DE1934795C3 - Protection tube anchor contact - Google Patents

Description

according to claim 1 and 2, characterized in that at least one of the end walls (22, 24) has on its outside a curved groove or groove (34) in which the correspondingly curved piece (36/1) of a connecting pin (36) is arranged, the two has legs C36Ä 16C1 protruding beyond the curved groove

¹ 4. Protection tube armature contact according to claim, characterized in that the groove-shaped recesses (28) extend through the end walls (22, 24) and that one end (38) of the coil wire passes through the groove-shaped recess (28) to with a protruding Leg (36ß of the connecting pin to be connected.

5. Protection tube armature contact according to claim 3, characterized in that the one with the end of the winding wire connected legs (36ß) via an indentation (22C) in the end wall of the The bobbin is bent back and extends in the axial direction of the glass bulb.

6. Protection tube armature contact according to one of claims 3 to 5, characterized in that the Bend of the groove or groove (34) forms an acute angle

The invention relates to a protective tube armature contact with a tubular piston made of glass or the like with approximately elliptical cross-section 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. _{Such protective tube armature contacts} are known to be

The invention is based on the object of the height of the profile of the protective tube anchor contact to reduce the holding plate as much as possible without weakening the magnetic effectiveness, On the contrary, it should be increased if possible.

Attempts have been made to reduce the strength of the coil by making the winding self-supporting, omitting an s. ^ .. ^ -. Acting winding is mostly characterized by the fact that the winding wire is pulled through a setting liquid 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 diameter of the coil increases, so that its magnetic effect is reduced, which can only be compensated by an increased number of turns. Another disadvantage of these self-supporting coils is that their weight acts on the glass envelope.
• 2D It is also a conduit anchor contact arrangement

, rden, which two in cross section

■ Contains glass bulbs surrounded by a common winding. Between the two glass bulbs an intermediate piece supporting end walls is arranged. The two round glass bulbs cannot be replaced by a piston with an elliptical cross-section, since then the space for the intermediate piece not applicable (DT-AS 12 63188).

The essence of the invention is that the cross-sectionally elliptical glass bulb of a Coil body made of two arranged on the outer narrow sides of the glass bulb, through end walls with one another connected axial wall parts is surrounded, the clearance of which is substantially equal to the major axis and the height of which is essentially equal to the minor axis of the piston cross-section, the bobbin carrying a winding, the inner turns of which are in the space between the two Wall parts are in direct contact with the piston. This achieves that - in contrast to a self-supporting coil - the winding is held in place, thus protecting the glass bulb from tension and weight the winding is relieved, but still the effective parts of the winding so close to the contact springs can be introduced that you can get by with a significantly lower number of turns, thus reducing the size, weight and resistance of the winding.

An embodiment of the invention is described with reference to the drawings.

Fig. 1 is a side view, partly in section,

a protective tube armature contact according to the invention; Figure 2 is an enlarged end view of Figure 2-2

the fig. 1;

Fig. 3 is an enlarged cross-section taken along 3-3 of Figs. 1;

Fig. 4 is an enlarged perspective view of the spool.

The in Fig. 1 relay shown in the form of a protective tube armature contact is with the general Reference numeral 10 denotes. It contains the actual protective tube armature contact 12 in the axial opening a bobbin 14 (Fig. 4) with a winding 16 (Fig. 3). The design of parts 12, 14 and 16 is such that the magnetic effect of the relay improves and its height above the Holding gap is reduced.

The actual protective tube anchor contact 12 contains

ψ9 34795

3 I 4

a tubular piston 18 made of glass or other connections to the ends of the winding 16 and insulating material, in the ends of which two magnetizable contact springs 20 are fused if necessary to the contact springs 20, the two end walls 22 -jnd 24 are their projections outer ends are provided for the purpose of production of electrodes 22, 4 and 22B, which protrude from the piston 18 with a curved triangular connection. 5 groove or groove 34 (Figs. 2 and 4) for receiving the The inner ends of the contact cores 20 have ab- connector pins included. Each of the connecting pins 36 is flattened end pieces 20A, which normally contain a correspondingly curved piece 36A which overlap to form a working air gap. is inserted into the groove 34 and fixed in it. The glass bulb 18 of the protective tube anchor contact 12 is preferably after the insertion of the Anhat an approximately elliptical cross-section (see Fig. 3), io locking pin a heated plate against the outside with a large axis (extension in the horizontal surface of the projections 22Λ and 22 β printed to the direction of Fig. 3) and a perpendicular to it to heat the plastic and to deform over the small curved axis (extension in the vertical direction NEN piece 36/1 of the connecting pin 36, Fig. 3). The flat end pieces 20 A of the Kon- so that it is held firmly in the groove,
Clock springs are arranged parallel to the major axis of the glass piston cross-section around the beginning and the end of the winding 16 (see FIG. 3). To connect the Ar- with the connecting pins 36, the gap between the overlapped end pieces 20 A protruding from the curved groove 34, in FIG. 2 is therefore closer to the outer surface of the flattened legs 363 of the connected sides of the glass bulb than is the case with the known pin 36 with the bare end of the winding glass bulb wrapped with essentially circular wire and soldered. The leg 36 R cross-section is the case. is then bent into the axial position of FIG.

