so as to release the sliding piece.

Preferably, the movement adjusting mechanism further comprises a supporting piece, one end of the supporting piece is supported on the construction ground, and the other end of the supporting piece is fixedly connected with the sliding piece.

Preferably, the two moving adjusting mechanisms are symmetrically distributed at two ends of the suspension frame module.

Compared with the prior art, the suspension protection structure capable of adjusting the deformation of the existing pipeline has the advantages that by means of the movable adjusting mechanism with movable, fixed and jacking functions, when the suspension steel rope loosens and the protected existing pipeline is deformed due to ground compression sedimentation, the sliding part is driven to ascend by the lifting driving assembly, so that the suspension frame module is jacked upwards, the suspension steel rope is lifted upwards, the existing pipeline is lifted upwards, the control of the deformation of the existing pipeline is realized, the damage risk of the pipeline is reduced, the repair cost caused by the risk is avoided, meanwhile, the suspension steel rope is loosened and taken out after the existing pipeline protection task is completed, the suspension frame module and the movable adjusting mechanism are integrally hoisted to another existing pipeline protection position, the construction efficiency is greatly improved, and the structure is reusable. Therefore, the suspension protection structure capable of adjusting the deformation of the existing pipeline can realize active control of the deformation of the protected existing pipeline caused by the loosening of the suspension steel rope and the compression and sedimentation of the ground, reduce the damage risk of the pipeline, and has the characteristics of convenient construction, short construction period, low construction cost and simple process. By applying the suspension protection structure capable of adjusting the deformation of the existing pipeline, the construction efficiency can be improved, the waste of manpower and material resources can be reduced, the green conservation concept can be better practiced, and the suspension protection structure is suitable for being widely popularized.

Drawings

Fig. 1 is a block diagram of a suspension protection structure of the present utility model that accommodates deformation of an existing pipe.

Fig. 2 is a block diagram of a hanger module of the present utility model for a hanger protection configuration for accommodating deformation of existing pipes.

Fig. 3 is a block diagram of a movement adjusting mechanism of the suspension protection structure of the present utility model, which can adjust the deformation of the existing pipe.

Fig. 4 is a block diagram of the present utility model's suspension protection structure for adjusting deformation of an existing pipe when suspending the existing pipe.

Detailed Description

In order to describe the technical content and constructional features of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 4, the suspension protection structure 100 of the present utility model capable of adjusting deformation of an existing pipeline includes a suspension frame module 1, a suspension steel rope 2, and a movement adjusting mechanism 3, wherein two ends of the suspension steel rope 2 are connected to the suspension frame module 1, and the suspension steel rope 2 is used for suspending the existing pipeline 200; the movement adjusting mechanism 3 comprises a sliding part 31 and a lifting driving assembly 32, wherein the sliding part 31 is slidably arranged on the suspension frame module 1 along the length direction of the suspension frame module 1, the lifting driving assembly 32 is used for being supported on the construction ground 500, and the lifting driving assembly 32 is connected with the sliding part 31; when the existing pipe 200 suspended by the suspension wire 2 is deformed by moving downward, the slider 31 is driven by the elevation driving unit 32 to ascend together with the suspension frame module 1 and the suspension wire 2, thereby lifting the existing pipe 200. The lifting driving component 32 is driven by the sliding piece 31 to slide on the suspension bracket module 1 to adjust the position, so that the base grooves 400 with different widths and sizes can be adapted.

Referring to fig. 2, in the present embodiment, the suspension module 1 includes a suspension body 11 and a lifting lug 12, the lifting lug 12 is disposed on the suspension body 11, two ends of the suspension steel cable 2 are connected to the suspension body 11, and the sliding member 31 is slidably disposed on the suspension body 11 along the length direction of the suspension body 11. By providing the hanger body 11 with the lifting lug 12, the hanger module 1 and the movement adjusting mechanism 3 can be lifted to a construction position where the existing pipeline 200 needs to be protected by the lifting lug 12. Specifically, the two lifting lugs 12 are symmetrically disposed on the hanger body 11. However, the structure of the suspension module 1 is not limited to this, and for example, in other embodiments, the suspension module 1 may just use the suspension body 11. The suspension frame 11 may have an existing i-steel structure, and the sliding member 31 may have an existing steel square structure, but is not limited thereto.

Referring to fig. 1, in the present embodiment, a suspension steel rope 2 is sleeved on a suspension frame module 1, and two ends of the suspension steel rope 2 are connected by a steel rope buckle. The two ends of the suspension steel rope 2 are fixed through the steel rope buckle, so that the suspension steel rope 2 can be firmly sleeved on the suspension frame body 11 of the suspension frame module 1.

