RU2269048C1 - Belt article for spiral winding of sealing members and valve seats - Google Patents

Abstract

FIELD: sealing engineering.

SUBSTANCE: belt article comprises sealing members and permeable members. The strength and rigidity of the permeable members should be higher than these of the sealing members. A part of the sealing member enters the free pore space of the permeable member.

EFFECT: expanded functional capabilities.

14 cl, 13 dwg

Description

The invention relates to a sealing technique, to spiral-wound sealing using heat-resistant materials, such as, for example, graphlex.

Known tape product (LI) for the spiral winding of sealing elements, for example, a sealing multilayer gasket in the form of a cylindrical ring from a tape sealing fiber heat-resistant product - graphlex (see patent JP 63-23423, F 16 J 15/22, 1988).

LI disadvantage for spiral winding of sealing elements is their low strength and elastic characteristics, erosion and tribotechnical (from friction) wear resistance.

A known block of sealing gaskets for movable joints coaxially located in the stuffing box (see patent RU 21085511, F 16 J 15/22, 1998), in which the gasket is made in the form of a set of strips of graphlex placed in a mesh shell. The disadvantage is that the mesh shell is not impregnated (impregnated) with graphlex, and during installation and crimping it is impossible to achieve complete filling of the pores of the mesh shell. In the process, the mesh shell can be wiped off and then the graphlex is quickly removed from the gasket in the place of friction, which leads to a loss of tightness of the connection.

The technical result of the invention is the expansion and improvement of the technical characteristics of LI, namely, strength, elastic characteristics, cleaning ability, ability to prevent the removal of material of the elemental sealing product from the friction zone, increase the service life, tribological and erosive wear resistance of products obtained from LI, forecasting the properties of parts from this LI.

The technical result is achieved in that in a tape product for spiral winding of sealing elements and valve seats, consisting of a sealing product, it is made monolithic and multilayer of layers of elemental sealing and permeable products with indicators of strength, hardness higher than that of elemental sealing products, and part of the element sealing products are impregnated (embedded) in the free pore space of the element permeable products, which are monolithically connected with each other mutually penetrating bonds, in addition:

- elemental permeable product is made of impermeable tape with perforations of different diameters and various shapes, located with different steps along the width and length of the tape,

- elemental permeable product is made with an impermeable surface in width in the form of an edge of a certain width along the entire length or in certain areas along the length of the tape,

- elemental permeable product is made of high strength and heat resistant threads, fibers, felt, rods, mesh, fabric, for example fiberglass, basalt fiber,

- elemental permeable product is made of metal wire,

- elemental permeable product is made of wire metal mesh,

- elemental permeable product is made volume-permeable with elastic damping properties of "metal rubber",

- between two elemental sealing products is an elemental permeable product,

- between two elemental permeable products is an elemental sealing product,

- the permeable elemental product is completely embedded in the thickness of the sealing element product and its pore space is completely filled with the material of the elemental sealing material,

- the permeable elemental product is partially embedded in thickness in the first elemental product and its pore space is partially filled with the material of the elemental sealing material,

- as an elementary sealing product used fibrous, tape, woven heat-resistant product, such as graphite, basalt fiber, graphlex, basalt fabric, carbon fiber fabric,

- the width of the element sealing and permeable products are made different,

- one of the ends of the shorter and longer elemental products coincide,

- the ends of shorter and longer elemental products do not match.

The essence of the invention in the application for LI sealing (tape) products from two groups of elementary sealing and permeable products, seamlessly connected with each other, its special location in various cases, which gives the best performance properties.

Figure 1, 2, 3, 4 shows the normal cross section of the PI, the sealing gasket, figure 5, 6 shows a plan view of the element permeable products, Fig.7-13 - section along the width of the PI.

LI for spiral winding of sealing elements and valve seats is made monolithic and multi-layer of layers of elementary sealing EUI 1 and permeable EPI 2 products (a “sandwich” is pressed, rolled between rollers under certain parameters of pressure, temperature, time delay, etc.). The strength and hardness of EPI 2 are higher than those of ESI 1. Part of ESI 1 is impregnated (embedded) in the free pore space of EPI 2, which are monolithically connected to each other with mutually penetrating bonds. EPI 2 can be made of impermeable tape 3 with perforations 4 of different diameters and various shapes, arranged with different steps "a" in width and "c" along the length of EPI 2. EPI 2 can be made with an impermeable surface 5 in width in the form edges of a certain width "c" along the entire length or in certain areas along the length of the EPI 2 (5, 6). EUI 1 and EPI 2 are seamlessly connected with mutually penetrating bonds through openings 4.

EUI 1 can be made of a fibrous, tape, woven heat-resistant product, such as graphite, basalt fiber, "graflex", basalt fabric, carbon fiber fabric, but there may be other material, for example, less heat-resistant - fluoroplast-4 and its composition with various fillers, which are available in the form of tapes.

