DE1439536C2 - Arrangement of hermetically sealed contacts for electromagnetic relays - Google Patents

Description

closed protective housing, the plate-shaped spring continues with its radial recesses a relatively high resistance to easy anchor mobility.

The invention is based on the object of an arrangement of hermetically sealed contacts for To create electromagnetic relay in which the movable contact element even at a low Diameter of the protective housing has a high degree of flexibility and at the same time is able to supply sufficient magnetic flux to the working air gap. According to the invention, this is thereby achieved achieves that the contact blade is part of a disc-shaped membrane and this The membrane is slotted so that the inwardly directed tongue-shaped, at the clamping point of the Membrane with the remaining membrane connected contact lamella is formed and the air gap between the contact-making part of the armature and the rest of the membrane is so small that the rest Membrane a further flow path between the contact-making part of the armature and the clamping point forms on the housing parts. Such a design of the movable contact element has Advantages that the extended length of the armature can be greater than the diameter of the protective housing and that the magnetic flux over practically the entire surface of the membrane to the working air gap arrives, even if the membrane is so thin that the anchor cross-section is solely used to guide the flow not enough.

According to various embodiments of the invention, the membrane can be circular or rectangular; The anchor can be in the form of a flat spiral, as a closed loop or as a diagonally arranged one Tongue be formed, the mobility of the anchor either by the loop or spiral Shape or is achieved by a taper in the direction of the fixed end of the anchor.

In another embodiment of the invention, a fixed end of the anchor is on the fixed end Contact opposite side attached member made of ferromagnetic material is provided that is extends at a small distance parallel to the armature and a further flow path between the contact-bearing Forms part and the fixed end of the anchor.

According to a further embodiment of the invention leads through the cover, which is the ferromagnetic Contact pin-bearing cover is opposite, another hermetically sealed contact member Made of non-magnetic material, on which the armature rests under spring pressure in the idle state. This lid can consist of ferrite or of ferromagnetic material if it is electrically insulating Spacer is separated from the membrane.

A further development of the invention provides that another, in its dimensions of the first mentioned Membrane-like membrane made of ferromagnetic material is provided, which is parallel arranged to the first membrane and separated therefrom by an electrically insulating spacer is, and that one of the two covers is tightly attached to each side of the membrane, through each of which leads through a contact pin, the pole pieces of which work together with one of the anchors of the membranes. The electrically insulating spacer can have two adjacent arrangements be together.

The invention is described using various exemplary embodiments with reference to drawings, in which shows

1 shows a longitudinal section through a contact arrangement;

F i g. 2 A to 3 each show a different embodiment of the anchor according to the invention;

F i g. 4 A shows the top view of a rectangular membrane and its anchor,

F i g. 4 B shows a longitudinal section through a contact arrangement which has the armature according to FIG. 4 A used,

F i g. 4C shows a plan view of a modified membrane according to FIG. 4 A,

F i g. 5 shows a longitudinal section through a contact arrangement with two working contacts,

F i g. 6 shows a cross section through two contact arrangements with two working contacts each,

F i g. 7 A is a plan view of a membrane and the associated fixed contact,

F i g. 7 B a longitudinal section through a membrane and the associated fixed contact,

F i g. 8 shows a longitudinal section through a modified armature arrangement and the associated fixed contact,

F i g. 9 shows a longitudinal section through a further contact arrangement,

10A shows another application of the anchor arrangement according to FIG. 8 for a thermowell armature contact known per se,

10B also shows a further application of the Anchor arrangement according to FIG. 8 for a thermowell armature contact known per se,

11 shows a longitudinal section through a changeover contact arrangement;

Fig. 12 A to 12 C each show different contact arrangements, use the anchor stops,

FIGS. 13A to 13C each show a top view, a longitudinal section and a side view of a modified anchor and the associated fixed Contacts,

14 to 18 each show a different multi-contact relay;

The contact arrangement according to FIG. 1 has a membrane 1 made of ferromagnetic material, which forms an anchor 2. The movable part of the armature 2 is also designed as a movable contact. The membrane is clamped between two covers 3 and 4 made of electrically insulating material. A ferromagnetic rod 5 leads with its one end 6 through the cover 4 and represents a fixed contact and a magnetic pole piece. The contacts are inside the housing hermetically sealed, which is formed by the inner recesses of the lids 3 and 4. To the To operate contacts, an excitation coil (not shown) can be wound around the rod 5. the Contacts are connected via the rod 5 and the upward part of the membrane 1. the Contact arrangement shown in this special form is only used to clarify the details their basic construction. It can be changed in a number of ways, like it becomes clear in the description below. Preferably, but not necessarily, the Lid 3 and 4 made of ceramic material, including in the embodiment that is attached to Hand of fig. 4 and 5 will be described.

