PL156112B1 - System of switch-over contacts - Google Patents

Description

REPUBLIC

POLAND

OFFICE

PATENT

RP

PATENT DESCRIPTION 156 112

The patent has been reprinted for the sake of

--- for noticed errors

Additional patent to patent no - Int. Cl. ⁵ H01H 27/06

Reported: 87 06 04 (P. 266075)

Priority: 86 06 04 Hungary

Application announced: 88 09 01

The patent description was published: 1992 10 30 ii

Inventor of the invention: József Orgovanyi

The holder of the patent: "Bakony" Fem - es Elektromoskesziilek Muvek, Yeszprem (Hungary)

Switching contact system

The subject of the invention is a switching contact system, in particular for switching on the ignition of motor vehicles.

Switching contact systems are known in which the closely spaced unidirectional contacts are bypassed when the circuit is closed by a rigid holder containing movable contacts facing and guided towards the fixed contacts. The holder is made of electrically conductive material. The circuit is interrupted by the moving away of the movable contacts from the fixed ones. The bypass handle is brought into the on and off positions by a mechanism consisting of a rigid moving member that does not continuously affect the handle and one or more cooperating springs. They rest on the holder symmetrically with respect to the axis of the movable contacts.

Contact systems of this type are used in numerous switches, inter alia, for turning off the ignition of motor vehicles, and are known from Italian Patent No. 864,614.

Such contact systems, however, have the disadvantage that the moving contacts contact and detach themselves from the fixed contacts without sliding when closing and disconnecting the current circuit. For this reason, the contact surfaces may become covered with oxidation products or other impurities, which increase the resistance of the transition between the contacts, which in extreme cases makes it impossible to close the circuit. This is the case in particular in current circuits operating at high currents at relatively low voltages, for example in electrical systems of motor vehicles, and in particular in ignition switches. Under these circumstances, an increase in the contact transition resistance can lead to large losses, up to the failure of the circuit-breaker.

From the French patent description No. 2 259 426 a solution is known to eliminate the described disadvantage. The handle carrying the movable contacts is made of flexible sheet metal, and the part facing the fixed contacts is concave. A rigid support element is provided on the convex side of the handle, which is acted on by two flexible movable elements in the direction of the fixed contacts. The support element is moved to the disengaged position

156 112 by a rigid swing connected to an external control mechanism. When the contacts are closed, the concave handle, under the action of the pressure force, rises and rests against the rigid support element, while the surfaces of the movable contacts slide over the fixed contacts. During disconnection, the support element moves away from the fixed contacts and the contact holder becomes concave again. The contacts also perform a sliding movement. This way the contacts are cleaned during operation.

Taking into account the high requirements for switches and the fact that the flexible contact holder is also made as an electrically conductive element, and thus heats up during operation, the harmful phenomenon of spring fatigue can be eliminated only by the use of high-quality materials, which involves significant production costs . At the same time, the above system, due to its geometry, can only implement small shifts.

A solution is also known from the French patent description No. 2,402,291 which, in a similar arrangement to the contact arrangement described at the beginning, additionally guarantees their self-cleaning. This is done by moving the movable contact holder in the horizontal direction while closing or opening the circuit. In this solution, an opening is provided in the central part of the rigid, movable contact holder, for receiving a loosely fitting arm of the rigid actuator connected to the control mechanism. This arm is used to pick up the contact holder. The movable handle moves forcibly in the closing direction by means of a pressure spring supported on the seating of the actuator. Disconnection is caused by a spring acting in the opposite direction. An oblique section is formed on the arm of the actuating element, which forces, through the opening, a horizontal movement of the movable contact holder towards one of the fixed contacts, and during the opening of the circuit towards another fixed contact.

Nevertheless, also this solution cannot be applied to all the contact arrangements defined in the introduction, in which the rigid actuator acts directly on the movable contact holder only in part of the movement cycle. A further disadvantage of this solution is that the beveled arm section of the rigid actuator and the opening of the contact-holder strongly rub against each other during closing and opening, which causes considerable wear and hence disrupts the functioning of the entire switch.

