DE1182749B - Polarized electromagnetic protective tube contact relay - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school KL: HOIh /

German KL: 21 g- 4 / 02-

Number: 1182749

File number: C 23355 VIII c / 21,

Filing date: February 7, 1961

Opening day: December 3, 1964

The invention relates to a relay which has at least one actuating coil and at least one Contains thermowell anchor contact. This essentially consists of an airtight one (preferably evacuated or filled with an inert gas) piston, one armature and two Contains contact pins. The anchor protrudes on one side, while the contact pins on the other Protrude from the piston. If there are no external forces acting on the anchor, it takes the middle position between the contact pins.

Such a relay is known. It is also already known, one of the contact pins by a Pre-load permanent magnet, one pole face of which comes into engagement with the contact pin.

It is also known to have a permanent magnet between the two contact pins in this way to arrange that its one pole face with the one and its other pole face with the other contact pin comes into engagement. In the case of the latter two arrangements, however, there is an adjustment both the response and the waste stream are not possible.

It has also become known, with a protective tube anchor contact that is stable on one side on both sides Contact pins each have a permanent magnet to be arranged in such a way that its one pole face with the associated Contact pin comes into engagement, while the other pole face outwards (from the other Contact pin away). This makes it possible to use different strengths Permanent magnets to adjust both the response and the waste current. The disadvantage of this Arrangement exists - except for a relatively large material and space requirement and accordingly high costs - especially in the fact that these permanent magnets cause relatively large stray fields that act on neighboring thermowell armature contacts and how they work disturb, so that an encapsulation of the protective tube armature contacts is required, which in turn a entails increased space requirements and increased costs and makes it impossible to have a majority of Arrange thermowell anchor contacts in a small space next to each other.

The invention is based on the object of overcoming these difficulties and of creating a relay of the type mentioned, which enables simple adjustment of the response and dropout sensitivity using a single permanent magnet, requires little material and space, is light and inexpensive, and is before all just ge-polarized electromagnetic
Protective tube contact relay

Applicant:

C. P. Clare & Company,

Chicago, JIl. (V. St. A.)

Representative:

Dipl.-Ing. G. W. Schmidt, patent attorney,

Munich 5, Buttermelcherstr. 19th

Named as inventor:

Arthur J. Koda, Morton Grove, JIl. (V. St. A.)

Claimed priority:

V. St. ν. America 8 February 1960 (7157)

rings generated stray fields, so that the arrangement of a plurality of protective tube anchor contacts tight space is made possible.

The essence of the invention is that the permanent magnet used for premagnetization one of its pole faces touches one of the two contact pins, while the other pole face in the vicinity, but at a distance from the other contact pin, so that on the two Contact pins with biases of different polarity and strength are applied, where the straight line connecting the pole faces is normal to the contact pins is arranged and forms an acute angle with the plane containing the contact pins.

Further details of the invention emerge from the description and the claims.

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

F i g. 1 is a plan view, partly in section, of a multiple relay with a base plate that has a contains printed circuit;

F i g. Figure 2 is a section along 2-2 of Figure 1;
Fig. 3 is a section along 3-3 of Fig. 1;
4 is a partial perspective view of the upper end of a reed armature contact with the permanent magnet but without the base plate.

F i g. 1 shows a multiple relay that is connected to the general Reference numeral 10 is designated. It includes a base plate 12 made of insulating material with a

409 730/258

3 4

A plurality of recesses 14 and one printed and 2) has a narrow opening 26, which is in a

th circuit, which a plurality of conductive bore 28 terminates.

