DE1934795A1 - Protection tube anchor contact - Google Patents

Description

The invention relates to a relay, namely a protective tube armature contact with a tubular piston made of glass or other material with fused contact springs which can be brought into and out of engagement with one another by the magnetic field of a coil surrounding the piston. ^!

In a preferred application of the protective tube armature contact β 'for many purposes, a plurality of such relays, if necessary file other bits together, are combined to form a switching unit (building block · module) and on a holding plate, preferably one with a printed circuit. Assembled. This can be exchanged as an interchangeable unit.

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formed building block can be in various devices or electrical Facilities (data processing equipment, control devices, etc.) are used.

In the course of the prevailing trend towards miniaturization In almost all areas, efforts are made to increase the size of the Relay decrease. Even fractions of a millimeter play a role here. The most important dimension is Height of the relay above the retaining plate. This size determines the strength of the exchangeable switching unit and thus the distance from one to the other or the achievable density the switching units, d »h. the number of them that can be accommodated along a given route.

The height of the relay depends on a protection tube armature - ■ ·. contact depends on different sizes, in particular on the diameter of the glass bulb, the thickness of the bobbin, the strength of the winding, the strength of any housing and from other factors. The two most important of these variables are the strength of the glass bulb and the surrounding coil with bobbin.

Attempts have been made to reduce the strength of the coil by that, omitting a bobbin, the Self-supporting winding. A self-supporting winding is usually achieved by the fact that the winding wire when winding the coil through a setting liquid

ORIGINAL BATHROOM

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is passed through, with which it is wetted and which later hardens, so that a solid structure is obtained. This also increases the weight and strength of the winding. In addition, the effective JDujss & Siesser of the coil increases _s so 'that your® magnetic fe <J &f> 3 * »@ tst we & j which can only be compensated by an increased winding system. Another disadvantage of these self-supporting coils is that their weight acts on the glass envelope, which in many cases is associated with disadvantages.

Attempts have also been made to increase the strength of the coil by doing this reduce by reducing the wall thickness of the bobbin © to a minimum value. With those used today Materials and manufacturing processes, a wall thickness of 0.3 to 0.4 mm seems to be a limit that only can be fallen below in exceptional cases. Furthermore, the inner diameter of the bobbin in which the glass bulb is used, the tendency to decrease because of the cold deformation of the bobbin material. The final one clear diameter depends on the bobbin material, the wire thickness, the number of turns of the coil and the voltage of the wire when winding · For this reason, it is customary to provide sufficient play, which in turn is effective increased mean diameter of the coil.

BATH ORIGINAL

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The invention is based on the task of determining the amount of Profile of the protective roiiraiikepkoiitaktee above the retaining plate as far as possible, without reducing the magnetic effectiveness on the contrary, to increase it if possible *

Reading the invention consists in the fact that the glass bulb an elongated cross-section with a large (to Holding plate parallel) and one; in addition vertical small ones Has axis and of a bobbin with two opposite, axially connected by band walls Wall parts is surrounded, the clearance of which is essentially equal to the major axis and its height essentially is equal to the minor axis of the piston, the bobbin carries a winding, the inner turns of which in the space between the two wall parts directly on the glass bulb issue.

Further details can be found in the following description based on the drawing as well as from the claims «

Pig. 1 is a side view, partly in section, of a protective tube armature contact according to the invention.

FIG. 2 is an enlarged end view of FIG. 2-2 of FIG Ed. 1.

Pig. 3 is an enlarged cross-section according to 3-3 of FIG Pig «; 1..

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Fig. 4 is an enlarged perspective view of the bobbin. - ■: \

The relay shown in Figure 1 · in the form of a reed armature contact is designated by the general reference numeral 10 degrees. It contains the actual protective tube armature contact 12 in the axial opening of a coil former 14 (Pig. 4) with a winding 16 (Pig. 3). The design of the parts 12, 14 and 16 is such that the magnetic effect of the relay is improved and its overall height above the holding plate is reduced.