Referring to fig. 3, in the present embodiment, the lifting driving assembly 32 is a jack. However, the present utility model is not limited thereto, and in other embodiments, the lift driving assembly 32 may be configured by an existing cylinder, a linear motion driving module, or the like.

With continued reference to fig. 1 and 3, in this embodiment, the movement adjusting mechanism 3 further includes a limit bolt 33, and the sliding member 31 is sleeved on the suspension frame module 1; the limiting bolt 33 penetrates through the sliding piece 31 and is connected with the suspension frame module 1 so as to lock the sliding piece 31 on the suspension frame module 1; by screwing the limit bolt 33, the limit bolt 33 is separated from the suspension module 1 to release the sliding member 31. The sliding part 31 is released by the limit bolt 33, so that the sliding part 31 can be slidably adjusted on the suspension frame body 11 of the suspension frame module 1, meanwhile, the lifting driving assembly 32 is driven to move, and the lifting driving assembly 32 is adjusted to be supported at the position of the construction ground, so that the foundation grooves 400 with different widths are adapted. Specifically, the limit bolt 33 is connected with the sliding member 31 through a matched thread, and meanwhile, the limit bolt 33 may also be connected with the suspension frame body 11 of the suspension frame module 1 through a matched thread, but not limited thereto, for example, the limit bolt 33 may also be connected with the suspension frame body 11 of the suspension frame module 1 through a direction of inserting through an inserting hole.

With continued reference to fig. 1 and 3, in the present embodiment, the movement adjusting mechanism 3 further includes a support member 34, one end of the support member 34 is supported on the construction ground 500, and the other end of the support member 34 is fixedly connected with the sliding member 31. The supporting member 34 can initially support the sliding member 31, the hanger module 1 and the hanging wire 2, and when the existing pipe 200 hung by the hanging wire 2 is deformed by moving downward, the sliding member 31 is driven by the elevation driving unit 32 to ascend together with the supporting member 34, the hanger module 1 and the hanging wire 2, and at the same time, the elevation driving unit 32 supports the sliding member 31, the supporting member 34, the hanger module 1, the hanging wire 2 and the existing pipe 200. The supporting member 34 may be, but not limited to, an existing i-steel structure.

Referring to fig. 1, in the present embodiment, two movement adjusting mechanisms 3 are symmetrically distributed at two ends of the suspension module 1. By providing the two movement adjusting mechanisms 3, the lifting adjustment of the suspension frame module 1 and the support of the suspension frame module 1, the suspension steel wire 2 and the existing pipeline 200 are performed in a balanced and stable manner.

Referring to fig. 1 to 4, the specific construction method of the suspension protection structure 100 of the present utility model capable of adjusting the deformation of the existing pipe is as follows:

s1, a suspension frame module 1, a suspension steel rope 2 and a movement adjusting mechanism 3 are provided, wherein the suspension frame module 1 comprises a suspension frame body 11 and a lifting lug 12, and the movement adjusting mechanism 3 comprises a sliding piece 31, a lifting driving assembly 32, a limit bolt 33 and a supporting piece 34.

S2, assembling the suspension frame body 11 and the movement adjusting mechanism 3 near the construction position where the existing pipeline 200 needs to be protected, symmetrically adjusting the position of the sliding piece 31 according to the excavation width of the foundation trench 400 of the newly-built pipeline 300, and fixing the sliding piece by the limit bolts 33.

S3, after the existing pipeline 200 is dug out, the assembled suspension frame body 11 and the movement adjusting mechanism 3 are integrally hoisted to the base groove 400 of the newly-built pipeline 300, the supporting piece 34 is supported on the ground, the side, adjacent to the base groove 400, of the supporting piece 34 is 30-50cm away from the side, adjacent to the base groove 400, of the supporting piece 400, the existing pipeline 200 is directly suspended by the suspension steel rope 2, and after the two ends of the suspension steel rope 2 are tensioned on the suspension frame body 11, the two ends are fixedly connected through steel rope buckles.

S4, excavating a soil layer below the existing pipeline 200, constructing a newly built pipeline 300, and monitoring deformation conditions of the suspension position of the existing pipeline 200 in real time.

S5, before backfilling the soil layer, if deformation occurs at the suspension position of the existing pipeline 200, the suspension frame module 1 is lifted upwards through the lifting driving assemblies 32 of the movable adjusting mechanisms 3 at the two sides, so that the suspension steel ropes 2 are lifted upwards, and finally the existing pipeline 200 is lifted upwards, so that the deformation of the existing pipeline 200 is controlled to the original position, and the protection aim of the existing pipeline 200 is fulfilled.