The bobbin 14 shown in FIG. 4, the wire end 38 (FIG. 2) of the winding can here preferably be made of plastic, e.g. B. nylon, or other through the groove-shaped recess 28 of the wall is made of non-magnetic material, parts 30 and 32 can be passed and, as in FIG. 2 formed in pieces or shown together from several parts, guided around the projection 22 B set. The bobbin 14 contains two bobbins. This protects the end walls 22 completely spaced apart from one another and the arrangement of special openings 14 and 24, which are connected to one another by a central part denoted by the reference numeral 26 or recesses in the coil former 14 (FIG. 4). To receive the leg 36B they have the are. The middle part consists of two axial end walls 22 and 24 indentations 22C and 24C wall parts 30 and 32, the cross-sectional shape of which is from (FIG. 4), so that the leg 363 does not extend over the FIG. 3 can be seen. The axial wall parts 30 and the circumference of the spool protrude. Another 32 have groove-shaped recesses 28 (FIG. 4), legs 36C (FIG. 1) of the connecting pin 36, the shape of which serves the outer surface of the glass bulb to produce the external connection. In Fig. 1 speaks. The clear distance between the wall parts 35 is shown as extending in the axial direction -30 and 32 corresponds essentially to the large one. It goes without saying, however, that it corresponds to the axis of the glass bulb cross section. The height of the local conditions can also be bent in any desired wall parts 30 and 32 in the direction of the minor axis th way,
of the glass bulb cross-section is essentially the same. The relay 10 can be placed directly on a holding plate the length of the minor axis. The outer surfaces of the 40 are printed circuit mounted, the wall portions 30 and 32 being rounded to avoid sharp lower edges of the end walls 22 and 24 at the edge for the winding 16. The retaining plate so that the major axis of the

On the bobbin 14 the winding 16 of the glass bulb 18 extending parallel to the holding plate is applied in such a way that it extends between the ends of the walls 22 and 24 (Fig. 1), and that its 45 holding plate are used for attachment of the relay on the inner windings are attached to the outer shape of the holding plate and to produce the electrical anaxial wall parts 30 and 32. During conclusions. In a preferred embodiment, the winding is applied between which the protective tube armature contact 10 is surrounded by a housing axial wall parts 30 and 32, which is filled with a potting compound, the cross-section of which can be substantially that of the 50 and, if desired, carries connections, which corresponds to the glass bulb, its major axis being electrically connected to the connecting pins 36 and the contact springs 20 at least the length of the major axis of the glass. The position of the protective flask has. The bobbin 14 takes the clamping tube armature contact opposite the retaining plate and takes up the weight of the winding 16 and has the same effect as described.
prevents this from acting on the glass bulb 18 of the relay 55. Since it is not a self-supporting, the encapsulated relay has a height of 4.75 mm, solidified winding, it may be that the so considerably less than with one of the known middle wire parts after removing the distance relay. This reduction in overall height is due to the holder something between the axial end walls 30 using an elongated cross-section and sagging 32 (Fig. 3). This slack 60 glass bulb 18 achieved, in which the major axis of the is eliminated by introducing the glass bulb. Cross-section parallel to the flat end pieces of the contact springs 20 and to the plane of the retaining plate without the latter taking up any significant weight. When the relay is finished, these are arranged. The reduction in overall height is wire parts in direct contact with the side, in addition, due to the complete absence of the walls of the glass bulb 18 , whereby the working pieces 20/4 of the contact springs 20 (Fig. 3) has. the same diameter of the winding 16 significantly

To connect pins for the manufacture of the outer wrestles. This creates the magnetic force

the coil increases and enables the use of a winding 16 of a smaller overall height than this in the case of a glass bulb with the usual circular cross-section of the bulb and the coil of the Case is.

The drawing shows a coil with a single protective tube armature contact. The bobbin

per 14 can, however, also be carried out in such a way that the distance between the wall parts 30 and 32 is equal to the multiple of the major axis of a glass bulb 18, so that a plurality of glass bulbs is arranged side by side in the same coil. Such a relay has the same advantages on.

1 sheet of drawings

Claims (2)

Patent claims: 1. Protection tube anchor contact with a tubular, in cross-section approximately elliptical glass flask or the like with fused contact springs, by the magnetic field of a coil surrounding the Ko ben m and disengaged groove each other can be brought thereby characterized in that the glass bulb (1β | from a bobbin (14) of two to the outer narrow sides of the glass bulb, connected by end walls (22, 24 «^ to one another axial Wandte.len (30, 32) is surrounded, the clearance of which is essentially equal the major axis and its height essentially equal to the minor axis of the piston cross-section is, wherein the bobbin is a Wickjung (16) carries their inner turns in the space between the two wall parts (30, 32) are in direct contact with the piston (18) 2. Protection tube armature contact according to claim 1, characterized in that the inner surfaces of the axial wall parts (30, 32) groove-shaped Aus / ia \ Li j · ι j - ο c,