The aim of the invention is to obtain, in the newly developed solution, such a self-cleaning of contacts during their operation, which can be easily implemented in all the contact systems mentioned at the beginning, without significant expenditure, and the operation of which will not change during the entire life of the switch.

The object of the invention has been achieved by creating a system in which the mating surfaces of the rigid moving element and the contact holder are shaped asymmetrically with respect to each other, in a direction perpendicular to the common plane of symmetry of the fixed contacts.

In a preferred embodiment of the object of the invention, the movable fixture is constructed as a plate parallel to the plane of the base of the contacts, while the mating surface of the rigid movable element is formed with an inclination in a direction perpendicular to the common plane of symmetry.

In similar solutions, the difference with the previous solution is that the mating surfaces of the contact holder and the rigid actuator extend in the direction of inclination, and there is a projection on the side facing the actuator at the end of the contact holder extension. In a further preferred embodiment of the subject of the invention, the surface of the rigid moving element cooperating with the contact holder is shaped symmetrically with respect to the common symmetry plane of the fixed contacts, while the cooperating surface of the contact holder is shaped asymmetrically with respect to the common symmetry plane of the movable contacts. The surface of the rigid moving element cooperating with the contact holder is purposefully shaped into a surface perpendicular to the common symmetry plane of the fixed contacts, and the mating surface is shaped with an inclination perpendicular to the common symmetry plane of the movable contacts.

156 112

A further advantageous embodiment envisages providing the arm with a spring biased recess extending in the axial direction. At the end facing the fixed contacts vertically to the common plane of symmetry of the fixed contacts, it is delimited by a surface, the flat contact holder passing through the recess being pressed against this inclined surface by a spring.

In a further advantageous embodiment, a hole is provided in the center of the spring-loaded relative to the fixed contacts of the contact holder through which the rigid moving element, spring-biased to break the connection, passes. A flange is formed on the section of the handle facing the contact holder. On the side facing the contact holder in a direction perpendicular to the symmetry plane of the fixed contacts, it is delimited by an inclined plane.

Finally, preferably, a recess is formed in the middle section of the rigid actuator tensioned to break the circuit by a spring, through which the contact holder which is spring-biased against the fixed contacts passes, and on one side of the recess an abutment surface is formed above the contact holder.

The solutions according to the invention make it possible to achieve that the movable contact holder rotates in relation to the longitudinal axis during opening and closing of the connection, so that the movable contacts slide on the surfaces of the fixed contacts and self-cleaning is carried out.

The subject matter of the invention is illustrated in the drawings in which Fig. 1 shows a schematic sectional view of an ignition switch of a motor vehicle with a contact arrangement according to the invention, the contacts being in the closed position; Fig. 2 is a section taken along line A-A in Fig. 1; Fig. 3 shows the embodiment of Fig. 2, in which the contacts are in the open position; Fig. 4 shows another preferred embodiment of the contact arrangement of Fig. 2; Fig. 5 is a top view of the movable contact holder of Fig. 4; Fig. 6 shows a further preferred embodiment of the contacts according to the invention, the contacts in the rest state; Fig. 7 is a section taken along line B-B in Fig. 6; Fig. 8 shows a further embodiment of the invention with the contacts in idle state; Fig. 9 is a section taken along line C-C in Fig. 8; Fig. 10 shows a further possible embodiment of the subject of the invention, with the contacts in idle state; Fig. 11 is a section taken along line D-D in Fig. 10; Fig. 12 shows a further preferred embodiment of the invention, in which the contacts are in the open position; Fig. 3 is a section taken along line E-E in Fig. 12.

The actuator of the switch shown in Fig. 1 consists of a key-turned cylinder 2 housed in the body 1 and a control ring 3 connected to it. There is a recess 4 on the face of the ring. Naturally, any structure having a control ring-like design can be used as a drive. 3 rotary element with recess.

