HIGH-FREQUENCY-SHIELDED SWITCHGEAR CABINET

Abstract

The invention concerns a high-frequency-shielded switchgear cabinet comprising a cabinet body which can be or is composed of wall elements and has at least one opening which can be closed by a cabinet door. Gaps formed in the cabinet body and between the cabinet body and door can be closed or sealed so as to be high-frequency-shielded by means of electrically and magnetically conductive sealing strips. In order to attain a corrosion-free switchgear cabinet which has a long service life and can be easily produced, the wall elements and cabinet door are made of aluminum-zinc-coated sheet metal and are provided at least in regions facing the gaps to be sealed without additional surface-protecting coverings. The sealing strips are directly connected to the untreated surface of the wall elements and/or cabinet door.

Description

FIELD OF THE INVENTION

[0001] The invention relates generally to a switch cabinet and, more particularly, to a high-frequency-shielded switch cabinet that utilizes electrically and magnetically conductive sealing strips that are high-frequency (HF) impervious.

BACKGROUND OF THE INVENTION

[0002] The manufacture of an HF impervious switch cabinet with a sufficiently long life span is very complicated and expensive. Among the fundamental issue of concern to the manufacturer is whether the switch cabinet features a rack onto which the wall elements and the cabinet door are attached, or whether the wall elements are themselves connected, e.g., welded into a unified cabinet body.

[0003] It is well known in the art that switch cabinets can be manufactured of stainless steel, whereby contact strips are applied in the area of the slots, providing HF imperviousness.

[0004] It is also known that a separate, closed insert can be placed in the switch cabinet in order to achieve HF imperviousness, as is illustrated in DE 36 693 C1. Such additional insert has its drawbacks in that it increases the cost of the switch cabinet by a considerable amount.

[0005] A method of manufacturing a sheet metal housing from a housing body having at least one opening is known from DE 91 00 798 U1, in which a switch cabinet having a door, wall element, floor plate, cover plate, flange plate or the like to serve as a closing part for the purpose of closing it, whereby the closing part around the opening of the housing body can be connected to it so as to be electrically and magnetically conductive.

[0006] Following manufacture, the body of the housing which is made with sheet metal is provided with a contact surface around the opening. This contact surface is covered by means of a covering band before it is cleaned and then painted. The covering band is finally removed. The contact surface comprised of highly conductive and corrosion resistant material is fused or welded on, for which purpose laser technology is preferably used. This procedure is not only complex, it also requires considerable installations in order to be implemented.

[0007] As DE 42 07 308 A1 illustrates, this known method is improved in that the housing body is greased prior to the attachment of the contact surfaces, and the contact surface is attached to the greased housing body around the opening by means of the flame spray method. The contact surface is then covered with the covering band, the housing body is cleaned and then painted. Finally the covering band is removed. In this way the expense for preparation is reduced and the manufacture of the switch cabinet is simplified. The corrosion resistance in the area of the contact surface, however, is insufficient, thus resulting in a decrease in life span and a weakening of the HF shielding.

OBJECTS OF THE INVENTION

[0008] An object of the invention is to provide an HF impervious switch cabinet that overcomes some of the problems and shortcomings of the prior art.

[0009] Another object of the invention is to provide an HF impervious switch cabinet which allows for ease of manufacture while maintaining minimal installation complexity, and still results in an increased life span with a decreased tendency to corrode. How these and other objects are accomplished will become apparent from the following descriptions and from the drawings.

SUMMARY OF THE INVENTION

[0010] The invention involves wall elements and the cabinet door that are finished only with aluminum-zinc coated sheet metal. Such wall elements and door are not provided with any additional surface protection coating, at least not in the areas facing the slots which are to be sealed. Sealing strips are connected directly to the untreated surface of the wall elements and/or cabinet door.

[0011] The use of aluminum-zinc coated sheet metal offers the advantage that expensive stainless steel and corrosion susceptible chromed steel sheet can be avoided. The total surfaces of the cabinet body can be used without a surface protection coating. If an aesthetic adaptation to other switch cabinets is required, then the application of a surface protection coating can remain limited to the outside. The electrically and magnetically conductive sealing strips for HF sealing of the slots can be directly connected to the untreated inside of the cabinet body.

[0012] The improvement in corrosion protection as compared to steel depends on the formation of a solid and adhesive covering layer on the initially used material and on the cathodic protective action of the zinc portion. The abrasion values with respect to bright steel sheet are reduced to fractions, resulting in the advantage of a manifold increase in the life span of the new switch cabinet precisely in the area of the contact points that provide the HF imperviousness.

[0013] One embodiment of the new switch cabinet is characterized by the fact that it features a rack finished solely with aluminum-zinc sheet metal (i.e., the rack is not protected with any additional surface protection coating). Wall elements and the cabinet door are attached to the rack with the wall elements being sealed on to the rack through the use of sealing strips. Such embodiment allows the sealing strips to be fixed to the rack or fixed to the wall elements and the cabinet door thereby resulting in a noticeable savings during the manufacture of the rack.

[0014] If, for aesthetic reasons, matching is required, then the outer side of the wall elements and the cabinet door can be covered with a coating such as a powder coating or paint. Such coating can be limited to the outer surfaces of the wall elements and the cabinet door.

[0015] If additional parts such as flange plates or the like are attached to the cabinet body, then the design is advantageous in that openings in the wall elements of the cabinet body can be closed by means of aluminum-zinc sheet metal finished flange plates or the like. Such plates can be inserted in the known manner into flange plate openings using sealing strips. In such embodiment, the flange plates or the like are not provided with any surface protection coating on the side that faces the inside of the cabinet body and bears the sealing elements. Also, the flange plate openings have no surface protection coating, at least at the contact surfaces that face inward.