The actual protective tube armature contact 12 is of known design in many respects. It contains that their outer ends for the manufacture of electrical terminals protruding from the piston 18 includes a tubular piston 18 of glass or other insulating material, in ^f whose ends two magnetic contact springs 20 are fused in such a manner. The inner ends of the contact springs 20 have flattened end pieces 20A which normally overlap to form a working gap. However, the actual protection tube armature contact 12 differs from the known designs in that the glass bulb 80 oblong in cross-section, ie, substantially oval or in the form of an elongated hole is formed (β. FIG. 3) "bit of a major axis (Bretreckunginhorizontaler direction of the

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Pig «3) and a minor axis perpendicular thereto (extension in the vertical direction of the Pig. 5). The flat end pieces 20A of the contact springs are arranged parallel to the major axis of the glass bulb 18 (see Pig. 3). The working gap between the overlapped end pieces 20A is therefore closer to the outer surface of the flattened sides of the glass bulb than is the case with the known glass bulbs with an essentially circular cross section of the pail.

The bobbin 14 shown in FIG. 4, which is preferably made of plastic, for example nylon or other non-magnetic material, can be molded in one piece or composed of several parts. The bobbin 14 contains two end walls 22 and 24 which are arranged at a distance from one another and which are connected to one another by a central part denoted by the reference numeral 26 (Pig. A). The middle part consists of two axial wall parts 30 and 32, the cross-sectional shape of which is made of Pig. 3 can be seen. The axial wall parts 30 and 32 have groove-shaped recesses 28 (Pig. 4), the shape of which corresponds to the outer surface of the glass bulb. The clear distance between the wall parts 30 and 32 essentially corresponds to the major axis of the glass bulb. The height of the wall parts 30 and 32 in sighting the minor axis of the glass bulb is substantially equal to the length of the minor axis. The outer surfaces of the wall parts

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30 and 32 are rounded. ,, to provide sharp edges for the Avoid winding 16.

The winding 16 is applied to the bobbin 14 in such a way that it extends between the end walls 22 and 24 (FIG. 1 ^y , and that its inner turns conform to the outer shape of the axial wall parts 30 and 32) Between the axial wall parts 30 and 32 a spacer is inserted, the cross section of which corresponds essentially to that of the glass bulb, its major axis being at least the length of the major axis of the glass envelope this acts on the glass bulb 18. Since this is not a self-supporting, solidified winding, the central wire parts may sag a little between the axial end walls 30 and 32 (FIG. 3) after the spacer has been removed Slack is eliminated by inserting the glass bulb without the latter taking up any significant weight In the event of a relay, these wire parts are therefore in direct contact with the side walls of the glass bulb 18, so that the coil has the smallest possible distance from the overlapped end pieces 20A of the contact springs .20 (Fig. 3) has.

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To connect pins for making the outer Connections to the ends of the winding 16 and possibly to the To obtain contact springs 20, the two end walls 22 and 24 are provided with projections 22A and 22B, which a curved groove or groove 34 (Figs. 2 and 4) for receiving the connection st if te included. Each of the connector pins 36 contains a correspondingly curved piece 36A, which is inserted into the groove 34 and fixed in it. Preferably after inserting the connection pin a heated plate against the outer surface of the projections 22A and 22B pressed to heat the plastic and deform over bent piece 36A of connector pin 36, so that it is held firmly in the groove »

To the beginning and the end of the winding 16 with the . To connect pins 36, the one from the, bent Groove 34 outstanding, shown in "Pig. 2 dotted Leg 36B of the connection pin 36 with the bare end of the winding wire wrapped and soldered. The thigh 36B is then bent into the axial position of Figo 1 » The wire end 38 (FIG. 2) of the winding can pass through the groove-shaped recess 28 in the wall parts 30 or ". 32 passed through and, as shown in Fig. 2, around the projection 22B to be shown around. This will make the end of the wire completely protected and the arrangement special

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Openings or recesses in the bobbin 14 can be dispensed with. To receive the leg 36B, the end walls 22 and 24 have indentations 22C and 240 (FIG. 4) so that the leg 36B does not protrude beyond the circumference of the bobbin. A further leg 360 (FIG. 1) of the connecting pin 36 serves to establish the external connection. In Pig. 1 is it is shown as extending in the axial direction it goes without saying, however, that it can also be bent in any desired way, depending on the local conditions can"