EPI 2 can be made of high-strength and heat-resistant threads, fibers, felt, rods, mesh, fabric, for example fiberglass, basalt fiber, metal fibers, threads. EPI 2 can be made of a metal wire laid in a certain way (it can be a simple wire product, curved with a different pattern, zigzag, spiral, from pieces of wire, straight and deformed in a certain way, etc.), from a metal wire one or several meshes at once, fabrics superimposed on each other, with different cell sizes in the light and the wire diameter of one or more meshes. EPI 2 can be made volume-permeable, for example, from a metal wire with the elastically damping properties of "metal rubber", as well as from a metal fiber-pressed (sometimes additionally sintered at a certain temperature) product - felt, which also has a lesser degree, than "metal rubber" with elastic-damping properties.

EPI 2 of Fig.6 can be obtained by laser, pulsed, argon butt welding of a tape with a width of "c" from an impermeable material with any of the above products (mesh, MR, felt, filament, etc.) with a width of "B-s".

The design of the LI can be different, for example, between two ESI 1 there is an EPI 2 (figure 1), between two EPI 2 there is an EPI 1 (figure 2), EPI 2 is fully embedded in the thickness of the ESI 1 (figure 4) and its pore the space is completely filled with the ESI 1 material, EPI 2 is partially embedded in the ESI 1 in thickness and its pore space is partially filled with the material of the elemental sealing material (Fig. 3).

The widths "B" EUI 1, EPI 2 can be the same (Fig.7, 12) and different (Fig.8-11). It is possible to perform LI when one of the ends of the shorter EPI 2 (ESI 1) and longer ESI 1 (EPI 2) coincide (Fig. 8, 11) and do not match (Fig. 9, 10, 13). Moreover, the EPI 2 can be located between the ends of the EUI 1 (Fig.9, 10), and can be offset relative to each other in width with the formation of a L-shaped protrusion (Fig.13), the EPI 2 acts, but it can be vice versa.

The thickness of the PI can be equal to EPI 2 (figure 10, 11, 12), and may be greater than the thickness of EPI 2 or EUI 1 or several EUI 1 or EPI 2.

The implementation of LI (Fig.1, 2, 3, 4) multilayer of EUI 1 and EPI 2, in which the material EUI 1 is impregnated (embedded) in the free pore space of the EPI 2, provides a solid connection between them due to the fibrous structure of the EUI 1 and the porous structure of EPI 2. The obtained LI is more durable, ductile, has greater elastic compliance than EUI 1, for example graphlex, due to the presence in its structure of an embedded metal wire or nonmetallic, of high-strength and heat-resistant threads, fibrous (felt) products, metal od one or several grids (tissue) with different cell sizes in the light and the diameter of the wire of one or more grids. The use of several grids as EPI 2 gives the following effect - one grid with a large cell size in the light can be made of elastic material and provide a supporting function for the second fine mesh (or fabric) and give the product certain strength and elastic properties. The second finer mesh network (fabric) serves as a connecting element with the sealing material of the elemental sealing product, because fibers of EUI 1 (graphlex), being introduced, are better retained mechanically in small cells, because the fiber size is small 0.05 ... 0.5 mm, commensurate with the cell size, which improves the adhesion strength of two different element products 3, 4. This allows you to widely control strength and elastic characteristics (the use of grids of different mesh sizes and from elastic wire materials), antifriction properties (the use of wire from antifriction alloys) LI, while it can be easily deformed, wound to obtain gaskets of any complex profile. The implementation of EPI 2 volume-permeable and with elastic-damping properties of the "metal rubber", felt (easier to manufacture) can significantly strengthen the elastic characteristics of the LI in the width directions, and these characteristics can be controlled in the manufacture of "metal rubber", felt.

The implementation of LI in the form of two EUI 1, between which is located EPI 2 (figure 1), two EPI 2, between which is located EUI 1 (figure 2); in the form of one EPI 2 (figure 4), fully implemented in EUI 1, with full filling of the pore space, it allows a wide range to change the primary mechanical, elastic, antifriction, properties, density and porosity of the PI. It is possible to use two different EUI 1 and EPI 2 (from different materials, different density, porosity, strength, with different mechanical characteristics), between which EPI 2 or EUI 1, respectively, are located, which expands the possibilities for varying the mechanical characteristics of the LI. For example, the supporting layer of EPI 2 (figure 2) is made of strong steel mesh, and the second layer of EPI 2 is antifriction and made of bronze mesh, between which a layer of EUI 1 (graphlex). Partial introduction of the thickness of the second EPI 2 in the ESI 1 with partial filling of the pore space (Fig. 3) provides better adhesion to subsequent or previous turns (depends on the internal or external location of the EPI 2 layer) when winding the multilayer ring. This requires a special winding technology that provides a very tight winding due to the joint additional radial deformation during the winding of each subsequent LI turn to ensure that the pore space of the EPI 2 is completely filled with the EUI 1 material of the adjacent (next or previous) turn of the ring.

