RU127162U1 - PIPELINE SUPPORT - Google Patents

Abstract

1. Pipeline support containing a clamp, consisting of two half-clamps, fasteners in the form of a rod with a head, thread and nut interacting with the stopper, and at least one gasket between the half-clamp and the pipeline, characterized in that the stopper is made in the form of a strap having at least one hole for the rod and after the nut is tightened, the bends of the ends of the strap made after 2. The support according to claim 1, characterized in that in the strip with one hole the ends of the strip are bent in opposite directions. The support according to claim 1, characterized in that in a strip with two holes, the ends of the strip are bent to one side. Support according to claim 1, characterized in that the ends of the plank are made semicircular cutouts. Support according to claim 1, characterized in that the strip is made of stainless steel. Support according to claim 1, characterized in that the anti-corrosion coating is applied to the bar.

Description

The utility model relates to the construction of pipeline transport and can be used in the construction of pipelines for various purposes.

A pipeline support is known, comprising a support module consisting of a housing in which a tool tray is arranged in the form of a profile roller, articulated rocker arms and spring-loaded levers, moreover, the axis of the lever hinges do not coincide with the axis of the rocker hinges and are shifted towards the axis of the lodgement. In this case, the beam is equipped with rollers interacting with spring levers, and the lodgement is fixed in the beam with the possibility of rotation. The pipeline support has two support modules located in pairs on both sides of the pipeline, the casing is additionally equipped with cylindrical cartridges with pre-compressed springs placed in them, a beam located on the lodgements and equipped with profile rollers that interact with the pipeline, and linear sensors for moving the housing relative to the beam. In this case, the module housing is mounted on the column with the possibility of vertical movement (RF patent for the invention No. 2462642, IPC F16L 3/20. Publ. September 27, 2012).

A pipeline support is also known, containing a base, a lodgement for the pipeline and a power stand connecting them, made in the form of an upper and lower pipe telescopically connected, the lodgement consists of a central and two side parts, the surface of the support element of the central part of the lodgement is perpendicular to the axis of the power stand, and the surface supporting elements of its two lateral parts are located at an angle to the surface of the supporting element of the Central part, in which the supporting element of each side of the lodgement is connected to the shoulder at least one two-shouldered lever pivotally connected to the upper pipe of the power rack. And the central part of the lodgement is connected to a pipe telescopically connected to the upper tube of the power rack, and rests on the second shoulders of the two-arm levers of the lateral parts of the lodgement, while the support is equipped with axial movement of the upper pipe (RF patent for the invention No. 2449197, IPC F16L 3/00. Published on April 27, 2012).

However, these supports are structurally complex and metal-intensive.

Closest to the proposed technical essence is a pipe support containing a clamp, consisting of two half-clamps with tightening fasteners in the form of a rod with a head and thread, connecting half-clamps with a nut that interacts with the stopper, and at least one gasket between the half-clamp and pipeline (RF patent for utility model No. 31272, IPC F16L 3/10. Publ. July 27, 2003).

In this support, the lock nut plays the role of a stopper, the use of which requires an increase in the length of the fastening element, for example, bolts or screws, as well as compliance with the requirements for the quality of their tightening: the deviation of the actual torque from the required value should not exceed 0 + 20%.

All this leads to an increase in the cost of the support due to the large number of additional nuts and bolts / screws increased along the length, the complexity of installation work due to the twisting of a double number of nuts. In this case, frictional locking with a lock nut does not guarantee reliable locking of the nut during vibration of the pipeline.

The objective to which the claimed utility model is directed is to reduce the complexity in the manufacture and installation of the support and ensure reliable locking of the support nut.

The technical result consists in guaranteed locking of the fastening element of the support in the working position.

The problem is solved in that in the support of the pipeline containing the clamp, consisting of two half-clamps, fasteners in the form of a rod with a head, thread and nut interacting with the stopper, and at least one gasket between the half-clamp and the pipeline, the stopper is made in the form a strap having at least one hole for the rod and after the nut is tightened, the bends of the ends of the strap.

The implementation of the stopper in the form of a strap having at least one hole for the rod, reduces the cost of manufacturing the support by eliminating the locknuts and reducing the length of the fastener.

And the bends of the ends of the bar made after tightening the nut provide reliable rigid locking of the nut.