In applications where the contact arrangement should be as small as possible, it is difficult to the Grant anchors a sufficiently high degree of flexibility to allow the operating characteristics of the Arrangement are not adversely affected. Because the anchor can be contained within the membrane must, the size of the latter is the basis of this problem.

Various forms of anchor will now be described in which the size of the membrane is the Flexibility of the anchor is not adversely affected.

The F i g. 2 A and 2 B each show a circular membrane 1 with an armature 2, its elongated Length is greater than the inner diameter of the ring.

In Fig. 2A, the armature 2 is as closed Loop formed, the ends 7 and 8 of which are attached to adjacent points of the membrane. Of the Armature 2 has a tongue-like member 9, the free end of which extends to the center of the Ring extends and forms the contact part of the armature. However, if the contacts are not in the center of the device are to be arranged, the member 9 can be omitted. In Fig. 2B is the anchor formed spirally. The spaces between the anchor 2 and the ring are with parts 10 (Fi g. 2 A) and 11 (Fig. 2B) made of ferromagnetic material, which lie in the plane of the armature. These increase the magnetic flux between the armature and the edge of the membrane. For practical For reasons, the parts 10 and 11 are formed as parts of their respective membranes.

In Fig. 3 shows an arrangement in which the membrane is formed by a disk 19, which is provided with a slot 20 that an inwardly directed tongue 21 is formed, the one Forms anchor in the plane of the membrane. The firm end of the tongue begins at the inner edge of the Cover 3 and 4 (FIG. 1), the position of which is indicated by the circular dashed line. That the Armature 21 surrounding part 22 serves as a flux guide member.

Although the above features have been described for a circular diaphragm, they are used in a slightly modified form for other membrane shapes.

The contact arrangement shown in FIGS. 4A and 4B contains a rectangular membrane 23 made of ferromagnetic material between the Lids 24 and 25 is hermetically sealed.

The covers form a housing for the armature 26 and a fixed contact 27. The fixed contact 27 is attached to the end of a ferromagnetic rod 28 which is embedded in the cover 25 in a sealed manner. In this arrangement, the armature 26 is parallel to the longer sides of the membrane and is approximate as long as the membrane. On the other hand, the anchor can preferably be arranged digonally in the membrane as shown in Fig. 4C.

The arrangement can, as in FIG. 5, can be modified to provide two working contacts are. Another rectangular diaphragm 29 made of ferromagnetic material is through a spacer 30 made of electrically insulating material at a distance from the membrane 23. In the Membrane 29 is an armature 31 is formed, which has a contact part at its free end, the a fixed contact 32 is assigned. The fixed contact 32 is carried by a rod 33, the is let into the cover 24 in a hermetically sealed manner. The arrangement of Fig. 1 with any of the Anchor shapes described above can easily be modified so that two working contacts are created. If several arrangements are arranged side by side, each with two working contacts, so that they Form a multiple contact, as shown in Fig. 6, the spacer 30 can all

ίο these orders are common.

In the membranes shown in FIGS. 4 A and 4C, the gap between the armature and the surrounding membrane as tight as possible. As a result, as shown in FIGS. 7A and 7B, an effective flux path for the flux created by the energization of the coil 36 between the End 34 of the armature 26 and the part 35 of the membrane surrounding the armature.

An increase in the flow in the gap between the fixed contact part and the adjacent one Part of the anchor can also be made by the one shown in FIG Way to be achieved. Here is a link 37 made of magnetic material at the fixed end of the Anchor 26 attaches and overlaps the free end of the anchor. The link 37 provides another route for the magnetic flux. Instead of the member 37, one of the end covers can also be used for this purpose of the housing. In the in F i g. 9 arrangement shown consists of one of the Cover 38 made of ceramic and the other cover 39 made of ferromagnetic material. But should the whole Isolate the housing electrically, then the cover 39 must be made of ferrite. A similar effect can with the arrangements of F i g. 5 and 6 can be achieved in that the spacer 30 is made of ferrite. The features illustrated in FIGS. 7 and 8 are not applicable to either the contact arrangements with rectangular membranes still on arrangements according to the construction shown in FIG. 1 limited. In general, these features are used for so-called thermowell anchor contacts, in which at least two contact tongues in a housing made of insulating material, e.g. B. off Glass, which is either evacuated or filled with a protective gas, are sealed. One or both of the Contact tongues is or are made of ferromagnetic material, so that a magnetic flux their actuation caused. Figures 10A and 10B represent two contact arrangements of the type just described, in which the thickness of a movable Part 40 is reduced in size at its contact-bearing end 41 in order to increase its flexibility. At the fixed end of part 40 is either inside or outside of housing 43 a magnetic one Part 42 attached. The part 42 serves the same purpose as the previously described part 37 of FIG F i g. 8. The movable contact 40 can also be in the form shown in FIG. 7 A shape shown be formed. In in this case it would correspond to the membrane 23, and the contact-carrying end of the part 40 would correspond to the anchor 26. The armature comprising part 35 (Fig. 7A) would be the magnetic Replace part 42.