The relay 10 can be mounted directly on a printed circuit support plate with the lower edges of the end walls 22 and 24 abutting the support plate so that the major axis of the glass bulb 18 extends parallel to the support plate. Suitable connections or connecting means of the holding plate are used to fasten the relay on the holding plate and to make the electrical connections. In a preferred embodiment, the protective tube armature contact 10 is surrounded by a housing that can be filled with a potting compound and, if desired, carries connections that are connected to the connecting pins _; 36 and the Kontaktfedern 20 are electrically connected. The position of the protective tube armature contact in relation to the retaining plate is the same as described here.

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When a protective tube armature contact 10 has been implemented the encapsulated relay has a height of 4.75 mm, which is considerable less than one of the known relays. This reduction in the overall height is achieved by using a glass bulb 18 which is elongated in cross section and whose large Axis parallel to the flat end pieces of the contact springs 20 and is arranged to the plane of the holding plate. The reduction in overall height is also achieved by the complete absence of material in the length of the bobbin the; flat sides of the glass bulb 18 achieved, whereby the effective diameter of the winding 16 is significantly reduced. This increases the magnetic force of the coil and the use of a winding 16 of lower overall height than this with a glass bulb with the usual circular cross-section of the piston and the coil is the case.

In the drawing is a coil with a single Sheathed armature contact shown. The coil body 14 can, however, also be designed in such a way that the distance between the wall parts 30 and 32 is equal to the multiple the major axis of a glass bulb 18, so that a A plurality of glass bulbs is arranged side by side in the same coil. Such a relay has the same advantages on.

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Claims (8)

193k7 - ti - ■ - ■■ .. Munich, July 9, 1969 claims 1.) Protection tube anchor contact with a tubular piston made of glass or other material with fused contact springs, which by the magnetic field of one of the. The piston surrounding the coil can be brought into and out of engagement with one another, characterized in that that the glass bulb (18) has an elongated cross section with a major axis (horizontal extension Alignment of Figo 3) and a small perpendicular to it Axis (extension in the vertical direction of the Pig. 3) and from a bobbin (14) of two opposite, connected by end walls (22, 24) axial wall parts (30, 32) is surrounded, the clearance of which is substantially equal to the major axis and its height substantially equal to the minor axis of the piston cross-section, the bobbin being a 909885 / U5 0 19347BS -42 - Winding (Ί6) carries; whose inner turns in space " between the two Waiidteile (30, 32) directly on the Piston (18) anli ^ geno ^ 2 «protection tube armature contact according to claim 1, characterized in that the coil body (18) in cross section in essentially oval or in the form of a long hole is. 3 .. protective tube armature contact according to claim 1 and 2, characterized gekennsiei ^ without that the flat end pieces (20A) of the Contact springs (20) parallel to the major axis of the piston cross section are arranged 4. SchutÄröhrankerkontakt according to claim 1 to 3, characterized characterized in that the inner surfaces of the axial wall parts (30, 32) have groove-shaped recesses (28) that are adapt to the outer shape of the glass bulb (18) * 5 x SchuiizrohraMfcerköntakt claim BIIS T 4, characterized gekennzeichnei ;, däes least one && r end walls (22, 24) on its geek ^ e a curved MLIE or iiut has (54), in which the; correspondingly curved piece (36A) of an attachment pin (36) is arranged, which has two legs C36S, 36 <} L) extending beyond the curved iFut * - 8SSV 145 0 6. Protection tube armature contact according to claim 5, characterized in that that the groove-shaped recesses (28) extend through the end walls (22, 24), and that one end (38) of the coil wire through the groove-shaped Recess (28) passes through to be connected to a protruding leg (36B) of the connection pin » 7ο protection tube armature contact according to claim 5, characterized in that the end of the winding wire connected legs (36B) is bent back over an indentation (22C) in the end wall of the bobbin and extends in the axial direction of the glass bulb, 8. protection tube anchor contact, according to one of claims 5 to 7, characterized in that the bend in the groove or hat (34) forms an acute angle. 90 9885/1450 , ■■ "■■■ ** - L ee γ se 1 1 e