DE2247005C3 - - Google Patents

Description

The invention relates to a housing for electrical devices which is shielded against high-frequency electromagnetic interference radiation and which is freely accessible through at least one door which, on its contact surface on the housing, carries an electrically conductive contact spring arrangement divided into a number of segments, in order to ensure a low contact resistance between the door and the housing over the entire contact surface. ^fo

It is known that a variety of electrical devices and machines, especially electronic Devices that work with low-voltage signals are very sensitive to electromagnetic interference are. Precautions must therefore be taken to prevent these devices from being used by, for example, neighboring ones Shielding machines or other jammers from radiated interference. In principle you can That can already be achieved with a closed housing with conductive walls, obviously also with others Reasons is to be provided anyway. For testing and maintenance work, however, it is in many cases necessary that the interior of the housing is easily accessible. It would do this work in an undesirable manner make it difficult, for example, if you first had to unscrew a cover plate in order to get to the inside of the Housing to have access. For this reason, it is common practice for such devices to have cabinet doors to be provided. However, the problem then arises, the contact resistance between the door and the housing frame low to ensure the desired shielding.

There are a number of known solutions for this, in which in principle a contact spring arrangement These contact springs are arranged in the support surface between the door frame and the housing frame often have a large number of segments to art the mechanical contact in this support surface many points to ensure. However, the problem of shielding between the door and the Do not consider the housing in isolation, but must take into account that the shielding also on the production, z. B. the painting of the housing, overall assembly, etc. has a retroactive effect. Sc it is with be knew readings often complex in terms of production technology, bare metal contact surfaces between door and To get housing frame and the shielding contact spring assembly. In part, that's because that such bearing surfaces are economically very expensive to coat in smaller numbers or the coating of the entire door surface must omit such bare parts and then with the known Arrangements of the contact springs must be made by hand and is therefore very wage-intensive

From the German Offenlegungsschrift 21 34 815 is also a housing arrangement for electrical devices for shielding against electrostatic and magnetostatic Blasting known, in which even without the expensive coating of the housing with a metallic Layer there should be a good line transition between the housing and the doors. These are with this known device with contact spring arrangements between the housing doors and the associated housing frame parts the frame parts coated with electrically conductive paint, which is relatively easy Way, e.g. B. by spraying should be accomplished. In addition, there are means of such electrically conductive paint cannot achieve the same conductivity of the housing surface as with the usual metal layers, electrically conductive on the contact surfaces between the door and the frame parts Metal strips provided. These metal strips are said to make the contact surface on the layer more electrically conductive Increase the color so that the contact resistance should be reduced to values similar to those at the metallic surface layers customary up to now can be measured. The metal strips can be different Profiles have and should be attached to the frame parts with rivets or screws.

Now, however, this is not a fundamental solution to the problem of creating reliable shielding ensures a low contact resistance between the doors and the housing and at the same time is designed such that it allows a simple and efficient manufacture of the housing. Because the known device has a housing coating

Conductive paint with poorer properties than a metallic surface is necessary. In addition, your own cover panels, the metal strips mentioned, are required, their surface is metallically conductive This clearly ensures the function of these cover panels or metal strips is this must in turn be attached to the frame parts of the door so that between the door frame and metal strips a large-area contact is made under appropriate pressure and beyond Individual Styria, namely at the displacements, more direct metallic contact is present

The known solution therefore only shifts the fundamental problem to another level and the The present invention is therefore based on the problem of a counter high-frequency electrical Interfering radiation shielded housing the arrangement of the contact springs in the contact surface between the door and housing frame in such a way. That the contact springs Can be easily installed, direct metallic contact with the door frame or the housing frame and still the production of the doors and thus the entire housing is simple and efficient is feasible, d. H. For example, the doors can also be coated electrophoretically. * 5

This task is performed in a housing for electrical devices that is shielded against high-frequency electromagnetic interference radiation and that is provided with at least one Door is freely accessible, which is divided into a plurality of segments on its bearing surface on the housing electrically conductive contact spring arrangement contributes to a low on the entire bearing surface To ensure contact resistance between the door and the housing, solved by the invention a door frame whose inside facing the housing has a longitudinal slot and running parallel to it has a U-shaped bent angle with the opening in the direction of the longitudinal slit / and by lined up in the support surface between the door frame and the housing and in the direction Contact spring kinked on the housing ^ whose angled lateral ends in the longitudinal slot or are positively clamped to the angle under resilient bias.