Contains strip 16. The protective tube contacts 18 can be in any of the recesses 14 Protective tube armature contact 18 can be designed with an attached control in a manner known per se and development 20 used. The terminals of these con- 5 dry contacts or contacts wetted with mercury 18 contacts with the printed circuit are included. Each of the protective tube contacts 18 solder. The recesses 14 correspond to the shape containing an airtight piston 30 of the coils 20 and therefore keep them in the insulating material, for example made of glass, and a desired position with respect to the protective tube armature magnetic armature 32 (FIG. 4), which is electrically with contacts 18 and the base plate 12. 10 the protruding at the lower end of the piston

To the protective tube anchor contacts 18 on one side pin 34 is connected. To make two switching pins 38 and 36 stable, so that their armature made of magnetic material (for example, soft touches of the magnetic contact pins 38, 36, iron) protrude at the upper end of the piston 30, a premagnetization takes place through a permanent. The lower ends of the pins 38 and 36 are nentmagnet 22. Each of the magnets 22 has a mach 15 bent slightly inwards, as shown in FIG. 4 to ergnetic axis, at the ends of which see the pole faces, and contain contact surfaces with which the opposite polarity are located. The magnets 22 at the top of the armature 32 under the control of the are located on one side of the base plate 12; Coil 20 can optionally come into engagement, one of its pole faces touches one of the two contacts Since the magnetic armature 32 is medium stable, that is, the clock pins of the armature contact 18; The magnetic 20 normally occupies a position between the pins 38 axis is substantially parallel to the isolating axis and 36, a bias magnet is arranged on the base plate 12. The second pole 22 required to make the contact on one side stable to surface of each of the magnets 22 is therefore of the essence. This normally separates the armature 32 from the second switch pin by the insulating base plate engaging the lower end of the pin 38. As a result of this arrangement the perma- 25 hold. When the coil 20 receives a magnetic field of suitable magnetic magnet 22, one of the two switching pins generates polarity, the armature leaves the pin 38, which contains a pre-magnetizing break contact of each armature contact 18, and engages with a specific polarity which is greater than that Pin 36, which contains the normally open contact. If that of the other pin, so that the armature in the coil 20 is de-energized, the armature 32 returns as a result of the idle state in contact with this switching pin 30 of the premagnetization is held by the permanent magnet, while the other switching pin is a 22 again in its starting position back, in weaker pre-magnetization of the opposite polarity to which it touches the pin 38. By changing the position. In order to achieve this, the permanent magnet 22 of the second switch pin is preferably rectangular in relation to the permanent one; he has a magnet 22 and by changing the strength of the 35 magnetic axis so that the in F i g. 3 represent magnet 22, the response and the drop-out pole faces 22 α and 22 b can be formed at the ends of the current of the control winding 20 on the desired magnetic axis. The length of the value can be set. Since each of the protective tube magnet 22 in the direction of its magnetic axis contacts 18 only a single permanent magnet is preferably greater than the distance between the pins 38, which also pre-magnetizes the second switch pin, 40 and 36 from each other. In order to generate a relatively strong stray field, the stray field is so small that the magnetic magnetic field of a given polarity at the lower reaction of adjacent protective tube contacts 18 end of the normally closed contact pin 38 is generated, that of the same base plate 12 or adjacent one of the two pole faces, in the example shown base plates, is practically switched off . the pole face 22 a, in the immediate vicinity