As shown in Fig. 11, the contact arrangement of the rectangular membrane type can be modified to operate as a changeover contact. A rectangular membrane 43 is clamped between two ceramic covers 44 and 45.

7 8

The armature 46 is normally provided against the con. The diameter of the cylindrical clock part 47 is pressed from non-magnetic material. The end of the fixed contact covers the width of the armature when a magnetic flux is applied. When the contacts are closed, so armature 46 from a second contact part 48, the two parts 62 and 63 of the armature are attracted to ferromagnetic material. So that the 5 of each side of the gap 61 is securely attracted to contact with the required contact pressure regardless of the fixed armature. Therefore, if a part of the armature is pressed against the part 47, the contact makes poor contact, it is well possible supporting end of the part 47 so that it is between the other part and the fixed over the one in contact with the membrane Surface of the contact creates a transition of low resistance. Cover 44 protrudes by a piece d , by which the end of the armature 46 must be deflected. Relay that exerts from four such An-47. The end of the part 48 is against which the orders are built up, in the following the membrane-contacting surface of the cover 45 is set back to piece d + g in view of the different configurations, where g is the one for which the contact arrangements are joined together. Rest position required distance between the anchor can be described.

and part 48 is. When the membrane and the contact assemblies, which are attached to each other in the plan view entDeckel is therefore neither rectangular cover (Fig. 14 and 16) or armature anfnäglich by the portion 47 by a distance d circular cover plate (Fig. 15) have and against deflected towards the part 48 and therefore remains 20 their contacts at the same distance from the longitudinal in its rest position, spaced apart by the distance g from the part 48 axes of their respective arrangements. In order to be able to use the above with reference to FIG. 9, if the operational sensitivity to rows consisting of two arrangements are improved in two adjoining ways, each as described, the cover 44 can either be made of ferrite. As shown in FIG. 14, each fixed contact rod 5 extends or is made of ferromagnetic material into a conventional excitation earth. In the latter case, however, it would be necessary to electrically isolate the coil 64. There is a distance between the rods 5 and the membrane against the cover 44. preferred to be as small as possible so

In the single and double described above, the contact arrangements are arranged so that the

Membrane assemblies can use a stop rods 5 are adjacent to the center of the group,

at which the armature on its return to its 30 as shown in FIGS. 15 and 16 is shown. to

Rest position abuts to shorten the bounce time, each of the arrangements would have this purpose

before the anchor reaches its rest position. 16 shows a membrane, the anchor of which is on a

Figs. 12A to 12C represent various of the previously diagonal the rectangular lid would lie,

described constructions, in which a The relay of FIGS. 17 and 18 are for

Stop is provided. ' 35 contact arrangements according to Figures 4 and 5 described,

In Fig. 12A is a ceramic or ferrite in which part of the rods 28 and 33 (only the Lid 49 is provided, in the recess of which rods 28 are shown in FIGS. 17 and 18) blow in the form of a pin 50 is attached. In the vertical to the lids 24 and 25 (only the relaxed Position is the armature 51 on the final cover 25 are shown in Figs. 17 and 18-pin 50 on. In the arrangement according to FIG. 12B, 40 is set and that of an excitation coil 65 is set ferromagnetic lid 52 is provided, which are one.

17 has indentation, which acts as a stop for the rods Anchor54 is used. In Fig. 12C, two by one of the rectangular arrays are the center of the Ceramic or ferrite spacer 57 separate group adjacent. The contact arrangements are Diaphragms 55 and 56 are provided. In this case 45 put together in such a way that they are opposed to each other in pairs the stops by pins 58 and 59 are overlaid and that each pair has one of the forms, the arms of a right-angled cross crossing on opposite sides of the spacing Piece 57 are arranged. In everyone who is currently educated. In the center of the group, the letters In constructions, the stop stands so orders either with their edges next to one another suggest that the anchor butt a small amount in 50, or they can have beveled edges Direction of the fixed contact is deflected. be provided as indicated by the dashed lines

To the probability of a faulty meaning is indicated, to the mutual distance between

Drive to reduce the contact arrangement, what see the rods 28 continue to reduce. In

is due to the fact that the contacts are a Fig. 18 on one side of the excitation coil 25 each

To produce a poorly conductive junction, the 55 can be located in two arrangements.

Anchors of the diaphragms previously described, and if any of the fixed contacts just described are to be modified to form the double contact arrangements as shown in Figures 13A to 13C, then two must be axially out. Here, a cylindrical directed coil is provided on the fixed contact, one each for the end 60 and a gap 61 at the free end of the armature ^6o rods 28 or 33 of FIG. 5.