With this solution, the door profile can easily be manufactured as a welded construction. Nickel-plated sheet metal parts are only necessary on both sides of the contact surface, namely where parts of the contact spring Should give contact, so with the carrier parts of the contact springs. For the manufacturing method are Welding techniques are known that do not destroy the hardened and tempered surfaces, so that the support parts of the springs are in front the assembly can already be nickel-plated. In addition, the inexpensive electrophoresis than Coating process can be used because the contact surfaces of these carrier parts are easily accessible and thus through plastic film strips can be easily covered. The contact springs are also after the coating of the Door still to be assembled. A priming by hand, which is very wage-intensive, is therefore not more required.

A further development of the invention is characterized in that the at right angles about its longitudinal axis kinked contact spring on each of its segments at the kink and above the clamped at an angle lateral end each carries a knob that is attached to the housing or the inside of the door when the door is closed The door frame. Guaranteed together with the resilient clamping of the lateral ends of the contact spring this design of the contact spring on the one hand a simple assembly, on the other hand a good one Tolerance compensation for a manufacturing-related changing distance between the door and the housing frame and also aa a large number of individual contact points always bare contact points, because these are caused by the friction of the knobs when opening cleaning and closing the door yourself. Other developments of the invention are set out in the subclaims marked

An exemplary embodiment of the invention is explained in more detail below with reference to the drawing. It shows

F i g. 1 is a view of one of a plurality of individual segments composite contact spring,

F i g. 2 the associated side view of the contact spring on a slightly enlarged scale,

F i g. 3 and 4 each schematically show a FIG. 1 or 2 corresponding view of the contact spring installed Status.

From Fig. 1 it can be seen that the elongated contact spring 1 consists of a plurality of side by side arranged and identically formed segments 4 composed of over at their foot are connected to each other by a dr-xh-going strip.

F i g. FIG. 2 shows, on a somewhat enlarged scale, a view of the contact spring 1 in profile, ie a view that is shown in FIG. I is indicated by the arrow labeled A. This representation of the profile of the contact spring 1 shows that it is angled several times perpendicular to its longitudinal axis. For example, it is bent at right angles in its upper third, the lower half is bent back again and ends in an end 11 bent in a U-shape. Correspondingly, the upper lateral end 12 of the contact spring 1 is also bent back. The contact spring 1 also has a raised, embossed, outward-facing knob 6 directly at the right-angled kink already described and, as a counterpart to this, near the bend in the lower half, a further, inward-facing knob 8.

From Fig. 3 and 4 are each a view which, in its viewing direction, corresponds to the views according to FIG. 1 and 2 respectively correspond to recognizing the contact spring 1 in the installed state. The schematic sectional view of the contact surface between a door profile 5, and a housing frame 7 ^ze: gt that the frame parts of the door or of the housing are constructed from rectangular profiles substantially. The profile of the housing frame 7 is schematically indicated by dash-dotted lines with two outlines to indicate that tolerances can occur in the dimensions of the profiles as well as in their spacing, which of the housing shield, ie the contact spring arrangement in the bearing surface between the door frame and the housing frame must be collected if it is to be operationally safe.

The sectional view in FIG. 4 shows that in the door profile 5 on the housing frame 7 attached - ': honored inside a longitudinal slot 10 is provided. Parallel to this, a U-shaped bent angle 2 is also arranged in the door profile 5 on the inside, the open side of which points in the direction of the longitudinal slot 10. For the permanent connection this angle 2 with the door profile 5, it is z. B. possible to spot weld the angle in several places, z. B. by a wart spot weld,

which does not destroy even a nickel-plated surface. To do this easily and without difficulty can, the angle 2 has two legs of unequal length and is to be arranged on the door profile 5 in such a way that that the longer leg rests against this profile. The angle 2 is the only nickel-plated sheet metal part that is in the Door profile is used.