The base plate 12 consists of a suitable 45 arranged on the upper end of the contact pin 38; dielectric material and has a printed magnet. This magnet is adjusted in such a way that its magnetic circuit, which is aus- tic axis in a manner known per se, forms an acute angle with the axis. The printed circuit consists of a line connecting the axes of the switch pins 38 and 36 of a plurality of separate strips 16 from. As a result of this angle, as well as the fact that conductive material, for example copper. The 50 that the length of the magnet is preferably greater, most of these strips contain a larger than the distance between the switching pins 38 and 36, the end piece 16 a on an extension 12 a, which is designed as a multi-second pole face of the opposite polarity, in the socket connector . The other ends of the example shown, the pole face 22 b, a be -streifenl6 end in widened pieces 16 b or the correct distance from the normally closed contact pin 36. In-16 c of various shapes, which are used to connect the 55 sequence of the high magnetic resistance of the individual parts of the Relays are used, for example, for the air gap between the pin 36 and the pole connection with the protective tube contacts 18 or surface 22 b , the premagnetization of the pin 38 is the coils 20. In the case of the in FIG. 1 shown much stronger than those with opposite multiple relays, the ends 16 b serve for example polarity pre-magnetization of the pin for connection to the coils 20 and the ends ⁶ ° 36. The permanent magnet 22 is preferably 16 c for connection to the pins of the protective tube from a highly magnetizable material, so that contacts 18. The base plate 12 also contains a field of the permanent magnet 22 at the pole plurality of holes 24 which are concentrated for applying surfaces 22 a and 22 b and are used by an insulating protective layer. The shape of the sides of the magnet has only a minimal stray field from the recesses 14 corresponds to the outline of the 65 is created. It should also be noted that the coils 20, in order to fix them with respect to the base plate and switching pin 36, are a path less magnetic than the protective tube contacts 18. Resistance to the lines of force extending from the pole face 22b - the lower end of the recesses 14 (FIG

were run in air, despite the air gap between the pole surface 22 b and the upper end of the pin 36, so that the lower end of this pin receives a certain bias of the opposite polarity as that of the pin 38. As a result, the upper end of the armature 32 held in engagement with the pre-magnetized pin 38, so that a unilaterally stable relay is formed.

To mount the protective tube armature contacts 18 and the coils 20 on the base plate 12, each of the contacts 18 is inserted into the axial opening 40 of a coil 20; the protective tube contacts with the coils are then inserted into the recesses 14 so that the lower pin 34 of the contact lies in the opening 26 and its lower end protrudes into the bore 28. At the top of the Protective tube contact 18 is the pin 38 on the end piece 16 c of a strip 16 of the printed Circuit on; the second magnetic switch pin 36 is on the opposite side of the Base plate 12, laterally offset with respect to the pin 38. The permanent magnet 22 is then placed on the widened end piece 16 c in the vicinity of the recess 14 (FIG. 1) that its magnetic axis runs essentially parallel to the base plate 12. Your own magnetism of the magnet 22 keeps this in intimate contact with the contact pin 38 and in such a position that the Side of the magnet 22 is separated from the pin 36 by the intermediate base plate 12. In In this position, the axis of the pin 36 is established by one on the magnetic axis of the magnet 22 Vertical cut. The pins 34, 36 and 38 of the protective tube contacts become electrical and mechanically connected to the printed circuit board of the base plate 12, preferably by soldering these pins with the end pieces 16 c of the conductive finger 16. In addition, the permanent magnet 22 with the pin 38 or with the widened part 16 c of the printed circuit or with both can be connected by soldering.

In certain cases it can be advantageous to solder the permanent magnet 22 to the pin 38 to be connected before the protective tube contacts 18 are mounted on the base plate 12. In this case the correct position of the pins 38 and 36 relative to the magnet 22 is ensured by a suitable auxiliary device. When the protective tube contacts 18 connected to the magnets 22 then onto the base plate 12 are placed, facilitates the engagement of the side walls of the permanent magnets 22 with the base plate 12 the achievement of the correct position of the pins 38 and 36 relative to the base plate.

The strength of the magnets 22 can be adjusted to the desired value before being connected to the switching pins 38 be set; however, this may be due to the possibility of a change in the magnetic Properties during assembly as well as undesirable because of the fact that the protective tube contacts 18 are different in their work characteristics and that a compensation for this by permanent magnets of different strengths may be required. It is therefore generally more advantageous to assemble the permanent magnets 22 first in the non-magnetized state and then a magnetic field to act on them with such strength and direction that their field strength becomes greater than necessary, to make the protective tube contact stable on one side. The permanent magnet then becomes a Exposed to an alternating field, which reduces the strength of its magnetic field. During exposure of the alternating field shows a test apparatus connected to the protective tube contact 18, the working characteristics of the contact, so that a certain Response and waste current can be adjusted. When the desired values are reached,

