Seal for a joint or juncture – Seal between fixed parts or static contact against... – Contact seal for other than internal combustion engine – or...
Reexamination Certificate
2000-04-06
2002-03-26
Knight, Anthony (Department: 3626)
Seal for a joint or juncture
Seal between fixed parts or static contact against...
Contact seal for other than internal combustion engine, or...
C277S645000, C277S646000, C277S637000, C277S647000, C277S641000, C277S652000
Reexamination Certificate
active
06361054
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to a sealing device for sealing a gap between two facing surfaces of two adjacent machine elements. More particularly, the invention relates to a sealing device including an inflatable sealing tube that is arranged in a groove in one of the facing surfaces.
BACKGROUND OF THE INVENTION
A sealing device similar to the present invention is known from German Patent 197 08 579 A1. In that device, at least one end of the sealing tube is surrounded by an insert piece. The insert piece can be inserted into a recess of a first machine element. Such an insert piece can be a molded part made of plastic or metal, for example. The surface of the insert piece that faces a second machine element projects beyond the surface of the first machine element in the direction of the second machine element. The insert piece also projects beyond the surface of the non-inflated sealing tube. Such an embodiment is necessary in order to obtain a continuous contact surface with the second machine element when the sealing tube is inflated.
SUMMARY OF THE INVENTION
The object of the present invention is to further develop a sealing device so that the facing surfaces are essentially level.
This object is achieved, according to the invention, by providing an inflatable sealing tube arranged in a groove in a first surface. The sealing tube is capable of being inflated so that it rests against a second surface to form a seal. Insert pieces are arranged at the ends of the sealing tube.
The insert pieces are each sleeve shaped and surround the ends of the sealing tube under elastic pre-stress to form a seal. The insert pieces are each arranged in a recess that extends essentially crosswise to the lengthwise direction of the groove. The sealing tube, in the non-pressurized state, and the face of the insert pieces that face the second surface of the second machine element, are essentially flush with the first surface of the first machine element. Preferably, the first surface of the first machine element is level, eliminating projecting insert pieces.
In another embodiment, a protective film is placed between the two machine elements. The film rests flat and level on the first machine element. The film can be formed, for example, by the surface material of an article to be produced in a foaming mold. For example, a dashboard for a motor vehicle can be used as a protective film. By precisely positioning the protective film on the first surface, the quality of the finished part is improved. Because the first surface, the insert pieces, and the sealing tube, in the non-pressurized state, are arranged to form a flush surface relative to one another, a sufficient contact surface exists relative to the surface of the protective film to assure a good seal.
The inflatable sealing tube can be made of rubber. Pressure is applied to the sealing tube only when the first surface or a protective film arranged on the first surface makes contact with the second surface. The second surface therefore forms the counter-bearing for the inflated sealing tube.
If the sealing device is used in a mold, for example, the two mold halves are moved towards each other until only a slight gap remains between the surfaces. The mold is filled with a molding material mass until it reaches the gap. The gases contained in the mold can escape through the gap up to this time. The tube is then inflated and makes contact with the second surface along the entire length of the groove, forming a seal. In the first embodiment of the sealing device, in which the sealing tube rests directly against the second surface of the second machine element to form a seal, the molding material is selected to avoid adhesion to the sealing system. As soon as the sealing tube makes contact with the second surface of the second machine element, it is possible to build up pressure in the mold.
If, on the other hand, a material such as polyurethane is used as the molding material, the sealing system must be protected against contamination with this material and from adhesion to it. This can be accomplished by providing a sealing film that rests flat and level on the first surface. The sealing film covers the sealing tube arranged within the groove, forming a seal, and makes contact with the face of the sleeve and the surface of the sealing tube that face the second surface. Protective film for the sealing tube is formed, for example, by the surface material of an article to be produced in a foaming mold. For example, a dashboard for a motor vehicle can be used to form the protective film. By using the protective film, destruction of the sealing system is prevented.
The operation of the sealing system will now be explained, using the example of a foaming mold. The protective film is placed on the first surface of the bottom part of the foaming mold and is held against the first surface by a vacuum. The protective film covers the sealing tube that is arranged within the groove. The foam mixture is filled into the bottom part of the mold and only touches the protective film, not the sealing tube. By using the protective film, it is possible to foam polyurethane (which will adhere to the sealing system) without damaging the sealing system. The top half of the mold is moved towards the bottom half of the mold until there is only a small gap between the two surfaces. The foam mixture located in the mold cavity expands, causing the mold cavity to become filled. During this filling process, the gas located in the mold cavity is forced out of the mold cavity through the slight gap between the two surfaces. When the foam mixture penetrates into the gap area, pressure is applied to the sealing tube (under time control) and the gap is gradually closed by inflating the sealing tube, which at first rests against the protective film. When further pressure is applied, the protective film forms a seal against the second surface of the top mold part. By sealing the gap, the mold cavity is closed, and the intended compacting of the foam mixture is achieved.
The inflated sealing tube touches the second machine element along its entire length, either directly, or with the protective film interposed, forming a seal.
The sealing tube can surround a filler piece under elastic pre-stress, forming a seal, at its face on both ends.
Furthermore, one of the filler pieces can have a conduit-like recess through which the pressurized medium can be fed into the sealing tube. The pressurized medium connection can be provided by a bore in the first machine element. Preferably the bore has a connection thread for a supply line. The pressurized medium that is fed into the sealing tube is preferably compressed air.
The pressure in the sealing tube is relieved, for example, by a valve within the supply line that is open to the atmosphere. This causes the medium to flow through the conduit-like recess in the filler piece and through the supply line in the direction of the atmosphere. Upon releasing the pressure, the sealing tube resumes the same position as in the non-pressurized state.
Outside of the region where it is clamped in place, the sealing tube can be shaped so that it can be lifted from the filler pieces and placed against the inside of the sleeves. Preferably, a complete seal of the entire gap between the two machine elements is provided even if at least one of the filler pieces is arc shaped. The insides of the sleeves each form a counter-bearing for the sealing tube, lifted up from the filler pieces. This prevents undesirable excessive elongation and possible damage to the sealing tube that might result from it.
The filler pieces can be designed so that they are flexible and not compressible. Preferably, the filler pieces are made of a polymer material. The filler pieces are used in order to maintain the original shape of the sealing tube and its cross-section for the flow of medium even if the sealing tube is laid in an arc shape, for example, within the first machine element. Kinking of the sealing tube, with a resulting reduction in th
Denker Ernst
Giesker Alois
Krause Herbert
Fritsche, Mollmann GmbH & Co. KG
Kenyon & Kenyon
Rodgers Matthew E.
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