DE20006571U1 - Co-extruded or laminated sealing profile with easier processability - Google Patents

Description

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PATENT ATTORNEY DR.IPETERP. OEHRKfT, GEISENKIRCHEN-BUER

Description
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Co-extruded or laminated sealing profile

with easier processability

The invention relates to a sealing profile with easier processability made of rubber-elastic materials for sealing a gap between two components, wherein the first component has at least one receiving groove for the sealing profile, against which the second component can come to rest in the working position with, for example, a flat surface.

In filter construction, when providing mechanical separation processes for separating mostly solid, gaseous or liquid particles from media such as gases, liquids or the like using filter media, very high demands are placed on the seals connecting the hollow bodies, as in mechanical or catalytic separation processes the media to be separated or filtered are usually sent through the separation media under high pressure. In addition, the seals must be sufficiently strong and long-lastingly held in the receiving grooves of the hollow body ends that accommodate the sealing profiles in response to the pulse-like vibrations generated by the conveyor devices for conveying the media to be filtered.

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PATENT ATTORNEY DR-iPETERrP/GEHRKE*, GEESENKIRCHEN-BUER

In the sense of the invention, a component is also understood to mean a frame, such as a cover frame, door frame, trunk housing with an opening or opening, e.g. of motor vehicles, a leaf of a door, window, trunk lid, which can be connected to one another in the closed state while maintaining a gap. The leaf and/or the frame and/or the edge area delimiting the opening have at least one or more receiving grooves into which the conventional sealing profiles can engage.

For the purposes of the invention, a sealing profile or profile is one with a cross-section that remains unchanged over its entire length.

However, in the current state of the art, the seals prove to be of little durability in terms of the desired tightness and positional accuracy and are difficult to process; at least, the processing options for the sealing profiles as a strand to form ring-shaped sealing profiles are limited, thereby increasing the manufacturing costs.

The object of the invention is to provide a sealing profile which has sufficient tightness due to permanently elastic behavior and a high degree of recovery and, in addition, the production of the sealing profiles, for example as sealing rings, is facilitated, especially since the seals desired in filter construction can at least regularly be of an annular shape.

Likewise, the sealing profile provided as a strand should be able to be further processed into rings, ovals or the like in a simple and cost-effective manner, without

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PATENT ATTORNEY Dr. J. P. ETER IP. ¹ QEHRKE; GElisfiNKIRCHEN-BUER

high demands are placed on machines and raw materials.

The problem is solved by the main claim. The subclaims relate to preferred embodiments and developments of the invention.

The invention relates to a sealing profile made of rubber-elastic materials of different hardnesses for sealing a gap between two components, wherein the first component has at least one receiving groove for the sealing profile, against which the second component is suitable for resting with a flat surface in the working position, the sealing profile has a main section and a profile foot formed on the underside of the main section facing away from the head side for holding the same in the receiving groove of the first component, the main section is rectangular in cross-section with a main cross-sectional axis, which is characterized in that

the profile foot has a strip with a core extending continuously within the sealing profile and a cross-sectional axis, preferably the strip is formed offset on the underside of the main section and, if necessary, sealing lips are formed on its two opposite sides, and

the rubber-elastic material of the core, e.g. soft rubber, has a higher hardness than the elastic material, e.g. foam rubber, of the main section.

In the sense of the invention, a sealing profile is also understood to mean a profile which, as is conventional, has an unchanged cross-section over the entire length of the profile.

PATENT ATTORNEY DR.:PETER:p.'GEÖRKE; GENSENKIRCHEN-BUER

The sealing profile according to the invention comprises a main section and a profile foot formed on the underside of the main section. The main section consists of rubber-elastic materials. The main section can also have a cavity which extends continuously or interruptedly within the sealing profile according to the invention. It can be circular, oval or elongated in the direction of the main cross-sectional axis.

Within the main section, as an alternative or in addition to the cavity, a main core made of a rubber-elastic material can be arranged, which has a lower hardness than the core located in the profile foot. The core of the main section can extend continuously or interruptedly within the sealing profile according to the invention. The core in cross-section can have different shapes, and can also be circular, oval or elongated in the direction of the main cross-sectional axis.

The profile foot is designed in such a way that it is suitable as a holder for detachable or difficult-to-detach wedging in a receiving groove of a first component. The holding of the profile foot in the receiving groove is increased by the sealing lips arranged on the two opposite sides. The sealing lips can be semicircular or quarter-circular in cross-section or of another shape. Likewise, the sealing lips can - if necessary - be inclined against the insertion direction of the profile foot in the receiving groove towards the underside of the main section. Due to the arrangement of the sealing lips, the profile foot can be inserted into the receiving groove with almost no force, so that

PATENT ATTORNEY i>R.:PETER;P. "GEBRKE, GECSENKIRCHEN-BÜER

the sealing lips bend against the insertion direction of the profile foot and the extraction of the profile foot is made more difficult because the sealing lips, due to their tendency to remain in their original shape or wedging shape, provide sufficient counterforce to the extraction force.