In the insulating casing 10 of the ignition switch there is a contact system according to the invention, consisting of two fixed contacts 5 and a bridging one, including two movable contacts 7, a holder 6 of contacts. In the opening of the housing 10, the movable element 8 can slide axially, and two springs 9 are also provided. Naturally, the housing 10 must have as many contacts as the current circuits are to be operated by the switch. For each, one recess 4 is made in the front face of the control ring 3.

As it can be seen in Fig. 2, in the shown embodiment of the subject of the invention, the surface 11 of the rigid movable element 8, cooperating with the contact holder 6, is shaped with an inclination in the direction perpendicular to the common plane of symmetry 12. The holder 6 is formed of a plate parallel to contact plane 7, which is guided in the opening of the housing 10 against the fixed contacts 5. Springs 9 are arranged symmetrically with respect to the common plane of symmetry of the movable contacts.

Figures 4 and 5 show a preferred embodiment of the invention, in which the sloping surface 11 of the rigid mobile element 8 and the mating surface of the contact holder 6 extend on one side in the direction of the inclination. A projection 15 is formed on the extension 14 of the contact holder, at the end directed towards the movable element.

The figures explain the operation of both exemplary embodiments. As soon as the cylinder 2 and with it the control ring 3 are turned, the bevelled end of the cavity of the movable element 8 slides in

156 112 gradually into the housing 10, overcoming the force of the springs 9. The edge of the bevelled surface 11 adjacent to the contact holder presses against it, whereby it pivots about its longitudinal axis until the beveled surface 11 abuts it. Now, due to further movement, the moving contacts separate from the fixed contacts and the electric circuit is interrupted. On switching on, when the control ring 3 rotates from the position shown in Fig. 3 in the opposite direction, the movable element 8 is lifted by the springs 9 upwards out of the housing 10 and engages the recess 4 of the control ring 3. As a result, the handle 6 is it is shown in the drawing - it is obliquely positioned after element 8 until contacts 5 and 7 connect. Then, the handle 6, released from the pressure of the surface 11, will return to the horizontal position shown in FIG.

The embodiment according to Figs. 6 and 7 differs from the previously shown solution in that the surface 16 of the contact holder 6 cooperating with the movable element 8 is shaped as inclined in the direction perpendicular to the symmetry plane 13 of the movable contacts 7. The mating surface of the movable element 8 constitutes a perpendicular plane. for the common plane of symmetry of 12 fixed contacts. In terms of operation, this solution fully corresponds to the embodiment shown in Fig. 2.

In the embodiment according to Figs. 8 and 9, the spring 17 presses the rigid movable element 8, guided in the housing 10 against the face of the control ring 3. In the movable element arm 8 there is a recess 18 extending in the axial direction, delimited at the end facing the fixed contacts. 5 with an inclined surface 19. The movable contact holder 6 made of a flat plate passes the recess 18 and is pressed by a symmetrically mounted spring 9 against the inclined surface 19 and fixed contacts 7.

When the control ring 3 is rotated, when the recess 4 in the face of the ring 3 (not shown here) is opposite the end of the movable element, it begins to slide out of the housing 10 by the action of the spring 17. At this time, the contacts 5 and 7 under the action of the spring 9 are closed until the contact holder 6 - after reaching the higher end of the inclined surface 19 - turns with respect to its axis and adheres to the surface 19. Further shifting of the element 8 moves the contacts 7 away from the contacts 5. When switching on, the process is reversed. The movable element 8 moves into the housing 10, the handle 6 adheres to the inclined surface 19 until the movable contacts 7 come into contact with the fixed contacts 5. During further movement of the movable element, the contact holder is separated from the inclined surface 19 and, under the action of the spring 9, rotating about the longitudinal axis returns to its horizontal position.

Figures 12 and 13 show a further preferred embodiment of the subject of the invention. Here, the central section of the rigid movable element 8 has a recess 24 through which the movable contact holder 6 passes, parallel to the contact plane 7. The recess at the end facing the contacts 5 is limited by a horizontal plane against which the holder 6 is pressed by spring 9. At one end of the recess an abutment surface 22 protruding above the handle 6 is formed. The element 8 is pressed out of the housing 10 by a spring 17.