In this door profile 5, the contact spring 1 is below Preload can be clamped. In doing so, its lower lateral end 11 presses into the appropriately designed one The arch of the U-shaped angle 2 and its upper end 12 snaps into the longitudinal slot 10 after being inserted behind one of the lateral delimitation edges of this slot. In addition, the contact spring 1 is in this Position secured against displacement by inwardly pointing noses 3 arranged at the end of the shorter leg of the angle 2. These noses are simple, raised embossed webs on which the lower lateral end 11 of the contact spring 1 is supported in the assembled state. Furthermore, the shorter one has Leg of angle 2, as shown next to FIG. 4 also from FIG. 3 can be seen, at larger distances and directly below these lugs 3 arranged through bores 9. These serve to be able to easily release a contact spring 1 to be replaced from its secured position. Through this through bores 9 it is possible, for. B. by means of a pen to exert a pressure on the lower end 11 of the contact spring 1, so that this out of the formed with the lugs 3 and maintained by the resilient bias of the lower end U. Detent position releases The contact spring 1 can then be easily pulled out of the angle 2 as soon as its upper one End 12 is withdrawn through the longitudinal slot 10 of the door profile 5.

Finally, the function of the two knobs 6 and 8 remains to be explained. As shown in F i g. 4 can be seen, forms the knob 6, which is arranged directly next to the right-angled kink of the contact spring, the contact surface to the housing frame 7. Since the individual segments 4 of the contact spring 1 individually when closing the door in the The bearing surface between the door profile 5 and the housing frame 7 can be braced, the knobs 6 rub each segment 4 with each closing of the door the mating contact on the housing frame 7 with a differential

■ ο small movement clean again. The same is also true for the corresponding contact points between the contact spring 1 and the door profile 5. The one at the top Inwardly pointing knobs 8 arranged at the end of the bent lower end 11 of the contact spring form the contact points of the contact spring 1 with the door profile 5. Here, too, a door movement occurs corresponding friction effect, so that the corresponding contact points clean themselves.

The above explanation of an exemplary embodiment

game of the invention has made it clear that for the safe Shielding in the area of the contact surface of the door with the housing only two metallically conductive and therefore tempered, d. H. Usually nickel-plated surfaces are necessary. These are the two support surfaces

² surfaces of the contact spring I, ie the surfaces making contact with the knobs 6 or 8 on the housing frame 7 or on the longer leg of the angle 2. Both surfaces, which can already be nickel-plated during assembly of the housing, can be used before a final Coating of the housing, which is generally only done in the assembled state, easily cover with plastic film strips, so that the painting process to be selected does not apply Need to be considerate. So it can go without a stretch res the cheapest and most economical painting process, z. B. also electrophoresis can be used.

1 sheet of drawings

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Claims (4)

Λ, - s claims: 1. Housing shielded against high-frequency, electromagnetic interference radiation for electrical appliances Device that is freely accessible through at least one door, which is attached to its contact surface on the housing an electrically conductive contact spring arrangement divided into a plurality of segments contributes to a low contact resistance between the door and over the entire contact surface the housing zij gewab / lejgten, marked by clv a door frame "(5). Its the housing (7) facing inside a longitudinal slot (10) and running parallel to it a U-shaped is has curved angle (2) with the opening in the direction of the longitudinal slot and through in d & · support surface Lined up between the door frame and the housing, kinked in the direction of the housing Contact springs (1). their lateral ends *> (II, 12) in the longitudinal slot or the angle around it resilient bias are clamped positively. 2. Housing according to claim 1, characterized in that the at right angles about its longitudinal axis kinked contact spring (1) on each of its segments (4) at the kink and above the Jm Angle (2) clamped side end (11) each has a knob (6 or 8) that when closed Door rests against the housing (7) or the inside of the door frame (5). 3. Housing according to claim 1 or 2, characterized in that the clamped in the angle (2) lateral end of the contact spring (11) bent according to the U-shaped profile of the angle is and that from the door frame (5) protruding free leg of the angle at intervals inward directed lugs (3), behind which the lateral end of the contact springs latches under pretension. 4. Housing according to claim 3, characterized in that for releasing the contact spring (1) the door frame (5) in the free leg of the angle (2) at the level of each nose (3) a through hole (9) is arranged through which the latching position of the end of the contact spring is behind the nose can be unlocked.