RU214174U1 - DAMPER BUSHING FOR PROTECTION SLEEVES - Google Patents

Abstract

The utility model relates to the field of industry and is intended for the operation of protective sleeves of temperature sensors used to control the temperature and flow of the pumped medium.

The objectives of the utility model are:

1. Prevention of destruction of protective sleeves of thermal sensors under the action of resonant processes.

2. Prevention of damage to equipment elements when fragments of destroyed protective sleeves get into them.

The technical result of the utility model is to change the oscillation frequency of protective sleeves and, as a consequence, to prevent their destruction.

The tasks are solved, and the technical result is achieved by installing an elastomeric damper bushing, which makes it possible to change the conditions for fixing the protective sleeves and, as a result, to shift the place of occurrence of maximum stresses from the most vulnerable threaded section, and also to shift the frequency range of vibrations to the "safe" zone.

Description

The utility model relates to devices that change the frequency of vibrations (oscillations), which makes it possible to avoid resonance phenomena.

The purpose of this development is to change the oscillation frequency of protective sleeves designed to place temperature sensors in the center of the flow of the transported medium.

Measuring the temperature of the medium or flow in various pipeline systems, devices or vessels is carried out using temperature sensors (for example, resistance thermometers) installed in special protective sleeves.

It has been established that during the operation of the protective sleeves of thermal sensors under certain conditions, they are destroyed by the fatigue mechanism.

Strength calculations carried out on the basis of the methods set forth in the ASME РТС 19.3 TW-2010 standard [1] showed that, under operating conditions, vortices arise on the shanks of the sleeves under consideration, leading to the appearance of cyclic stresses from bending and, subsequently, to accelerated fatigue failure in the case of occurrence of resonant phenomena. Based on the analysis of technical literature, it has been established that the main way to eliminate the occurrence of resonance with subsequent destruction is to increase the natural frequencies of the sleeves by changing their geometric dimensions or fixing conditions.

Existing similar devices [2] and [3] do not meet the requirements due to a significant difference in design and operating principle.

The proposed development makes it possible to change the conditions for fixing protective sleeves and, as a result, shift the place of occurrence of maximum stresses from the most vulnerable threaded section, as well as shift the frequency range of vibrations to the “safe” zone.

The objective of the utility model is to prevent the destruction of protective sleeves under the action of resonant processes, as a result of preventing damage to equipment elements and assemblies when fragments of destroyed sleeves get into them.

EFFECT: changing the vibration frequency of the protective sleeves to exclude resonant phenomena and, as a result, to prevent their destruction.

The problem is solved, and the technical result is achieved by using a damper device, which is an elastomeric ring (sleeve) screwed into a regular seat for protective sleeves.

The claimed device (damper bushing for protective sleeves) is explained using:

fig. 1 - General view of the damper bushing;

fig. 2 - Scheme of mounting the damper bushing.

The device consists of an elastomeric ring (for example, polyurethane) with an external thread (for example, M27 × 2) along the entire height and an internal hole for a metalwork tool (for example, a No. 19 hex key). The damper sleeve 3 is mounted in a regular seat 2 for fastening the protective sleeve 1 in the equipment case (pipeline wall) 4 in such a way that the sleeve engages with the threaded part of the seat and tightly fits the protective sleeve body.

The claimed essential distinguishing features are unknown to us from patent and scientific and technical information and, in accordance with this, are "New".

Working drawings and strength calculations were made for the claimed utility model. In this regard, the device declared by us meets the criterion of "Industrial Applicability" and "World Novelty".

[1] ASME RTS 19.3 TW-2010 Thermowells. performance test codes.

[2] Description of the invention patent RU 2737258 C2.

[3] Description of utility model to certificate RU 16722 U1.

Claims (1)

Damper bushing made of elastomeric material in the form of a ring with an external thread, as well as an internal hole for a bench tool with the possibility of mounting in a seat for protective sleeves between the threaded part of the seat and the sleeve body.

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