ίο the magnetic alternating field acting on the permanent magnet 22 is switched off. The permanent magnet 22 can be adjusted in the manner described in order to set the response and release current to the desired values; Instead of this or in connection with this, however, the angle of the magnetic axis with the connecting line of the pins 38 and 36 and the length of the permanent magnet 22 in the direction of its magnetic axis and thus the distance between the pole face 22b and the pin 36 can be changed to suit the working characteristics of the protective tube contact 18 to regulate. After the coils 20 are mounted in the correct position on the base plate 12, the conductive strips 16 and those on the base plate 12 can be used

assembled parts are electrically isolated and protected against the effects of the atmosphere by two plastic insulating films 42 and 44 applied to the top and bottom of the switching unit will. The holes 24 in the base plate 12

facilitate the application of a vacuum.

In the normal position of the multiple relay 10, the permanent magnets 22 hold the armature 32 of the Protective tube anchor contacts engaged with the pins 38 so that the circuits between the with the Pins 34 and 38 connected to strips 16 are closed. When one or more of the coils 20 about those associated with them! Strip 16 receive power so that the armatures 32 are given the same polarity like the lower ends of the pins 38, the anchors 32 are repelled from the lower ends of the pins 38 and attracted by the lower ends of the pins 36 so that the anchors 32 with the pins 36 come into engagement, whereby the normally closed contacts are interrupted and the normally open contacts are closed will. When the coils 20 are de-energized, the biasing of the lower ends of the Pins 38 and the elasticity of the armature 32 that the latter again with the pins 38 in contact come. This opens the working contacts and the normally closed contacts closed again, so that the armature contacts 18 return to their starting position to return.

Claims (7)

Patent claims: 1. Polarized electromagnetic relay with at least one protective tube armature contact, whose Anchor normally occupies the middle position between two outer contact pins, however is preloaded on one side by pre-magnetization by means of a permanent magnet, thereby characterized in that the premagnetization serving permanent magnet (22) with a its pole faces (22 a) touches one (38) of the two contact pins (38, 36), while the other pole face in the vicinity, but arranged at a distance from the other contact pin (36) so that the two contact pins (38, 36) Biases of different polarity and different strength are applied, the straight line connecting the pole faces, normal to the contact pins and forms an acute angle with the plane containing the contact pins. 2. Relay according to claim 1, characterized in that the pole faces of the permanent magnets have a distance from one another which is greater than the distance between the two contact pins (38, 36). 3. Relay according to claim 1 or 2, characterized in that the permanent magnet (22) is arranged such that a perpendicular erected on its magnetic axis corresponds to the second Contact pin (36), from which the magnet (22) is arranged at a distance, intersects. 4. Relay according to one of claims 1 to 3 with a base plate and with one of the Protective tube anchor contact receiving recess in the base plate, characterized in that that the two contact pins (38, 36) are arranged on different sides of the base plate (12) and that the one contact pin (38) touching magnet (22) through the base plate (12) of the other contact pin (36) is separated. 5. Relay according to claim 4, characterized in that the base plate (12) is known per se Way consists of insulating material and carries a printed circuit. 6. Relay according to claim 4 or 5 with a coil surrounding the protective tube armature contact, characterized in that the recess (14) of the base plate (12) is dimensioned so that it receives the coil (20) of the protective tube armature contact (18) and against displacement opposite the base plate secures. 7. Relay according to one of claims 1 to 6, characterized in that the relay as Multiple relay is formed by having a plurality of protective tube armature contacts (18) a common base plate (12) is arranged. Considered publications:
German Patent No. 813 179;
German interpretative document No. 1 051411. 1 sheet of drawings 409 730/258 11.64 O Bundesdruckerei Berlin