The implementation of EPI 2 with an impenetrable surface 5 in width in the form of an edge of a certain width "c" along the entire length or in certain areas along the length of EPI 2 allows for further spiral winding of the seal rings, seats, gaskets from the friction surface side to have a hard edge 5 that works like a scraper, increases the erosion and tribotechnical wear resistance of EUI 1 and EPI 2 of the finished product. The edge 5 can be located in predetermined places of the product, for this purpose, a scan of the product is built and, in accordance with it, the EPI 2 is profiled so that there are edges 5 in certain sections along the length, and the holes 4 should provide the specified strength, elastic characteristics and adhesion strength to the ESI 1 So you can adjust many of the mechanical characteristics of LI and products that will be obtained from LI.

The execution of the width "In" EUI 1, EPI 2 different (Fig.8-11, 13) and their location, when one of the ends of the shorter EPI 2 and longer EUI 1 match (Fig.8, 11) and do not match (Fig .9, 10, 13), the location of the EPI 2 between the ends of the EUI 1 (Fig.9, 10) or offset from each other in width with the formation of a L-shaped protrusion (Fig.13), the EPI 2 acts, allows you to change the mechanical characteristics LI and properties of products that will be obtained from them, i.e. to predict and lay such a design of LI with certain EUI 1, EPI 2, which would ensure given e technical characteristics of the products obtained. The inside location of EPI 2 (the edges of EPI 2, EPI 1 do not match, Fig. 9) toughens and strengthens the LI, the location with the coincidence of one of the edges of EPI 1, EPI 2 (Figs. 8, 10) increases the wear resistance, erosion resistance, and dirt-cleaning properties of the seal wound from LI valve seat seals (ball, for example). The implementation of EPI 2 with offset relative to each other with the formation of a L-shaped protrusion along the width allows pressing to deform the protrusion with the formation of an additional barrier to the flow of the medium, which reduces erosion erosion and damage to the EUI 1.

The performance of the thickness LI equal to EPI 2 (figure 10, 11, 12) provides maximum strength data (hardness, stiffness, elasticity, antifriction properties, wear resistance). The implementation of LI and EPI 2 of different thicknesses allows you to widely change the mechanical characteristics, the sealing ability of products from LI.

Thus, in the LI due to the use of its special design and the use of different in initial properties forms, sizes of the EUI 1, EPI 2, the technical characteristics of the AI are expanded and improved: strength, elastic, cleaning abilities of future products, the ability to prevent the removal of the EUI 1 material from the friction zone tribological and erosive wear resistance, while it is possible to predict the properties of future seals obtained from this LI.

LI can be used for spiral winding of gaskets, seats, gaskets, other sealing elements of valves, pumps for high temperature conditions in power, oil, gas and chemical valves.

Claims (14)

1. Tape product for spiral winding of sealing elements and valve seats, made of at least one element sealing and one element permeable products, and indicators of strength, hardness of permeable products are higher than that of sealing products, while the sealing product is partially embedded in the free pore space of the permeable product, which are monolithically connected to each other with mutually penetrating bonds. 2. The tape product according to claim 1, characterized in that the elemental permeable product is made of impermeable tape with perforations of different diameters and various shapes, arranged with different steps along the width and length of the tape. 3. The tape product according to claim 1, characterized in that the elemental permeable product is made with an impermeable surface in width in the form of an edge along the entire length. 4. The tape product according to claim 1, characterized in that the elemental permeable product is made of high strength and heat-resistant threads, or felt, or mesh, or fabric. 5. The tape product according to claim 1, characterized in that the elemental permeable product is made of wire. 6. The tape product according to claim 3, characterized in that the elemental permeable product is made of wire mesh. 7. The tape product according to claim 3, characterized in that the elemental permeable product is made volume-permeable with elastic-damping properties of "metal rubber". 8. The tape product according to claim 1, characterized in that between the two element sealing products is an element permeable product. 9. The tape product according to claim 1, characterized in that between the two element permeable products is an element sealing product. 10. The tape product according to claim 1, characterized in that the fibrous, or tape, or woven heat-resistant product is used as the elemental sealing product.  11. The tape product according to claim 1, characterized in that the widths of the element sealing and permeable products are made different. 12. The tape product according to claim 1, characterized in that one of the ends of the shorter and longer elemental products match. 13. The tape product according to claim 1, characterized in that the ends of the shorter and longer elemental products do not match. 14. The tape product according to claim 1, characterized in that the widths of the element sealing and permeable products are offset relative to each other in width with the formation of a L-shaped protrusion.

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