RU209698U1 - Support device for vibration damping of pipelines - Google Patents

Abstract

The utility model relates to mechanical engineering and is used to damp vibrations in pipelines. It is designed for vibroacoustic protection of pipeline supports in industry. The device uses cylindrical damping inserts made of vibration-absorbing material. The dampers are installed in the annular gaps formed between the pipe and the regulating clamp, and between the clamp and the outer casing. The outer casing is rigidly mounted on an appropriate support. The use of an adjusting collar allows you to change the level of compression of the damping inserts. This changes their height and area of contact with the pipe and casing. This avoids the output of the device to resonant modes. The use of the proposed technical solution makes it possible to significantly reduce transverse and torsional vibrations, and, accordingly, the dynamic noise caused by them in a wide frequency range. 1 ill.

Description

The utility model relates to mechanical engineering and is designed to dampen pipeline vibrations.

A device for damping pipeline vibrations is known (Patent RU 2208738 C1), including a viscoelastic damping element installed between the outer surface of the pipeline and the housing in the form of a closed annular chamber with elastic end walls, hermetically filled with damping liquid, while on the end walls inside the chamber, uniformly in the circumferential direction, fixed rod elements located in pairs opposite each other, while on the planes of the free ends of the rod elements there are permanent magnets in the form of axially magnetized disks, pairwise facing each other with opposite poles brought into mutual contact.

Such a device, despite its fairly effective operation, is difficult to manufacture. The reasons preventing the achievement of the technical result indicated below when using a known device include the fact that in a known device the use of magnets creates a site where corrosion products of steel pipelines can linger, which narrows the free section of the channel, creates additional local hydraulic resistance; the device is poorly applicable for pipelines of large diameter.

The closest device for the same purpose to the claimed utility model in terms of a set of features is a device for damping pipeline vibrations (Patent RU 2220358 C1), including an outer casing and a viscoelastic damping element tightly installed between the outer surface of the pipeline and the casing in the form of a closed annular elastic chamber, hermetically filled damping fluid. The closed annular elastic chamber is made in the form of a cylindrical shell made of cord fabric, freely put on the pipeline in the places of its maximum vibrational movements and having annular parts turned inward, enclosing the pipeline with an interference fit and fixed on the latter near the ends of the shell. This device is taken as a prototype.

The reasons preventing the achievement of the technical result indicated below when using a known device taken as a prototype include the fact that in the known device there is no possibility of adjusting the device to prevent the occurrence of a resonant mode; there is a risk of fluid leakage due to displacement of the pipeline along the axis, for example, when the temperature changes, the shell may shift.

The essence of the utility model is to create a device whose task is to dampen pipeline vibrations, reduce transverse and torsional vibrations and the dynamic noise caused by them in a wide frequency range.

The technical result of the utility model is the damping of vibrations of the pipeline, the reduction of transverse and torsional vibrations and the dynamic noise caused by them in a wide frequency range, the prevention of the occurrence of a resonant mode, as well as the simplification of the design of the device for damping vibrations of pipelines.

The specified technical result in the implementation of the utility model is achieved by the fact that in the known device for damping pipeline vibrations, containing between the outer surface of the pipeline and the outer casing, a viscoelastic damping element tightly installed in the places of vibration damping of the pipeline, the peculiarity lies in the fact that the damping element is made in the form a set of cylindrical dampers arranged in two rows inside a closed annular chamber, between the rows of which there is a regulating double-sided clamp, which has the possibility of external action causing deformation of the cylindrical dampers: tension or compression, depending on the regulatory action.

Cylindrical dampers can also be made in the form of a shell with a viscous liquid inside. The number of cylindrical dampers of the first row corresponds to the number of dampers of the second row. Cylindrical dampers of the first and second rows are located with an offset to the middle of the corner, that is, opposite each other.

The adjusting collar is equipped with a clamping screw, which is brought out of the outer casing. Perforations are made on the inner and outer surfaces of the adjusting clamp to fix the dampers. The bilateral adjusting collar can be made of stainless steel; The size of the clamp is selected depending on the diameter of the pipeline.

The dampers are installed in the annular gaps formed between the pipe and the regulating clamp, and between the clamp and the outer casing. The outer casing is rigidly mounted on an appropriate support.