Figure 1 shows a frameless movable support of the pipeline, General view; figure 2 - view And on the stopper of the head of the fastener and the stopper of the nut (strap with one hole); figure 3 is a view And on the stopper nuts (strap with two holes); figure 4 is a view of B on the nut stopper (strap with one hole); figure 5 is a view of B on the stopper nuts (strap with two holes); on Fig 6 - a bar with two holes and semicircular cutouts at its ends.

The frameless support of the pipeline 1 contains (Fig. 1) a clamp consisting of two half-clamps 2 and 3, gaskets 4 and 5, located between the inner surface of the half-clamps 2, 3 and the outer surface of the pipeline 1, fasteners, consisting of a rod 6 with a head 7, thread 8 and nut 9, a stopper in the form of a strap 10 with one hole 11 or two holes 11, 12 (Fig.6). At the same time, a bolt or screw can be selected as a rod 6 with a head 7 and a thread 8. The half-clamps 2 and 3 are equipped with ribs 13 that perform the function of stiffeners for stops 14 (Figs. 1, 2, 3). The ribs 13 of the clamp 3 also perform the function of a stopper of the head 7 placed between them (figure 2). Bends 15 and 16 (Fig.2-5) of the ends of the strap 10 provide locking nut 9. The support is located (Fig.1) on the basis of 17 (building structure).

As the material of the gaskets 4, 5, for example, dielectric rubber can be used.

To protect the strip 10 from destruction under the influence of corrosion, it is made of stainless steel, for example, grade 12X18H9 or protected by an anti-corrosion coating.

The support pipe works as follows.

The half-clamps 2 and 3 have gaskets 4 and 5 fixed on them and on the pipeline 1 and tighten with the estimated number of fasteners, creating the estimated nut tightening torque 9, necessary, depending on the purpose of the support (movable, fixed, open-frame, cabinet), the force holding the pipeline 1 .

In this case, the head 7 of the fastener is sandwiched between the ribs 13, which keep it from turning.

When applying the support with two nuts, a stopper is used in the form of a strap 10 with one hole 11, while the nut 9 is locked after tightening by bending 15 of the end of the strap 10 to the stop 14 of the clamp 2 and bending 16 of the other end of the strap 10 to one of the end surfaces of the nut 9 (figure 2, 4). Moreover, the bends 15, 16 of the ends of the strap 10 are bent in opposite directions.

When using supports with the number of nuts more than two, the necessary number of stoppers is used in the form of a strap 10 with two holes 11, 12, while the bends 15, 16 of the ends of the strap 10 are carried out on one of the end surfaces of the nuts 9 (Figs. 3, 5). In this case, the bends 15, 16 of the ends of the strap 10 are bent to one side.

Due to semicircular cutouts 18 at the ends of the strap 10 with one hole 11 or with two holes 11, 12 (Fig.6), paws 19 are formed, which reduce the bending force of the ends of the strap 10 and allow you to lock the nut (s) 9 at any location (their ) end surfaces relative to the ends of the strap 10.

The support can be placed on a supporting building structure - the base 17 (movable open housing) with the possibility of movement or rigidly fixed to the base 17 (fixed open housing).

For thermally insulated pipelines, the support is provided with a hollow body rigidly connected to the clamp, both freely moving along the base 17 (movable housing support) and rigidly fixed to it (fixed housing support). In this case, the hollow body can be made in the form of a cylinder, have a square or rectangular profile, and can also be filled with insulating material, have external brackets for heat sinks.

The proposed support refers to friction, the holding force in which is provided by the frictional force sandwiched between the pipeline and the support of the elastic gaskets.

The claimed utility model has a reliable fixation of the support element of the support in the working position, which retains the force holding the pipeline during operation of the support.

Claims (6)

1. A pipe support comprising a clamp consisting of two half-clamps, fasteners in the form of a rod with a head, thread and nut interacting with the stopper, and at least one gasket between the half-clamp and the pipeline, characterized in that the stopper is made in the form of a strap having at least one hole for the rod and the bends of the ends of the strap made after tightening the nut. 2. The support according to claim 1, characterized in that in the strip with one hole the ends of the strip are bent in opposite directions. 3. The support according to claim 1, characterized in that in the plank with two holes the ends of the plank are bent to one side. 4. The support according to claim 1, characterized in that the ends of the plank are made semicircular cutouts. 5. Support according to claim 1, characterized in that the strip is made of stainless steel. 6. The support according to claim 1, characterized in that the anti-corrosion coating is applied to the bar.

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