The invention relates to a contact arrangement for a relay with a contact head which is provided with a crown, in particular for “dry” switch loads, and to a relay with such a contact arrangement.
An electrical contact head and a method for manufacturing the same is known from JP 56-107418. The drawing of this document shows a circular disk with nine teeth which are arranged along the periphery of the circular disk. These teeth serve for the fastening by way of cold welding the contact head on a contact head carrier.
A contact arrangement for switch apparatus is known from DE 31 28 929. With this contact arrangement, a contact head has a crown with a contact line closed in a circular manner. A second contact head cooperating with this contact head likewise has a contact line. This may be straight-lined, but may also be designed in a circular manner as a crown. The contact lines of the two cooperating contact heads cross, so that in each case two crossing points arise, at which the contact heads may contact.
An electrical contact pair is known from DD 150 699, with which the contact heads have circular outlines and are symmetrical to an axis through the centre of the circle of the outline. The contact surface of such a contact head is formed peripherally convexly at the edge. This convex bead merges into a concave surface towards the centre. The bead may comprise recesses. The other contact may be convexly curved. With a contact pair formed in such a manner, the transition resistance and the consumption may be reduced. Further advantages are a large resistivity with respect to the asymmetry of the switch location, a cooling of the contact surface as a result of their enlargement, and extension of the total life expectancy, and an increase in the reliability. A relay is known from the German utility model DE 90 06 430.5 U which is applied in so-called dry-switching switch circuits, or switching circuits with a low load. For reducing or avoiding the disadvantages which are caused by the contamination layer resistance, it is suggested to provide one or more raised parts projecting in a relief-like manner in the direction towards the other contact, on one or both of the contacts of a contact pair. The contact surface area at the contact location is greatly reduced and the contact pressure is increased by way of this. The raised parts are formed by embossing a curved contact surface centrically on this, and are merely raised by 5 to 100, preferably by 10 to 50 micrometers with respect to the remaining contact surface.
It is the object of the present invention to suggest a relay, a contact head and a contact arrangement with which the contact reliability is high with a “dry” switch load (sparkless making and breaking). In particular, an as large as possible specific contact pressure at the contact locations of two contact heads and simultaneously, a two point contact is to be achieved in a reliable manner. In particular, the contact head should abut with a second contact head which is formed without a crown and in a smooth manner, at not less that two contact locations having a small surface area.
This object is achieved by the subject-matters of the independent claims.
A relay according to the invention has at least one contact arrangement for the dry switching of an electric circuit, in a manner known from DE 90 06 430.6 U. With a contact arrangement according to the invention, a first contact head is present in the known manner, which has an annular crown, and a second contact head which with a contact surface formed without a crown, cooperates with a contact surface with the first contact head. The diameter of the crown is smaller than the diameter of the contact surface of the second contact head. One of the contact heads is arranged and movable on a contact spring. The two contact heads are inclined to one another in the closed position, so that the crown does not circumferentially bear on the counter-contact, but is only pressed on at a small circular segment. A relatively high pressing pressure is achieved by this.
According to the invention, the object of the invention is achieved on the one hand by way of the crown being formed by a plurality or multitude of teeth which are separated from one another by interruptions in the crown, and on the other hand by way of the contact spring being formed such that it may be subjected to torsion. By way of this, one ensures that two teeth of the first contact head always lie on the contact surface of the second contact head in the closed position.
Thus, it is also ensured that an individual grain at the contact location of the two contact heads which separates the contact heads, as a whole may not prevent the electrical contact. The contact head arranged on the contact spring in this case is twisted about the axis of the contact spring by way of the fact that contact spring is placed under torsion, until a second tooth of the crown bears on the contact surface of the counter-contact, and thus current may flow. With this, a two-point contact is achieved, which is more reliable than the single-point contact which has been realised in DE 90 06 430.6 U.
In a preferred embodiment, the teeth are arranged at a distance to the periphery of the contact head at regular distances. The distance to the periphery of the contact head ensures that the teeth, with an equally large counter-contact, fall into the inside of the contact surface and do not snag at the edge of the contact surface with the counter-contact.
The crown has a diameter which is between a third and two thirds of the diameter of the first contact head. Preferably, the diameter of the crown has maximally the diameter of the rivet stub, particularly preferably it corresponds to the diameter of the rivet stub. This permits a large force onto the location of the rivet head, on which the crown is to be formed by cold forming.
For manufacturing a crown contact head by way of a cold-forming method, the contact head is firstly formed with an annular crown, and interruptions are formed into this annular crown, e.g. with a spoke-wheel-like punch, at a later stage. A crown of alternating teeth and interruptions between the teeth results by way of this.