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1 is a perspective view of a switch cabinet with a rack installed and an open cabinet door.

[0017] FIG. 2 is a perspective view of one particular embodiment of an HF impervious closure of the floor side of the switch cabinet.

[0018] FIG. 3 is a perspective view of a switch cabinet constructed as a wall housing with opened cabinet door.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0019] The switch cabinet according to FIG. 1 features a rack 10, the rack members of which are referenced as 11, 12, 13, 14 and 15 in the perspective drawing. All rack members 11-15 are manufactured of aluminum-zinc coated steel plate. Such plates are free of any other coating. The wall elements 21, 22, 23, and 24 as well as cabinet door 20 are also manufactured of aluminum-zinc steel plate, which can easily be processed and are uncoated at least on the inner side that faces the inside of the cabinet body. The electrical and magnetic conductive sealing strips 30 of the HF seal of the transition slot can be fastened directly to the rack 10 or the wall elements 21-24 and cabinet door 20. In the preferred embodiment of the invention, the sealing strips 30 are self adhesive. In such embodiment, plastic parts or polymer coated parts are used as connecting elements for the wall elements 21-24 and cabinet door 20, in order to avoid corrosion at these points.

[0020] As shown in FIG. 2, the floor side of the rack 10 can also be closed by means of divided flooring sheet metal 24, 24′ and 24″. The rack members 14, 15, 16 and 17 form a lower rack that forms a circumscribing supporting set off of the floor sheet metal, bearing the sealing strips that face the rack. In this embodiment, the floor sheet metal 24, 24′ and 24″ comprise aluminum-zinc coated steel sheet metal which is free of any other coating on both sides. The floor sheet metal 24, 24′ and 24″ can thereby overlap and be provided with additional sealing strips 31 and 32 in the overlapping areas, in order to achieve complete HF imperviousness.

[0021] The switch cabinet illustrated in FIG. 3 is constructed as a wall housing without a rack, whereby the wall elements 21-24 and the rear wall 27 can be constructed from one blank piece and can be welded into a single piece cabinet body at the contact points. Aluminum-zinc coated steel plates that are uncoated on the inner side of the switch cabinet can be used. The outer side of the cabinet body and the cabinet door 20 may have a surface protective covering applied, which may be formed of powder coating or paint. The wall element 24 that forms the floor of the switch cabinet is provided with a flange plate opening 26 that is surrounded in a known manner by an edge which is set back and is provided with fastening bore holes. The flange plate 25 comprised of aluminum-zinc coated steel sheet metal is used to close the flange plate opening, with the interpositioning of an electrically and magnetically conductive sealing element 34. The flange plate 25 thereby remains uncoated, at least on the side that faces the flange plate opening 26, and is screwed to the cabinet body. Plastic screws or polymer coated screws may be used for such attachment. The HF seal between the cabinet door 20 and the cabinet body is preferably provided by directly adhering the sealing strip 30 to the uncoated inner side of the cabinet door 20. Such strip is then applied against the seal support of the cabinet body.

[0022] In yet another embodiment, the cabinet body of the wall housing may also be assembled from the wall elements 21-24 as well as a rear wall 27, in such a manner that these parts are welded or soldered to each other at their contact points.

[0023] While the principles of the invention have been shown and described in connection with but a few embodiments, it is to be understood clearly that such embodiments are by way of example and not limiting.

Claims

1. HF impervious switch cabinet with a cabinet body that is or can be assembled from wall elements, featuring at least one opening that can be closed by means of a cabinet door and whereby the slots formed on the cabinet body and between the cabinet body and the cabinet door are closed or can be closed by means of electrical and magnetically conductive sealing strips such that they are HF impervious,

characterized by the fact

that the wall elements (21, 22, 23, 24, 24′, 24″) and the cabinet door (20) are finished of aluminum-zinc coated sheet metal and are not provided with an additional surface protection coating, at least in the slots which are to be made impervious, and

that the sealing strips (30, 31, 32) are connected directly to the untreated surface of the wall elements (21, 22, 23, 24, 24′, 24″) and/or cabinet door (20).

2. HF impervious switch cabinet according to

claim 1, characterized by the fact that it features a rack (10) finished of aluminum zinc sheet metal without an additional surface protection coating, onto which the wall elements (21 to 24) and the cabinet door (20) are attached, sealed by means of sealing strips. (FIG. 1).

3. HF impervious switch cabinet according to

claim 1 or

2,

characterized by the fact

that the outer side of the wall elements (21 to 24) and the cabinet door (20) are provided with a powder coating as a surface protection coating.

4. HF impervious switch cabinet according to

claim 1 or

2,

characterized by the fact

that the outer side of the wall elements (21 to 24) and the cabinet door (20) are provided with paint as a surface protection coating.

5. HF impervious switch cabinet according to one of the

claims 1 to

4,

characterized by the fact

that openings in the wall elements (24) of the cabinet body can be closed by means of flange plates (25) or the like finished of aluminum-zinc sheet metal and can be inserted into flange plate openings (26) of the wall elements (24) in the known manner using sealing elements, whereby the flange plates (25) or the like are not provided with a surface protection coating on the sides facing the inner side of the cabinet body and bear the sealing elements (34), and

that the flange plate openings (26) have no surface protection coating, at least at the inner facing contact surfaces.