Between the outer and inner rings of the dampers is a regulating clamp; by changing the distance between the parts of the clamp with the help of adjusting screws, it becomes possible to change the circumference of the clamp, while compression or weakening of the cylindrical dampers occurs, which allows you to change the vibration frequency of the intermediate structural elements to prevent the creation of resonant modes, while the operation of the device is ensured in a wide frequency range.

The support device for damping vibrations of the pipeline is shown in the figure, where the following designations are accepted: pipeline - 1, cylindrical damper of the first row - 2, clamp - 3, clamp screw - 4, outer casing - 5, cylindrical damper of the second row - 6. On the surface of the pipeline 1, depending on the diameter of the pipeline, cylindrical dampers of the first row 2, made of a viscoelastic material, such as rubber, are placed. It is possible to use two-layer dampers, in which a viscous liquid is located inside the rubber coating. This row of dampers is covered by an adjusting clamp 3 made of stainless steel. The size of the clamp is selected according to the diameter of the pipeline. Perforations are made on the inner and outer surfaces of the clamp 3 to fix the dampers in place. The adjusting clamping screw of the clamp 4 is brought out beyond the outer casing 5. In the annular gap between the adjusting clamp 3 and the outer casing 5, another row of cylindrical dampers of the second row 6 is installed. During installation, the damping elements of the first and second rows are compressed to 75% of the original diameter. Partially compressed dampers, oval in cross section, make it possible to dampen fluctuations in the cross section of the pipeline quite well. At the same time, the possibility of partial rolling of the dampers remains. This provides a fairly soft damping, including torsional vibrations of the pipeline. Adjusting the circumference of the clamp allows you to change its diameter. In this case, the inner row of dampers is compressed, and the outer row, on the contrary, is unclenched, and similarly in the opposite direction. The change in the height of the damping element can be from 0.5 to 1 diameter in the uncompressed state. This method of adjustment allows you to change the natural frequency of the support and avoid the occurrence of resonance in the system.

The number of cylindrical dampers of the first row must be even and a multiple of 4, while the number of cylindrical dampers of the second row must be equal to the number of cylindrical dampers of the first row. The location of the dampers of the first and second rows should be offset to the middle of the corner, that is, opposite each other.

Dampers with a diameter of 5 to 20 mm and a height of not more than 20 mm are made of a viscoelastic material. For pipelines whose diameter does not exceed 60 mm, it is recommended to use 8 cylindrical dampers (4 cylindrical dampers of the first row and 4 cylindrical dampers of the second row). For pipelines whose diameter does not exceed 200 mm, it is recommended to use 16 cylindrical dampers (8 cylindrical dampers of the first row and 8 cylindrical dampers of the second row). For a pipeline with a diameter greater than 200 mm, it is recommended to use 32 cylindrical dampers (16 first row cylindrical dampers and 16 second row cylindrical dampers).

Using an adjusting collar allows you to change the level of compression of the damping inserts. This changes their height and the area of contact with the pipe and casing. This avoids the output of the device to resonant modes. The use of the proposed technical solution allows to significantly reduce transverse and torsional vibrations, and, accordingly, the dynamic noise caused by them in a wide frequency range.

The proposed device has a simpler design compared to analogues, while it is possible to adjust the size and number of cylindrical dampers for different pipeline diameters.

Claims (7)

1. A device for damping pipeline vibrations, containing between the outer surface of the pipeline and the outer casing, a viscoelastic damping element tightly installed in the places of damping the maximum vibrations of the pipeline, characterized in that the damping element is made in the form of a set of cylindrical dampers arranged in two rows inside a closed annular chamber , between the rows of which there is a regulating clamp, which has the possibility of external influence, causing deformation of the cylindrical dampers: tension and compression. 2. The device according to claim 1, characterized in that the cylindrical dampers are made in the form of a shell with a viscous liquid inside. 3. The device according to claim. 1, characterized in that the number of cylindrical dampers of the first row corresponds to the number of dampers of the second row. 4. The device according to claim 1, characterized in that the cylindrical dampers of the first and second rows are located offset to the middle of the corner, that is, opposite each other. 5. The device according to claim. 1, characterized in that the adjusting collar is equipped with a clamping screw, which is removed from the outer casing. 6. The device according to claim. 1, characterized in that on the inner and outer surfaces of the adjusting clamp, notches are made to fix the dampers. 7. The device according to claim 1 or 5, characterized in that the regulating clamp is made of double-sided, stainless steel, in accordance with the diameter of the pipeline.

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