The interruptions are usefully formed not until riveting the contact head into a contact head carrier. This permits the position of the teeth to always be aligned equally with respect to the contact head carrier, thus e.g. a contact spring or a stationary plate. An interruption is formed on an axis of the contact spring. The crown thereby does not need to form a complete circle, but may merely be present around the axis of the contact spring, but may be absent at a larger lateral distance to this axis, since the contact head is subjected to torsion until the next tooth bears on the counter contact.
With a contact head for a contact arrangement of a relay with a crown which encloses the contact surface and projects with respect to the contact surface and which forms a contact edge, according to the invention, the edge of the projecting crown is interrupted at a multitude of locations, so that teeth and intermediate spaces between the teeth are formed.
If such a toothed crown is pressed onto a smooth, plane or curved contact surface of a second contact head of a contact arrangement, then a slight spring force is adequate in order to achieve a high specific surface pressing at the contact locations. This high pressing pressure is achieved because the teeth abut on the smooth contact surface at contact locations having a small surface area. Furthermore, the two contact heads reliably bear on two contact locations, since the contact head with the toothed crown will only accommodate the spring force in a torsionally-stable manner, when the contact heads contact one another at two locations which are distanced to one another. These two locations both have a very small surface area with the contact heads according to the invention.
The crown is usefully formed by a multitude of teeth on the periphery of the contact head which increasingly taper the further from the contact surface. The tapering may be designed running out, so that the contact edge is formed very sharply up to 0.1 mm width. On account of the tapering of the teeth, these have a stable base despite the minimal dimension of the contact edge, so that the teeth do not yield to the contact pressure and thus do not deform. The multitude of teeth ensures that the arrangement of the contact head on the leaf spring of the contact may be effected with any alignment of the teeth, and in each case two teeth create a reliable two-point contact in every possible arrangement of the teeth even with a very slight torsioning of the leaf spring.
The contact edge between the interruptions preferably has a length of 0.01 to 0.7 millimetres, preferably 0.01 to 0.2 millimetres, particularly preferably 0.02 to 0.1 mm. These dimensions limit the maximal size of the contact surface of a contact head. The contact surface of an individual tooth in the meanwhile may be even smaller than the length times the width of the contact edge of two teeth, since in most cases each tooth abuts the opposite contact head only with a single end point of the end points of the contact edge which are present at each tooth.
The teeth are usefully arranged on the periphery of the contact head at regular distances to one another. By way of this, no position of the contact head is then to be preferred over the other one, but each position is equivalent to the other. The number of teeth is dependent on the periphery of the crown, and depending on the diameter of the crown, preferably lies in a range of 10 to 60. Preferably 24 to 40 teeth are present with a diameter of the crown of approx. 2.4 mm.
The teeth advantageously in each case comprise a flank shaped running-out towards the contact surface enclosed by the crown. This prevents the occurrence of fractures (e.g. stress fractures) in the contact head.
The contact surface which is enclosed by the crown is advantageously formed smoothly and plane-surfaced or slightly cambered. A central wart may be formed on the contact surface, in order to have as much as possible wearable material thereon with the use of a head in a “wet-switching” contact, i.e. a contact with burn-off.
The contact head is usefully a rivet head with a finished shaped contact body with a crown and a formable rivet stub on the rear side thereof. A riveting swage may be used for riveting the rivet head, as is used for crown contact heads without teeth.
However, welding contacts or soldering contacts may also be provided with a crown toothed according to the invention.
With a contact arrangement for a relay or in a relay with at least two contact heads, with which a first contact head is formed with a projecting crown enclosing a contact surface, said crown forming a contact edge, according to the invention, the edge of the projecting crown is interrupted at a multitude of locations, by which means teeth are formed. The contact heads are usefully arranged on contact springs, in particular are riveted, soldered or welded on. These contact springs are leaf springs which allow a certain torsioning. They therefore increase the reliability which is ensured in any case with a two-point contact.
The second contact head cooperating with the first contact head in the meanwhile is advantageously formed without a crown. It merely forms a smooth counter-piece, on which the first contact head abuts with the crown at a certain angle. For this reason, the second contact head for this reason best has a smooth, plane-surfaced or slightly curved contact surface.
The first and the second contact head are usefully arranged relative to one another such that the first contact head with the crown contacts the contact surface of the second contact head at a distance to the edge of this contact surface. This may e.g. be achieved in that the second contact head has a larger diameter than the first contact head. The contact heads may however also bear on one another eccentrically to one another. Then, in the contact position, only the crown contact with the toothed crown needs to be inclined with respect to the second contact head. The frontmost location of the inclined crown must then abut on the second contact head within the contact surface of this second contact head.
The contact head 11 represented in
The teeth 21 have a tip which is formed by one edge. This edge lies on a circular line and with each tooth 21 has a length for example of 0.02 mm. The length and width of the edge may have dimensions lying in a wide range. The flanks of the teeth 21 are formed descending in an inclined manner from this edge towards the contact surface 15. The flank inclined towards the centre of the head 11 in each case is formed running out in a concavely curved manner.