For this purpose 4 sheets of drawings

Claims (9)

ferromagnetic material is provided, which extends parallel to the armature (26) at a small distance and forms a further flux path between the contact-bearing part and the fixed end of the armature (26) (FIG. 8). 11. The arrangement according to claim 1 to 10, characterized in that a further hermetically sealed contact member (47) made of non-magnetic material leads through the cover (44) which is opposite to the cover (45) carrying the ferromagnetic contact pin (48) the armature (46) rests under spring pressure in the idle state (FIG. 11). 12. Arrangement according to claim 1 to 10, characterized in that a further, in their dimensions of the first-mentioned membrane (23) similar membrane (29) made of ferromagnetic material is provided, which is arranged parallel to the first membrane (23) and from this is separated by an electrically insulating spacer (30), and that one of the two covers (24 or 25) is tightly attached to each side of the membrane (23 or 29), through which a contact pin (28 or 33 ), whose pole shoes (27 or 32) each work together with one of the armatures (26 or 31) of the membranes (23 or 29). 13. Arrangement according to claim 12, characterized in that the movable contact members (26, 31) of both membranes (23, 29) are arranged at the same end of the housing. Patent claims: 1. Arrangement of hermetically sealed contacts for electromagnetic relays with a Protective housing consisting of at least two parts, through the housing wall at least a in this tightly enclosed contact pin made of ferromagnetic material into the interior of the Protective housing leads and between the housing parts from at least one contact element ferromagnetic material is clamped hermetically tight at its edge and with one in the Interior of the protective housing protruding, acting as an anchor tongue-shaped contact blade cooperates with the contact pin, characterized in that the contact blade represents part of a disk-shaped membrane and this membrane is slit is that the inwardly directed tongue-shaped, at the clamping point of the membrane with the rest Membrane connected contact blade is formed and the air gap between the contact-making part of the armature and the rest of the membrane is so small that the rest of the membrane another flux path between the contact-making part of the armature and the clamping point forms on the housing parts. 2. Arrangement according to claim 1, characterized in that 30
indicates that the anchor (2) in the form of a
closed loop is formed, the ends (7, 8) at adjacent points on the mem- bran (1) are attached (Fig. 2 A). ^: 3. Arrangement according to claim 1, characterized in that the invention relates to an arrangement hermetically indicates that the armature (2) in the form of a closed contact for electromagnetic flat spiral is formed (Fig. 2B). Relay with one of at least two parts 4. Arrangement according to claim 2, thereby standing protective housing, through the housing wall indicates that the anchor loop has at least one tongue-like cone that is tightly enclosed in it Member (9) carries the free end of the 40 clock pin made of ferromagnetic material in the Contact of the armature (2) forms. Interior of the protective housing leads and between it 5. Arrangement according to claim 1, characterized housing parts from at least one contact element indicates that the armature (21) loops through a ferromagnetic material at its edge Slot (20) in the membrane is clamped meticulously tight and is formed with one in the (19), the ends of which protrude towards the fixed interior of the protective housing, as an anchor End of the armature (21) converge acting tongue-shaped contact blade with the (Fig. 3). Contact pin cooperates. 6. Arrangement according to claim 1 to 5, characterized by the Australian patent 156 584 is a characterized in that the membrane (z. B. 1) circular electromagnetic relay with a movable is shaped. 50 contact element known, which at its edge between 7. Arrangement according to claim 1, characterized in that two housing parts of a protective housing are seen indicates that the membrane (23) is hermetically clamped in a rectangular shape and one in the and has an armature (26) which protrudes into the interior of the protective housing as an armature Extends in the longitudinal direction of the membrane (23) and has effective contact lamella. At least with this one almost the length of the membrane (23) 55 order, the contact anchor is only about half as long occupies. like the diameter of the protective case. thats why the bending stiffness of the armature is relatively high. Also an increase in the flexibility of the anchor By reducing the material thickness, this arrangement sets limits due to the iron cross-section of the armature to be determined, which is used to guide a sufficient magnetic flux to the Working air gap is required. Furthermore, by the USA. Patent 10. The arrangement according to claim 8 or 9, there- 65 2 933 571 a relay with a through a plate characterized in that a spring held at the fixed end button-shaped anchor bedes Armature (26) known on the fixed contact. Apart from the fact that with this arrangement opposite side attached member (37) from the contact anchor not in a hermetically sealed 8. Arrangement according to claim 7, characterized in that the armature (26) is parallel to the longer pair of sides of the membrane (23) extends (Fig. 4 A). 9. Arrangement according to claim 7, characterized in that the armature (26) diagonally to the longer pair of sides of the membrane (23) is arranged (Fig. 4 C).