The profile foot has a core that has a greater hardness than the rubber-elastic materials of the main core, of the main section without the main core, or of the strip.
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In a particularly preferred embodiment, the

Core has a hardness A or D of 50 to 80 Shore. In a further embodiment, the hardness A or D of the core is 60 to 70 Shore, preferably 70 Shore. The rubber-elastic material of the core can be soft rubber.

The main section and the profile foot, with the exception of the core, can be characterized by a hardness A or D of 5 to 30 Shore, preferably 15 to 20, even more preferably 15 Shore. The rubber-elastic material of the main section and that of the profile foot, with the exception of the core, can be foam rubber of the same hardness.

The sealing profile according to the invention, which has at least two rubber-elastic materials of different hardness, whereby the core and possibly the main core of the main section have a greater Shore hardness than the other rubber-elastic material of the sealing profile according to the invention from which the sealing profile according to the invention is made, makes the processing or further processing of the sealing profile according to the invention produced as a strand into, for example, ring-shaped sealing profiles according to the invention much easier.

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PATENT ATTORNEY AR.5»EtER5P. <G£UR&E*, fcE&S^NKIRCHEN-BUER

Preferably, by arranging the core in the profile foot, which in a further embodiment can also extend into the main section, a higher pressure can be exerted on the vulcanization surface, which pressure is otherwise not used in a conventional sealing profile strand made of foam rubber.

This means that the sealing profile according to the invention, produced in length or strands, can be further processed in a particularly advantageous and cost-effective manner, so that the two ends of the sealing profile according to the invention can be connected to one another in a vulcanization process by heating after the strand ends have been placed face to face in a conventional manner using a tool. During vulcanization, cross-linking bridges are formed by heating, for example, between the macromolecules of the material from which the sealing profile according to the invention of different hardness is made, so that the molecules can no longer move freely against one another.

In addition, the core prevents the profile from becoming too long when it is cut. This also provides another advantage of precisely dimensioned cutting of the sealing profile according to the invention.

Soft rubber also includes plastics which are conventional rubbers which have been vulcanised using 1 to 4% sulphur and may contain fillers.

For the purposes of the invention, foam rubber can be understood as foams with closed microcells based on natural and/or synthetic rubber. Foam rubber is such materials with microcells distributed over its entire mass.

PATENT ATTORNEY DR-IPKTER£>. GEORKE", fcßlSSENKIRCHEN-BUER

open and/or closed cells and a bulk density that is lower than that of the framework substance. Organic polymers, e.g. foam plastics, but also inorganic materials can be used as framework substances. Foams can be, for example, flexible foams, elastic foams and soft-elastic foams depending on their resistance to deformation under pressure.

Elastic foams can be, for example, those which, when subjected to compression deformation according to DIN 53580, do not show a permanent deformation of more than 2% of their initial volume up to 50% of their thickness. The framework substances of the foams can be polyurethane foams, polystyrene foams, polyvinyl chloride foams, etc. Elastomeric foams, thermoelastic foams or thermoplastic foams of the closed-cell, mixed-cell, coarse-cell and/or fine-cell type can also be used. Spherical foams, honeycomb foams, double-layered foams (such as real foams) and single-layered foams (such as fake foams) are also suitable for this purpose. Light foams have less than 100 kg/m ³ .

The foam rubber can consist of a foam with closed microcells based on natural and/or synthetic rubber with open and/or closed cells distributed over its entire mass and a bulk density that is preferably lower than that of the framework substances. Organic polymers, for example foam plastics, foam rubber, can be used as framework substances. The flexible foam can be one that has a relatively low resistance to deformation under pressure and has urethanes as a polymer base.

PATENT ATTORNEY DI^PETERtP/GEfiRkl!, fcfifcSENKIRCHEN-BUER

EPDM, NBR, IR or similar can also be used. The hardness test for determining Shore hardness is carried out using conventional methods such as determining the clamping force. For the hardness test, plates, which are defined as surface elements, can be pressed together in such a way that the contact force or clamping force is determined: A certain required amount of force with which the plates are subjected to a certain degree of deformation can be determined. The plates contain the main cut or profile foot as test material.

The hardness test according to Shore A and D DIN 53505 can also be carried out in a manner known to those skilled in the art. Shore hardness is defined as the resistance that the sample offers to the penetration of a test specimen of a certain shape. The compressive force of this is applied by compressing a calibrated spring in the test device. The hardness determined in this way is read off a dial indicator on the test device and given in Shore units between 0 and 100. The test specimen for Shore A is in the shape of a truncated cone and for Shore D it is in the shape of a cone with a rounded tip. The penetration depth is measured by pressing the contact surface of the Shore test device against the sample until it rests firmly with the aid of a clamping device. The hardness units displayed in the measuring device by compressing the spring are usually read off after 3 seconds of contact time.

