DE7011204U - MEMBRANE. - Google Patents

Description

The invention relates to the construction τοη Foraaeabranen, vie they are reserved for the construction of HeBkaaaern, for example in Troclcengae measuring devices in which the roluaetrlsohe change in the measuring chambers due to the symbiotic displacement of the membranes be kept uniform oni.

When a membrane made of a synthetic polymer material is used for the construction of the measuring chamber of a Trookengas-MeßTorriohtung it is desirable to make it by forcing it into its roll-stretched shape, including the largest possible Uniformity with respect to the Toluaetric Displacement ▼ on gas through the chamber with every movement · cycle · of the membrane to provide. Homogeneous polymer membranes are produced as moldings for this purpose without great difficulty, they are subject to but a mafillohen instability as a result of its existence certain substances la gas flow, and their characteristics relating to flexibility and wear resistance likewise su rolumetricu changes lead »vena with high Sifferensdrüoken is being worked.

Properly constructed membranes made by forming a web

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fabric-reinforced polymer manufactured and not suffer from the defects; but although they have less flexibility than all membranes made of homogeneous polymer material, they can be built in, S = dis »» «*" - * %% ZiSXim «**» »■ ί. · ΙΙ-th Briquettes are less stiff than the strips of uniform polymer shape "in which the strength of the briquette can be increased" by releasing the desired stiffness.

The invention consists in the fact that a terat & rte polymer membrane is manufactured as a molding and has a reinforcing seal having that as an integral part thereof during molding is formed on the peripheral part of the molding to to increase the stiffness at this peripheral part. By a With this arrangement it is possible to both simple assembly and also a precisely predetermined displacement of the membrane according to the one designed for it «! Measuring and adjusting devices su ensure.

If a rigid mounting element in a A suitable shape must be attached to the middle section, this can also be molded on with the shaping of the membrane. Such a one-piece shape can also be used for this purpose be, in the membrane fasteners to connect my suitable mechanism with the support element and possibly also to be provided for the outer periphery of the membrane, wherein the fastening element for the central support element is preferably formed in one piece with the support element or have previously been made on the support element.

The invention is described below on the basis of exemplary embodiments explained in more detail with reference to dl. Z * iohsung «n. In the drawings are i

Figures 1 and 2 are top and side views, respectively, of a meabrane as a first embodiment of the invention,

j 1 Fig. 3 to 6 execution variants of the one shown in Figs

Membrane uud Fig. 71 to H peculiarities in sonality due to the strengthened

peripheral parts ron membranes in different Ausftthrungsbeispielen the invention.

The membrane is given a suitable shaping process a peripheral flange 1 and a central part 2, which in parallel planes, as well as a sohrägliegend Zvisohenpartie 3, which connects the flansoh with the middle section. At the flange 1 is a sifting 4 formed in one piece. At the Installation of the membrane in a gas meter, it is Flaneohes attached to the measuring camera pan and a reinforcement plate or a middle disk is attached to the middle part 2 in order to connect to a rod (not shown) of the measuring mechanism. With the relocation of Middle disk through the movement of gas through the knife, the inclined Zvisohenpartie 3 is bent to the control rod to perform a lifting movement in the normal way.

The body of the membrane is made of a reinforced polymer construction formed, which is constructed, for example, that for this purpose a layer of woven or non-woven fibers made of natural or synthetic materials are provided, which on one side or both sides of a polymer material or a mixture a single material is coated, which is selected according to the required mechanical properties of the membrane is, taking into account the au measuring gas. You can sift out of fibreboard, graphite asbestos, pressed fabric, Buna, cork, a homogeneous or reinforced polymer material or metal.

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In Fig. 3 an embodiment variant is shown in which the flange on which the seal forming part of it sits, is formed with retaining tabs 5. In the variant shown in Fig. 4, the membrane is during the shaping with a continuous Haltemansohette 6 from the rerstaltetsn Polymer material on the ttufieren edge of the Flansohee Ib Tereehen, which eratreokt across the flange.

In the construction shown in Fig. 5, a middle plate 7 is provided as an integral part between two layers 7a and 7b molded from fabric-reinforced itolymer webs is, the plate 7 previously with a binding layer 7ο aas a Polymer plastic has been coated to create a firm bond alt the two fabric-reinforced layers during the shaping to be able to enter. The layer 7o can be applied in liquid form in two dimensions by dipping or painting the plate or splashed. A Lasohe θ for connection with a The control rod of the measuring mechanism is connected to the plate, as shown, in such a way that it moves through the outer layer 7a hinduroher. Alternatively, it can of course be the case with the flat 7 be a simple clamp or frame plate. At the im In the variant shown in FIG. 6, the central plate 7 is molded onto the outside of the membrane. To do this, sunäohst is a binding polymer layer has been applied to the side of the plate facing the membrane.