When the switch is turned on, the control ring 3, not shown here, slides the movable element 8 into the housing 10. During this time, the contact holder 6 lies on the horizontal surface of the window 24 until the movable contacts 7 reach the fixed contacts 5. After compression of the spring 9, it separates he from this surface. As the element 8 continues to move, the abutment surface 22 contacts the edge of the handle 6 and presses it downwards. As a result, it rotates with respect to its longitudinal axis until the element 8 is at rest. When turned on, when the control ring 3 is turned, the recess 4 overlaps the movable element 8 and the spring 17 moves the movable element out of the housing 10. At this time, the handle 6 is released from the pressure of the abutment surface, rotates under the influence of the spring 9 and rests on the horizontal surface window 24. When further movement of element 8 has now taken place, the circuit is broken.

The subject matter of the invention has numerous advantages, and, taking into account the partial solutions, it is possible to obtain many preferred versions that achieve the object of the invention.

Claims (8)

Patent claims A changeover contact system, in particular for the ignition of motor vehicles, in which two contacts oriented in one direction, oriented in close proximity to each other, are bridged with a rigid holder carrying movable contacts directed towards each of the fixed contacts directed in the opposite direction to them, and made of electrically conductive material, the handle being a rigid movable element connected to the actuating mechanism, which, under the action of at least one cooperating spring supported on the contact holder symmetrically with respect to the common central axis of the movable contacts, is movable towards the fixed contacts, moving from position switching to the disconnecting end position, characterized in that the mating surfaces of the rigid moving element (8) and the contact holder (6) are formed asymmetrically with respect to each other, in a direction perpendicular to the common symmetry (12) of the fixed contacts. 2. The system according to claim A device according to claim 1, characterized in that the movable contact holder is a plane parallel to the plane of the contact base, the mating surface (11) of the rigid movable element (8) being shaped obliquely in a direction perpendicular to the common symmetry plane (12) of the fixed contacts. 3. The system according to p. A device as claimed in claim 2, characterized in that the cooperating surfaces of the handle (6) and the movable element (8) extend in the direction of the inclination, and an introduction (15) is formed at the end of the handle extension (14) on the side facing the movable element (8). 4. The system according to p. The method according to claim 1, characterized in that the surface of the rigid movable element cooperating with the contact holder is a symmetrical surface in relation to the common symmetry surface of the fixed contacts, the surface (16) of the holder (6) cooperating with the movable element (8) being asymmetrically shaped in the perpendicular direction. to the common plane of symmetry of the movable contacts. 5. The system according to p. 4. The method according to claim 4, characterized in that the surface of the rigid movable element cooperating with the contact holder is a surface perpendicular to the common symmetry plane of the fixed contacts, the mating surface (16) of the contact holder (6) being shaped obliquely in the direction perpendicular to the common symmetry plane (13) of the contacts. moving. 6. The system according to p. A recess according to claim 2, characterized in that a recess is formed in the arm of the movable element, which is spring loaded to break the circuit, through which the contact holder passes under tension in the direction of the fixed contacts, wherein the oblique surface of the rigid movable element (8) cooperating with the handle (6) is formed by with the surface delimiting the recess (18) at the end facing the fixed contacts (5). 7. The system according to p. A method according to claim 2, characterized in that the movable element is spring-biased to break the connection and extends through an opening - which is formed in the center of the contact holder spring-biased towards the fixed contacts - and at the end facing the fixed contacts is a flange whose diameter is larger than this opening, wherein the sloping surface of the rigid moving element (8) cooperating with the contact holder (6) is the plane of the flange (23) adjacent to the contact holder (6). 8. The system according to p. A recess according to claim 1, characterized in that a recess is formed in the middle section of the rigid movable element, which is spring loaded to break the connection, in which a horizontal abutment surface is provided at the end facing the fixed contacts, the recess being provided with a flat contact holder spring loaded against the contacts fixed, and on one side of the window (24) a counter surface (22) is formed above the contact holder (6).