S6, after the newly built pipeline 300 is laid, backfilling the earth to the height of the circle center of the existing pipeline 200, loosening the suspension steel rope 2, drawing out the suspension steel rope 2, integrally hoisting the suspension frame body 11 and the movement adjusting mechanism 3 to the construction position of the other existing pipeline 200 to be protected through the lifting lug 12, and repeating the steps S3-S5 until the newly built pipeline 300 containing the existing pipeline 200 is constructed, and recovering each component.

In summary, according to the suspension protection structure 100 capable of adjusting the deformation of the existing pipeline, by means of the movable adjustment mechanism 3 with movable, fixed and lifting functions, when the suspension steel rope 2 loosens and the deformation of the protected existing pipeline 200 caused by ground compression sedimentation, the lifting driving assembly 32 drives the sliding part 31 to lift up, so that the suspension steel rope 2 is lifted up, the existing pipeline 200 is lifted up, the deformation control of the existing pipeline 200 is realized, the damage risk of the pipeline is reduced, the repair cost caused by the risk is avoided, meanwhile, after the protection task of the existing pipeline 200 is completed, the suspension steel rope 2 is loosened and taken out, the suspension steel rope 1 and the movable adjustment mechanism 3 can be integrally lifted to the protection position of the other existing pipeline 200, the construction efficiency is greatly improved, and the structure is reusable. Therefore, the suspension protection structure 100 capable of adjusting the deformation of the existing pipeline can actively control the deformation of the protected existing pipeline 200 caused by the loosening of the suspension steel rope 2 and the compression and sedimentation of the ground, reduce the risk of pipeline damage, and has the characteristics of convenient construction, short construction period, low construction cost and simple process. By applying the suspension protection structure 100 capable of adjusting the deformation of the existing pipeline, the construction efficiency can be improved, the waste of manpower and material resources can be reduced, the green conservation concept can be better practiced, and the suspension protection structure is suitable for being widely popularized.

The foregoing disclosure is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, which is defined by the appended claims.

Claims (8)

1. A suspension protection structure capable of adjusting deformation of an existing pipeline, comprising:

a suspension frame module;

the two ends of the suspension steel rope are connected to the suspension bracket module, and the suspension steel rope is used for suspending the existing pipeline;

the movable adjusting mechanism comprises a sliding part and a lifting driving assembly, the sliding part is slidably arranged on the suspension bracket module along the length direction of the suspension bracket module, the lifting driving assembly is used for supporting on the construction ground, and the lifting driving assembly is connected with the sliding part; when the existing pipeline suspended by the suspension steel rope moves downwards to deform, the lifting driving assembly drives the sliding piece to lift together with the suspension frame module and the suspension steel rope, so that the existing pipeline is lifted.

2. The hanging protection structure for adjusting deformation of an existing pipeline according to claim 1, wherein the hanging frame module comprises a hanging frame body and a hanging lug, the hanging lug is arranged on the hanging frame body, two ends of the hanging steel rope are connected to the hanging frame body, and the sliding piece is slidably arranged on the hanging frame body along the length direction of the hanging frame body.

3. The hanging protection structure for adjusting deformation of existing pipes according to claim 2, wherein two lifting lugs are symmetrically arranged on the hanging frame body.

4. The hanging protection structure capable of adjusting deformation of an existing pipeline according to claim 1, wherein the hanging steel rope is sleeved on the hanging frame module, and two ends of the hanging steel rope are connected through steel rope buckles.

5. The structure of claim 1, wherein the lifting drive assembly is a jack.

6. The suspension protection structure capable of adjusting deformation of an existing pipeline according to claim 1, wherein the movement adjusting mechanism further comprises a limit bolt, and the sliding piece is sleeved on the suspension frame module; the limiting bolt penetrates through the sliding piece and is connected with the suspension bracket module, so that the sliding piece is locked on the suspension bracket module; and the limit bolt is separated from the suspension bracket module by screwing the limit bolt so as to release the sliding piece.

7. The suspension protection structure for adjusting deformation of an existing pipeline according to claim 1, wherein the movement adjusting mechanism further comprises a supporting member, one end of the supporting member is supported on the construction ground, and the other end of the supporting member is fixedly connected with the sliding member.

8. The structure according to claim 1, wherein the two moving adjusting mechanisms are symmetrically distributed at two ends of the suspension frame module.