In one embodiment of the sealing profile according to the invention, the main section and the profile foot and/or core and/or the main core can also be manufactured with ethylene/propylene-diene terpolymer plastics (EPDM), and

PATENT ATTORNEY b& PEf-ERP.'

preferably free of asbestos, cadmium and silicone residues. EPDM rubber can be rubber produced conventionally by terpolymerization of ethylene and larger amounts of propylene as well as a few percent of a third monomer with a diene structure, in which the diene monomer can provide the double bonds required for subsequent sulfur vulcanization. Preferably used diene monomers are cis,cis-1,5-cyclooctadiene (COD), exo-dicyclopentadiene (DCP), endo-dicyclopentadiene (EDCP) and 1,4-hexadiene (HX) or the like, as well as 5-ethylidene-2-norbornene (ENB). EPDM rubber can contain around 15 double bonds per 1000 C atoms and is therefore much more resistant to ozone, for example, than butadiene or isoprene rubbers. The sealing profile according to the invention can be produced conventionally by extrusion or co-extrusion from thermoplastics.

The sealing profile according to the invention is therefore not only characterized by a retention capacity in a receiving groove of the first component that counteracts the pull-out force. The retention capacity of the sealing profile according to the invention is so high that the permanent vibrations that occur in filter construction in particular do not lead to detachment, let alone pulling out of the profile foot of the sealing profile according to the invention, from the receiving grooves of pipe parts to be connected. It is precisely the sufficient stationary retention of the sealing profile according to the invention that enables a high level of operational reliability of the filter processes when moving equipment in filter construction.

Since the sealing profile according to the invention is also sufficiently resistant to the high pressures used in the filtration process, the production

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PATENT ATTORNEY: PETE P. ^# (*EÖitKE,'«GELSENKIRCHEN-BUER

Removing the sealing profiles from the receiving grooves is made more difficult.

High pressure and vibrations in filter systems increase their effects on conventional sealing profiles, whereas the sealing profile according to the invention is largely not influenced by pressure and pulsations in terms of tightness and reshapeability.

In addition, the tightness of the sealing profile according to the invention is also supported if, for example, instead of a cavity extending in the main section, a main core is filled with a rubber-elastic material which has a greater hardness D than the other rubber-elastic material arranged in the main section or has a lower hardness than that of the core.

For example, the main core can also have a hardness D that corresponds to that of the core. It is also possible for the main core to have a lower hardness D than the core, but in a particular embodiment the material surrounding the main core can be characterized by a lower hardness D compared to the main core.

Example

Due to the simplification of the drawings, the drawings show an embodiment in a schematic, greatly enlarged manner without claiming to a true-to-scale reproduction and without limiting the invention to this in

Fig. 1 the cross section through a

inventive sealing profile

PATENT ATTORNEY»»; PE%Elt &Rgr;?6E3»l(KE, ^: fiE^§f:NKIRCHEN-BUER

and

Fig. 2 the cross section through a

inventive sealing profile without
Reference symbol

The sealing profile according to the invention has a main section 1. The cross-section of the main section 1 is essentially rectangular. The edges of the main section 1 are rounded, at least those located on the head side 3. The head side has parallel elevations 18b. The main section 1 has a main cross-sectional axis 7. A cavity 5, which extends continuously through the sealing profile according to the invention, is circular in shape, the center of which intersects the main cross-sectional axis 7. In a further embodiment (not shown), a main core is arranged instead of the cavity. The main section 1 has a height H1 which corresponds to seven times the distance 17 of the distance between the main cross-sectional axis 7 and the cross-sectional axis 9. The height H of the main section 1 corresponds to 1.2 times the height H2 of the profile foot 2.

A profile foot 2 is formed on the underside 4 of the main section 1. The profile foot 2 is arranged offset from the main cross-sectional axis 7 in such a way that the main cross-sectional axis 7 does not coincide with or coincide with the cross-sectional axis 9 of the profile foot 2, but rather the cross-sectional axis 9 is spaced apart from the main cross-sectional axis 7 by a distance 17. The main cross-sectional axis 7 is aligned parallel to the cross-sectional axis 7. The profile foot 2 has a core 6. The core 6 extends lengthwise through the sealing profile according to the invention.

PATENT ATTORNEY«. RgTEjI/. fcÖHÖKE'.Qi^ENKIRCHEN-BUER

The core has soft rubber as an elastic material with a hardness A of 70 Shore .

The elastic material of the profile foot surrounding the core 6, here the foam rubber from which the strip 8 and the sealing lips formed on the strip 8 are made, has a lower hardness than the core 6. The hardness A in this case is 15 Shore. The core 6 is elongated in shape to the cross-sectional axis 9.

