RU2738289C2 - Gasket-sealant transmitting information on its state - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to gasket, transmitting information on its state. Seal gasket is made of dielectric material padding, which is capable of withstanding load as padding material having a group of contact elements, which are assembled at deformation into electric circuit and transmit information to repair personnel or duty operator on monitor for warning and tracking of incidents or accidents.

EFFECT: disclosed is gasket-sealant transmitting information on its state.

1 cl, 2 dwg

Description

The invention relates to a gasket-seal that transmits information about its state filling the space between two or more conjugated predominantly smooth sealing surfaces for sealing their joint.

Seal gaskets are made of various materials that serve to seal the joints of joints, but today there is not enough gaskets for seals transmitting information about their condition, which can promptly warn of the danger of destruction of the gasket material, which can lead to a disruption of the technological process, the release of harmful substances into the environment, destruction of equipment, a signal from the cushioning material is able to make it possible to prevent an incident or accident, reacting quickly to the situation, which is a novelty.

Gaskets and seals analogs used in modern practice: A sealing gasket is a part, a mechanical seal that fills the space between two or more mating surfaces during compression, usually used to seal (prevent leakage) at the junction of combined objects.

Spiral Wound Gaskets (SNP) | FUM tape | ME 132 tape | Oval & Octagonal Gaskets | Foil graphite TMG | Graphite tape TMG | Stuffing extractors | Sheet graphite material TMG | Sealing gaskets TMG | Graphite rings TMG | Sets of rings TMG | Teflon tape ME502 | Metal Gaskets (Serrated) | Gasket VUK | Flanged Gaskets | Set of stuffing box extractors | Fluoroplastic gaskets

Sealing gaskets TMG®

Sealing gaskets TMG are made by cutting from reinforced and unreinforced sheet material TMG. Depending on the purpose, gaskets are made of the following types: Note: "Unloaded" - a connection in which the gasket is influenced by the flange compression forces and the working pressure of the medium; "Loaded" - a connection in which, in addition to the flange compression force and the operating pressure of the medium, additional forces from expansion and deformation of pipelines (flanges), hydrodynamic, thermal cycling and other forces act on the gasket, which necessitates the installation of a compression limiter.

The location of the compression limiter is determined by the design and dimensions of the flange connection. To exclude contact of the gasket material with an oxidizing environment, regardless of its temperature or with air at a flange temperature of more than 400 ° C, gaskets are equipped with protective devices (seals) made of stainless steel tape, 0.2-0.3 mm thick.

Examples of designation of TMG® sealing gaskets: TMG-L / S1-400-4.6-1.6-K1-I1 gasket TU U 26.8-30969031-006-2003 Explanation of the article: Graphite gasket made of graphite sheet of TMG- type L based on C1 grade foil, for apparatus with nominal bore DN = 400 mm., 4.6 mm thick .; working medium pressure 1.6 MPa, K1-type seal (tongue-and-groove flange seal), I1 version (there are no compression stops and protective rings).

Gasket TMG-LA-P1 / S1-400-3.0-1.6-K3-I5 TU U 26.8-30969031-006-2003 Explanation of the article: Graphite gasket made of a graphite sheet of type TMG-LA-P1 based on foil grade C1, for apparatus with a nominal diameter of DN = 400 mm., 3.0 mm thick; working medium pressure 1.6 MPa, K3-type seal (flange joint seal with smooth sealing surfaces), I5 version (with double-sided outer protective ring).

Gasket TMG-L / V1-35x14x2.0-0.6-K3-I1 TU U 26.8-30969031-006-2003 Explanation of the article: Graphite sealing gasket made of a graphite sheet of TMG-L type based on B1 foil, Dn = 35 mm., Dvn = 14 mm., 2.0 mm thick .; working medium pressure 0.6 MPa, K3 type seal (flange joint seal with smooth sealing surfaces), I1 version (there are no compression stops and protective rings) Paronite products: Paronite seals, according to technical requirements, can be used to seal flanges of design 1, 5, 8 and 9 for pipelines with pressures from 1 to 20 MPa. Product sizes range from 10-3000 mm.

Paronite gaskets are designed to seal flat flanges. Such seals are used for pipelines with various working media - water, air, steam, oil products. Paronite seals are able to withstand temperatures from -50 to +500 degrees. Paronite gaskets for flanges.

There are 7 modifications of paronite, each of which is used for the manufacture of seals for different functional purposes: PON-A - the material can withstand pressures up to 4.5 MPa, designed for vaporous, liquid and gaseous working media, heavy and light oil products, as well as for pipelines transporting ammonia. PON-B - has a working pressure increased to 6.4 MPa and an expanded scope of application, pipelines for transporting nitrogen, liquid oxygen and alcohol are added to the above areas. PON-V - the material is used for sealing systems that pump oil products, air, liquids (including antifreeze and antifreeze) and fuel-air compounds. The PON-V seal has a maximum pressure of 4 MPa. PBM - oil-resistant paronite, designed for systems with pressures up to 10 MPa. The maximum pressure is reduced to 1.6 MPa in the case of installing seals on the main gas pipelines, and in a gaseous environment the operating temperature range is reduced to -40 +70 degrees. PMB-1 is a modified material characterized by an extended operating temperature from -5 to +250 degrees and the ability to withstand a pressure of 15 MPa. It is most often used in the manufacture of gaskets for systems transporting oil, petroleum products and EPS fluids. PC - paronite resistant to acid media, intended for the chemical industry. The maximum pressure is 10 MPa, the temperature is 250 degrees. PA - paronite reinforced with steel mesh. Such seals, in addition to smooth flange connections, can be used to seal tenon and groove flanges. Not used in chemically aggressive environments, working pressure up to 10 MPa, temperature up to 1800.

