RU226843U1 - Media separator for pressure gauge - Google Patents

Abstract

The utility model relates to the field of measuring technology, namely to media separators, the primary use of which is advisable for measuring pressure when pumping hydraulic mixtures, hardening (polymerizing) working media, and cement mortars. The separator contains a body with a cover, equipped with flanges, and an elastomer membrane installed between them, and the outer surfaces of the flanges are made conical and pulled together by paired half-clamps and a fixing wedge. The technical result of the utility model is to increase the speed and simplification of maintenance, increase maintainability, and therefore the reliability of the media separator for the pressure gauge. 1 ill.

Description

The utility model relates to the field of measuring technology, namely to media separators, the primary use of which is advisable for measuring pressure when pumping hydraulic mixtures, suspensions, and cement solutions.

A membrane media separator is known https://rosma.spb.ru/razdeliteli_sred/membrannye_razdeliteli_sred_shtucernoe_prisoedinenie_s_klehmpovym_khomutom/, containing a housing with a lid equipped with flanges. A metal membrane is welded into the lid flange. An O-ring is installed between the flanges and the flanges are tightened with a clamp connection.

In this media separator, it is impossible to replace only a worn membrane; instead of a worn membrane, it is necessary to install a housing cover with a new welded membrane, and in addition, the membrane does not seal the flange connection, and to seal it, another additional part is required - an O-ring. This reduces the maintainability of such a media separator.

The closest technical solution in essence and achieved result is a media separator.

https://ru.silverinstruments.com/support/why-we-need-diaphragm-seals-for-pressure-gauges-or-transmitters.html?page=2, containing a housing and housing cover equipped with flanges. An elastomeric membrane is installed between the flanges. The flanges are bolted together.

The disadvantage of the prototype is the long time it takes to separate and subsequently tighten the mating flanges for inspection, cleaning or replacing the membrane, which is important, especially for frequent routine inspections, when measuring the pressure of crystallizing, high-viscosity, solidifying (polymerizing) working media, cement solutions.

The task to be solved by the utility model is to simplify and increase the speed of disconnection operations - tightening the flanges when inspecting, cleaning or replacing the elastomeric membrane, that is, the utility model is aimed at simplifying maintenance and increasing the maintainability of the media separator, and thereby increasing its reliability.

The technical result is achieved by the fact that in a media separator for a pressure gauge, containing a housing with a cover, equipped with flanges and an elastomer membrane installed between them, the outer surfaces of the flanges are made conical and pulled together by paired half-clamps and a fixing wedge, which allows you to create a media separator for a pressure gauge with a simple and convenient maintenance.

The utility model is illustrated graphically, where Fig. 1 shows the proposed media separator for a pressure gauge in a longitudinal section.

Figure 1 shows a media separator for a pressure gauge, containing a housing 1 with a cover 2 equipped with flanges 3 and 4, and an elastomeric membrane 5 installed between them, and the outer surfaces of the flanges (surface A of flange 4 and surface B of flange 3) are made conical. Flanges 3 and 4 are tightened together by paired half-clamps 6 and a fixing wedge 7.

The media separator for a pressure gauge works as follows: the pressure of the measured medium bends the membrane 5 and is transmitted to the internal cavity of the cover 2, filled with the measuring liquid. The displaced measuring liquid enters the outlet fitting and then into the elastic sensitive element of the pressure gauge, which records the value of the measured pressure. During operation of the media separator, the tightness of the connection of flanges 3 and 4 is achieved by deformation of the elastomeric membrane when tightening flanges 3 and 4, thanks to the conical surfaces A and B, using paired half-clamps 6 and a fixing wedge 7.

If you need to quickly inspect, clean or replace the elastomer membrane 5, you need to knock out the wedge 7, disconnect the paired half-clamps 6, lift the cover 2 and pull out the membrane 5. After inspection, cleaning or replacement, install the membrane 5 in the annular groove of the flange 3, cover with the cover 2, put it on paired half-clamps 6 onto the conical surfaces A and B of flanges 3 and 4 and tighten flanges 3 and 4 with hammer blows on wedge 7. In this case, replacing membrane 5 takes a few seconds.

The big advantage of such a media separator is that it can use a set of serial (TU 34-23-5854-77) quick-release coupling (QRC) with paired half-clamps and a fixing wedge available for nominal diameter DN - 50, 80, 100, 150, 200 mm (flanges 3 and 4, paired half-clamps 6, wedge 7. Only an elastomer membrane 5 is added instead of an O-ring.

For a media separator for a pressure gauge based on the BRS-100, a membrane 5 was made of polyurethane, which has good elasticity and wear resistance for measuring the pressure of hydraulic mixtures.

When mining coal using the hydraulic method, all water and slurry pipelines are connected only with the help of quick couplings of various sizes. And there it is very convenient to use the media separator proposed by the utility model, which indicates its industrial applicability.

Claims (1)

A media separator for a pressure gauge, containing a housing with a cover, equipped with flanges, and an elastomer membrane installed between them, characterized in that the outer surfaces of the flanges are made conical and pulled together by paired half-clamps and a fixing wedge.