In the contact arrangement represented in
The contact arrangement according to these figures may be a closing contact or a break contact. With the abutment of the two contact heads 11 and 25 on one another, a tangential movement (circular movement) of the two heads against one another arises, which accounts for a mechanical cleaning of the contact location. When the two contact heads abut one another, then the toothed crown with two teeth bears on the plane or slightly convexly curved contact surface of the smooth contact head 25. These teeth 21 bear with a very small surface, so that even with a slight pressing force of the spring, a high specific surface pressing (a high pressing pressure) arises.
As is shown in
The diameter of the smooth contact heads cooperating with the contact heads according to the invention is indeed shown larger than the diameter of the toothed crown 17 in the examples. This however is not necessary with a suitable position of the contact heads. The only condition is that the teeth of the toothed crown contact the adjacent contact head on an approximately smooth contact surface.
The contact head 11′ represented in the FIGS. 6 to 8 has a crown 17′ of a multitude of teeth 21′. The crown is formed at a distance to the periphery of the contact head. The diameter of the crown corresponds to the diameter of the rivet stub. The crown diameter measures a little more than half the diameter of the head.
The teeth 21′ are formed having a sharp edge. The rivet head 11′ has a plane-surfaced contact surface 15 on which the teeth 21′ are arranged. The teeth 21 are about 30 micrometers high (15 to 60, preferably 20 to 40 micrometers). The distance between two teeth is about 10 times as large as the tooth height (approx. 0.3 mm, preferred range: 0.2 to 0.5 mm). The width of the tooth tip in the direction of the periphery of the crown is about half as wide as the width of the distance between the teeth (preferred region 0.1 to 0.3 mm).
With a contact head with an annular crown, the teeth are manufactured by way of cold forming the interruptions between the teeth. The material of the crown is displaced into the base body of the contact head at the interruptions and into the adjacent teeth. By way of this, the edges of a tooth 21′ adjacent the interruption are somewhat elevated. These edges then form the contact point to a plane-surfaced contact surface of a counter-contact.
The forming of the interruptions is preferably effected in a single method step together with the riveting of the contact head with a contact head carrier, thus of a contact spring of a movable contact, or a plate of a fixed contact.
Since the positioning of the teeth with respect to the contact spring or the plate is defined with such a method for forming the toothed crown of the contact head, one may do away with those teeth in the toothed crown which definitely do not cooperate with the counter-contact. Here, one may do away with the formation of interruptions, or the crown as a whole may be omitted or pressed away. The contact heads according to the
With the contact head according to FIGS. 9 to 11, the axis of a contact head carrier is represented as a dot-dashed line. In each case only two teeth 21′ are formed laterally connected to this axis. With this embodiment example, with an assembly of the contact head onto a contact head carrier, only 8 teeth 21′ are formed. In the assembled relay, two teeth 21′ lying closest the axis then cooperate with the counter-contact. Depending on the type of the counter-contact, it is the two teeth which are distanced from the foot end of the contact head assembled on the contact spring or those lying closest.
In order to obtain a larger lever and thus a larger force for the torsioning of the contact springs, the contact head according to FIGS. 9 to 11 may also be assembled such that the axis of the contact spring runs along the dashed line. The contact heads which then lie closest to this axis are arranged at a relatively large distance to the axis. For this reason, a larger force placing the contact spring under torsion results when the crown contact merely lies on the teeth.
A contact head which only has 8 teeth, which in each case are arranged in pairs in the corners of a rectangle approximated to a square, is represented in the
If a contact element consisting of a contact head and contact head carrier is only to be able to be applied for a closing contact or a break contact, but not for both types of contacts, then one may do away with the upper or lower contacts. The symmetrical formation with respect to an axis perpendicular to the axis of the contact spring permits the application of the same contact members with closing contacts and break contacts.
It is further shown in
Two different contact pairs are represented in
Furthermore, the course of the movement of the contacting is shown in
The invention, expressed briefly, relates to a contact pair of a relay, with a contact head which comprises a crown 17 enclosing a contact surface 15 and projecting with respect to the contact surface. The crown has an edge which is interrupted at a multitude of locations, by which means teeth 21 and intermediate spaces between the teeth 21 are formed. The result of this is that the crown contact head 11 contacts a smooth, crownless adjacent contact head in each case with a high pressing pressure at two small-surfaced contact locations in a reliable manner, despite a low spring force. The contact reliability with a dry switching load may be increased with respect to conventional crown contacts by way of this.
Number | Date | Country | Kind |
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00821/05 | May 2005 | CH | national |
00455/06 | Mar 2006 | CH | national |