Standard sizes of paronite gaskets.

As an alternative to paronite, fluoroplastic is often used - a material with a wide temperature range, from -260 to +260 degrees. Fluoroplastic is resistant to most chemically aggressive media - alkalis, acids and solvents, which significantly expands the scope of its use.

Rubber gaskets: For the production of flange sealing elements, several modifications of rubber are used, which can be divided into the following varieties: frost-resistant; thermally stabilized (heat-resistant); oil and petrol resistant; resistant to acidic and alkaline environments; food.

Rubber gaskets have an advantage over analogs in terms of elasticity - due to the softness of the material, to achieve a joint tightness, it is not required to apply significant efforts when tightening the flanges with bolts. Another advantage is that the rubber seals are completely impermeable to both liquids and gases and vapors. Due to the deterioration of the performance properties of the material under strong compression, rubber gaskets should not deform more than 50% of their original size.

For flange connections used in high pressure conditions, it is more rational to use a copper gasket, or products from annealed sheet aluminum. Such seals provide the maximum level of tightness at pressures up to 100 MPa. The following operational requirements are put forward for cushioning products: elasticity; resistance to the working environment; corrosion resistance; absence of thermal deformations in a given temperature range; hardness, which should be less than that of the material from which the flanges are made, so that the gasket does not deform the surfaces of the fastening plate when clamped (taken into account when choosing metal products).

As the closest analogue (prototype) is considered a gasket-seal known from the prior art, consisting of a cushioning material of dielectric rubber, which has a group of contacts and outgoing conductors (CN 107152449 A, 12.09.2017).

The disadvantage of the known gaskets is that it is not possible to timely warn about the danger of destruction during the installation of the gasket material, which can lead to disruption of the technological process, the release of harmful substances into the environment, and the destruction of equipment.

The technical problem is to create a gasket, the characteristics of which will make it possible to transmit information about the condition during installation and operation.

The technical result is achieved by the fact that a gasket-seal, transmitting information about its state, filling the space between two or more conjugated predominantly smooth sealing surfaces to seal their joint, consisting of a cushioning material of dielectric rubber, which has a group of contacts and outgoing conductors, is made as follows in such a way that the contacts of the two opposite groups cannot come into contact with each other before the application of the compressive force of the gasket-seal, and when the compression force is applied, the contacts can form an electrical circuit and inform about the state of the gasket material at the moment of tightening and during operation.

The invention is illustrated by drawings, where figure 1 shows a gasket-seal transmitting information about its state in a longitudinal section, figure 2 also in a cross section.

A gasket seal that transmits information about its state filling the space between two or more mating predominantly smooth sealing surfaces for sealing their joint are made of a cushioning material, dielectric rubber or other elastic dielectric material, which is able to withstand the load as a cushioning material (Fig. 1, Fig. 2) ... One part of the gasket of the seal is bifurcated, which goes to the outer side to install a group of segment contacts in it, which will later serve as an electrical circuit for removing information, and the contacts segments 2-3, 2-6 are installed closer to the center of the gasket, protruding into the body of the gasket at least inward for a contact connection with opposite intermediate contacts 4, which cannot come into contact with each other before the application of a compressive force and under the compression force, the differentiation of the cushioning material must assemble an electrical circuit pressing against the group of contacts of segments 2-3, 2-6, which will mean that the gasket material is tight enough. When the compressive force of the gasket between the mating parts is weakened, the contacts will disperse and break the electrical circuit, while a signal will be transmitted that the gasket is loose or destroyed and requires attention. The slip ring 1 is installed through the gap from the segments 2-3, 2-6 into the body of the seal gasket with a small protrusion to mate with the contact ring 5 under significant compression, when the gasket material is transmitted or destroyed, since the slip ring 5 is installed further along the structure and requires more compressive force, for contact. Intermediate contacts 4 and slip ring 5 can be applied by spraying silver or other material that conducts current well, has a significant service life, which will not be afraid of destruction when deformed during operation. From the contact of ring 1, a wire is drawn to the sensor to transmit a signal that the gasket material has been transmitted, this is necessary during assembly or repair. A wire that supplies voltage to the circuit of contacts departs from the contact of segment 2, and outgoing wires from the contacts of segments 3 and 6 to remove information.

In order to reduce the number of suitable wires, one of the intermediate contacts 4 can be combined with the contact of the ring 5, it is also possible to remove an additional wire from the contact of the ring 5 to remove information about the state of compression of the cushioning material. Voltage and current are used minimally, the main thing is to track the operation of a closed or open circuit.

Claims (1)

A gasket-seal that transmits information about its state, filling the space between two or more conjugated predominantly smooth sealing surfaces to seal their joint, consisting of a cushioning material of dielectric rubber, which has a group of contacts and outgoing conductors, characterized in that the gasket-seal is made in such a way that the contacts of two opposite groups cannot come into contact with each other before the application of the compressive force of the gasket-seal, and when the compression force is applied, the contacts will form an electrical circuit and inform about the state of the gasket material at the moment of tightening and during operation.

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