In the sections shown in Fig. 7 there are some exemplary embodiments for inserting a reinforced seal οίε tighter Part of the membrane shown in detail. In these detailed examples the reinforced polymer layer is in the fora of a fabric-reinforcing layer 9a, which is in a Schioht 9b made of a polymeric material is enclosed, however in the individual examples, the arrangement of the pearl

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outer parts others.

, In Fig. 7A, the cross-section gloria of the shaped membrane begins their peripheral part by adding sealing elements 9c made of the same polymeric material as the enclosing one The membrane is reinforced. The original shapes of these elements and the flat material of the membrane within the Seals are shown geetriohelt »during the shaping the membrane, however, the boundaries between the elements disappear and the polymer layer of the sheet material of the membrane effective to create a substantially homogeneous stiffening layer to form on both sides of the middle fabric layer 9a.

7S shows an arrangement similar to FIG. 7A, but here a metal sealing element is encapsulated in the peripheral / lansoh, which is inserted into the mold between the reinforced flake material and one of the polymeric sealing elements 9c after at least the side has been provided with a polymer coating 9e beispielsweiee duroh dipping, spraying or Beetreichen, which rests on the reinforced sheet material support to the Sing away a bond with the subsequent Polymerechioht Sh au.

In Flg. 7C let shown an arrangement in which the seal is in turn consists of the same polymer material as layer 9h, however, one of the peripheral elements of the polymeric material which forms the lower part of the gasket is made up of it original cross-sectional shape (the one shown in dashed lines is) deformed during molding to form a peripheral bead 10 for snap fit with a complementary groove in the measuring chamber (not shown), to which the membrane can be attached target.

The arrangement shown in FIG. 7D corresponds essentially to that shown in FIG. 7S , except that holes 11 on the band of the membrane are distributed around the circumference through which fastening elements, for example screw caps, can be durohgesteokt.

FIGS. 7E and 7F are variants of the embodiment of peripheral beads 10a and 10b, which are obtained by deforming the peripheral elements made of polymer material during the shaping from the Cross-sectional shapes shown in dashed lines are formed, similar to the bead 10 in FIG. 7C is molded. In Fig. The embodiment variant shown in FIG. 7E is the band of the flat material made of reinforced polymer material, initially bent over in the manner of a peripheral cuff, so that the fabric layer 9 »in the Seal is inserted. Three polymer elements are used to build the final shape of the seal.

Finally, in the embodiments shown in Figs. 7G and 7H, there are examples the twisting to a component of the membrane by adding one or more separate elements, for example made of pressed stiff, machined. You can with the surface of the polymer material are joined to form one or both of the outer layers 12 of the peripheral flange of the membrane, the layer made of reinforced polymer material retains the same strength as in the adjoining inner part of the membrane, or it can be blocked by a sealing element made of polymeric material, as is shown at 12a. As in the previous --O BChr levels of execution examples are elements 12 at least on the sides where they are connected to the polymeric sheet material, previously with the same or a similar one Polymer material has been coated in order to improve the connection between the element · and flat material.

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Claims (1)

j α φ ·· 4 ο · · ···· c 1. Marked polymer meitbraae in the form of a profile membrane, characterized in that a reinforcing Diohtung (4 »9o, 9d, 12) during the shaping of the membrane is made an integral part of the peripheral part of the membrane lux increasing the stiffness of the peripheral part. 2. Membrane according to claim 1, dadnrch g ύ k e η η «calibrates, that the clearing (9d) is encapsulated during the shaping in the polymeric material of the membrane. 3 * membrane according to spoke 1, thereby marked that the sighting through at least one element (9c) sub the same or a similar polymer. material is formed from which the fabric-reinforced flaoh material (9 & t 9b) exists. 4 · Membrane according to claim 1, characterized in that the reinforced polymeric material in the peripheral part has essentially the same strength as in the adjoining flexible inner peripheral Part and that a sealing element (12) with one or both Sides of the peripheral part connected 1st. 3. Membrane according to one of claims 1 to 4, characterized in that the peripheral part with a continuous, integrally formed bulge (10,10a) is provided on at least one side. 6. Membrane according to one of claims 1 to 5, daduroh characterized in that holes are provided in the peripheral part for the passage of fastening elements are, where sioh the whence thru the reinforcing dioh- stretch through. 7. Membrane ah one of claims 1 to 6 »thereby characterized in that a rigid support element (7) forms a fixed part of a central part of the membrane is done during molding. β. Membrane according to Ancprach 7, characterized in that that the support element (7) integrally deals with connected fastening elements (b) for a tone of the membrane Has driven mechanism. 9. Membrane according to one of claims 1 to 8, characterized characterized that outer peri ^ h ^ ire fasteners (5) integrally formed on the membrane, »r * Ti points Bind that outside the clearing:. 10. Membrane according to one of claims 1 to 3, characterized characterized in that a peripheral retaining cuff (6) is provided at the outer end of the peripheral portion, the extends transversely away from the sighting β.