Due to the sealing profile according to the invention, which has at least two rubber-elastic materials of different hardness, this sealing profile in strand form can be vulcanized to form rings, for example, in the presence of a vulcanization pressure that cannot be used for materials made of foam rubber and increases the versatile processability of the sealing profile according to the invention.

Claims (20)

1. Sealing profile made of rubber-elastic materials of different hardnesses for sealing a gap between two components, wherein the first component has at least one receiving groove for the sealing profile, against which the second component is suitable for resting with a flat surface in the working position,
the sealing profile has a main section ( 1 ) and a profile foot ( 2 ) formed on the underside ( 4 ) of the main section ( 1 ) facing away from the head side ( 3 ) for holding in the receiving groove of the first component, the main section ( 1 ) is rectangular in cross-section with a main cross-sectional axis ( 7 ), characterized in that
the profile foot ( 2 ) has a strip ( 8 ) with a core ( 6 ) extending continuously within the sealing profile and a cross-sectional axis ( 9 ), preferably on its opposite sides (10) sealing lips ( 12 ) are formed, and
the rubber-elastic material of the core ( 6 ) has a higher Shore A hardness than the elastic material of the main section ( 1 ). 2. Sealing profile according to claim 1, characterized in that the core ( 6 ) has a hardness A of 50 to 80 Shore. 3. Sealing profile according to claim 2, characterized in that the core ( 6 ) has a hardness A of 60 to 70 Shore. 4. Sealing profile according to claim 3, characterized in that the core ( 6 ) has a hardness A of 70 Shore. 5. Sealing profile according to one of claims 1 to 4, characterized in that the main section ( 1 ) has a main core ( 5 ) or cavity ( 5 ) extending continuously within the sealing profile. 6. Sealing profile according to claim 5, characterized in that the rubber-elastic material of the main core ( 6 ) and/or the main section ( 1 ) and/or the strip ( 8 ) has a hardness A of 5 to 30 Shore. 7. Sealing profile according to claim 6, characterized in that the rubber-elastic material of the main core ( 6 ) and/or the main section ( 1 ) and/or the strip ( 8 ) has a hardness A of 15 to 20 Shore. 8. Sealing profile according to claim 7, characterized in that the rubber-elastic material of the main core ( 6 ) and/or the main section ( 1 ) and/or the strip ( 8 ) has a hardness A of 15 Shore. 9. Sealing profile according to one of claims 1 to 8, characterized in that the sealing lips ( 12 ) are arranged symmetrically to the cross-sectional axis ( 9 ). 10. Sealing profile according to one of claims 1 to 9, characterized in that the core ( 6 ) is circular, U-shaped, elliptical or oval in cross section. 11. Sealing profile according to one of claims 1 to 10, characterized in that the main core ( 5 ) is oval, I-shaped or T-shaped in cross section. 12. Sealing profile according to one of claims 1 to 11, characterized in that the core ( 6 ) is arranged with a part of its upper region ( 14 ) facing the main section ( 1 ) in the lower region ( 16 ) of the main section 1 . 13. Sealing profile according to one of claims 1 to 12, characterized in that the height H1 of the main section ( 1 ) corresponds to 5 to 7 times the distance ( 17 ) of the main cross-sectional axis ( 7 ) from the cross-sectional axis ( 9 ). 14. Sealing profile according to one of claims 1 to 13, characterized in that the main cross-sectional axis ( 7 ) is aligned parallel to the cross-sectional axis ( 9 ). 15. Sealing profile according to one of claims 1 to 14, characterized in that the head side ( 3 ) of the main section ( 1 ) is curved towards the underside ( 4 ) of the profile foot ( 2 ) to form two elevations ( 18b ) laterally delimiting a recess ( 18a ) in cross section. 16. Sealing profile according to one of claims 1 to 15, characterized in that the sealing lips ( 12 ) have in cross section the shape of a quarter circle, semicircle, isosceles triangle of the acute or blunt type. 17. Sealing profile according to one of claims 1 to 16, characterized in that the height H1 of the main section is greater than the height H2 of the profile foot ( 2 ). 18. Sealing profile according to one of claims 1 to 17, characterized in that the underside ( 6 a) of the core ( 6 ) is aligned flush and/or aligned with the underside ( 8 a) of the strip ( 8 ). 19. Sealing profile according to one of claims 1 to 18, characterized in that the strip ( 8 ) is formed offset on the underside ( 4 ) of the main section ( 1 ). 20. Sealing profile according to one of claims 1 to 19, characterized in that the main section ( 1 ) and/or the profile foot ( 2 ) can be produced with ethylene/propylene diene terpolymer plastics (EPDM) and are preferably free of asbestos, cadmium and silicone residues.