Method of and device for sealing a gap

Details Method of and device for sealing a gap Method of and device for sealing a gap

2000-11-17

2003-04-08

Knight, Anthony (Department: 3676)

Seal for a joint or juncture

Process of static sealing

C277S314000, C277S316000, C277S616000, C277S637000, C285S216000, C138S089000

Reexamination Certificate

active

06543780

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a method of sealing a gap between a leadthrough arranged in a constructional element and an object extending through the leadthrough by arranging at least one sealing element in the gap. The invention further relates to a device for sealing such a gap.
2. Description of the Prior Art
Sealing elements are often used for sealing gaps between guides, which are located in constructional elements, such as house walls, and through which tubes or cables extend. The gap between the guide or leadthrough and the object extending therethrough can be sealed in different ways. To this end, often, mechanical sealing means is used. In this case, rigid sealing elements fill the annular gap and seal the gap by formlockingly engaging the respective elements or by being elastically compressed. As an alternative, chemical sealing means is used. In this case, the annular gap is filled with reactive systems which harden in the gap, sealing the same. As reactive systems, e.g., inorganic systems such as, e.g., mortar, can be used, or organic systems such as sealing masses, polymer foam, and the like are used. Also, combination chemical-mechanical seals can be used. In this case, as a rule, a suitable casing, capable of receiving a chemical system, is arranged in a gap.
The known mechanical solutions are expensive, time and labor consuming and can be used with tubes (pipes), cables, and leadthroughs having a predetermined diameter. Using chemical means permits to avoid these drawbacks. However, the chemical means does not provide any lasting protection from water penetration. This drawback is connected with materials themselves when, e.g., a cellular foam is used, or when the sealing material, e.g., polyethylene, does not adhere properly to the constructional element which can result in a non-complete sealing of the leadthrough.
Accordingly, an object of the present invention is to provide a method of and a device for sealing a gap between a leadthrough and an object extending therethrough with simple and cost-effective means.
Another object of the present invention is to provide a method of and a device for sealing a gap between a leadthrough and an object extending therethrough which would insure a rapid and reliable sealing of the gap.
SUMMARY OF THE INVENTION
These and other objects of the present invention, which will become apparent hereinafter, are achieved by providing a method according to which an elastic sealing element is located in the gap, surrounding the objects, and is, thereafter, compressed in an axial direction of the leadthrough and is fixed in its compressed condition with a fastening element.
After the sealing element has been placed in the leadthrough, and the object has been pushed therethrough, the sealing element is axially compressed by the fastening element. Upon being compressed, the sealing element expands radially outwardly, pressing against the inner wall of the leadthrough. Simultaneously, the sealing element presses inwardly against the object. As a result, the gap becomes sealed in both directions, toward the inner wall of the leadthrough and toward the object extending through the leadthrough. The compressed condition of the sealing element is retained by the fastening element which is locked in its position corresponding to the sealing position of the sealing element.
The present invention provides an effective and reliable possibility of sealing a gap, which permits to close sealingly a gap the size of which varies within certain limits, and which invention can be used with leadthroughs having different sizes. The expanded range is insured due to the fact that the necessary radial expansion of the sealing element, which results from applying pressure to the sealing element in axial direction of the leadthrough, can be adjusted. The present invention permits to reduce the costs of the sealing process as it substantially reduces the time necessary to form the sealing.
According to the present invention, after securing the sealing element in its compressed condition, the fastening element can be withdrawn from the leadthrough if it is not necessary for maintaining of the compressed condition of the sealing element. The elements necessary for the retention of the sealing element in its compressed condition may be formed, e.g., by portions of the pull rods which are provided with gripping handles with which the opposite surfaces of the sealing element are displaced toward each other in the axial direction of the leadthrough. When these portions of the pull rods should not project from the leadthrough, they can be separated in the respective regions of predetermined breaking points.
A device according to the present invention for sealing a gap between a leadthrough, which is provided in a constructional component, and an object extending through the leadthrough includes an elastic sealing element having a through-opening suitable for receiving the object, and a fastening element connected with the sealing element and capable of compressing the sealing element in the axial direction of the leadthrough.
The sealing and fastening elements form together a unitary assembly which can be inserted in a leadthrough provided in a constructional component. After an object, e.g., a cable or a tube, has been passed through the throughopening of the sealing element, the fastening element is actuated, compressing the sealing element in the axial direction of the leadthrough. The sealing element expands radially, pressing against the object and the circumferential wall of the leadthrough, which result in impervious, in particular, fluid-tight sealing of the gap.
A particularly good sealing is obtained when the sealing element is formed as a ball having a central substantially cylindrical opening for receiving a cable, tube and the like. By compressing the wall regions of the ball in the vicinity of the cable or the tube, a very good radial expansion of the ball is obtained which takes place in a direction transverse to the longitudinal axis of the cable or the tube.
According to the present invention, the sealing element can be formed of a solid material or a material containing hollow spaces. In all cases, the sealing element is elastically compressed. When the sealing element is formed of a solid material, relatively high pressure forces are obtained which is advantageous when, e.g., the gap need be sealed against penetration of water. When the sealing element is formed of an empty spaces-containing material, smaller pressure forces are necessary for obtaining sealing.
Preferably, in order to obtain a lasting sealing, the sealing element is formed of a watertight or waterproof material.
According to a particularly advantageous embodiment of the present invention, the fastening element includes adjusting elements provided at axially opposite regions of the sealing element and movable toward each other at least in vicinity of the through-opening. The adjusting elements can be actuated with different mechanisms and serve for compressing the sealing element in the axial direction of the leadthrough. The adjusting elements leave a sufficient free space in the radial direction of the sealing element, that the sealing element can expand radially upon being compressed in the axial direction of the leadthrough.
Preferably, the adjusting elements are formed as circular elements or rings in order to be able to apply as uniform compression force as possible over the circumferences of the through-opening. The application of a uniform compression force provides for a uniform radial expansion of the sealing element and, thereby, a reliable sealing of the leadthrough. As it has already been mentioned, there exist different possibilities of operating the adjusting elements. One of the possibilities consists in providing an axial screw between the spaced from each other, adjusting elements which extends through the sealing element. The axial screw engages with its head the front adjusting element, with its threaded portion

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