DE2104979A1 - Magnetic rotary switch - Google Patents

Description

2104979 Andrejewski & Honke patent attorneys

Physicist Dr. Walter Andrejewski μ ι. «, ^,, Diploma in civil engineering

Law files: 36 294 / Ns = _{Dr | ng # Manfred Honke}

Essen, February 2, 1971 Kettwiger Strasse 36

Patent application
Elettronica Aster SRL
Via Candiani, 98
M i 1 a η ο / Italy

"MagHietic rotary switch"

Rotary switches are known, which consist of elastic lamellae which, as they rotate, touch other, rigid lamellae and close contacts assigned to these lamellae. The opening and closing of the contacts is effected with the moving lamellae moving at a low speed of movement.

109835 / U5Ö

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

If the contacts are to be opened and closed quickly, microswitches are used as usual are equipped with knee spring systems and are operated by buttons that open and close the Make contacts at high speed and regardless of the speed of advance of the buttons. Will be a Series of microswitches with mechanical snap-action arranged on the circumference of a cam on a shaft, this is a complicated, space-consuming and costly one Training.

Magnetic switches, commonly referred to as "proximity switches", are also known and have a Have permanent magnets «which, when approaching two ferromagnetic contacts, causes them to open or close, the contacts are usually housed in an airtight box and the magnetic control over a diamagnetic septum takes place · The well-known proximity magnet switches are only provided with a single movable contact.

The invention is intended to create a magnetic rotary switch with quick release * which has several arresters with a number of contacts, which can be opened or closed suddenly, ie at a speed that is independent of the speed of the rotary switch. Furthermore, such a switch should be designed and manufactured in a simple manner and only require a small amount of space.

109838/1456

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Keftwiger Strasse

This is done in the case of a magnetic rotary converter with several arresters arranged on the circumference of a housing » each of which consists of two fixed contacts and one movable contact between them, which is connected to a Permanent magnet is connected, which is preferably designed as a magnetic ring sector surface with has at least two poles assigned to the fixed contacts, with a further, rotatable, preferably on a shaft arranged permanent magnet is provided, the ring-shaped and in the effective area of with the Moving contacts connected permanent magnets is arranged, achieved when according to the invention of the rotatable Permanent magnet on the side facing the movable contacts a preferably ring sector-like, the shape of the has the movable contacts attached permanent magnets corresponding cross-section with at least three Poles are provided with lateral magnetization, which poles essentially have the shape of three, preferably concentric Have rings, the middle one represents one pole, while the second pole through the two lateral ones Rings is formed, wherein one of the side rings is interrupted at at least one point and the two other rings are bulged in the direction of the interruption point of the side ring, such that in the bulge of the one, preferably middle ring, the bulge of the adjacent ring of opposite polarity engages.

The invention is explained in more detail below with reference to two exemplary embodiments shown in the drawing; show it:

109835/1456

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

Fig. 1 shows an Axialsohnitt through a first. Embodiment of a magnetic rotary switch,

FIG. 2 shows a plan view of part of the rotary switch shown in FIG. 1, the arresters being visible are,

Fig. JJ the movable permanent magnet of the in Fig. 1 rotary switch shown in an axial section,

FIG. 4 shows a bottom view assigned to FIG. 3,

FIG. 5 is a plan view of that shown in FIG. 3 Permanent magnets,

Fig. Β shows an axial section through the second embodiment a rotary switch and

7, 8 and 9 are axial sections, one rare and one Top view of the permanent magnet used in the exemplary embodiment according to FIG. 6.

The rotary switch according to FIGS. 1 to 5 has a housing consisting of a lower part 1 and an upper part 7 on which ten arresters are arranged distributed over the circumference, each of which consists of a rigid inner Contact 2, a rigid outer contact 3 * and off there is a movable contact 4 which can be adjusted between the contacts 2 and 3. Warehousing of the movable contact 4 takes place according to FIG. 1 on a pin 5 · On the movable contact 4 is a

109835 / U56

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

Fixed permanent magnet 6, the free surface of which is formed like a circular arc in axial section. The center of the circular arc lies in the axis of the pin 5 »The Permanent magnet 6 has two poles of different polarity which point to fixed contacts 2 and 3 are aligned.

A permanent magnet 8 is attached to the upper part J of the housing, which is designed as a disk-shaped ring, the surface of which facing the arresters has ten pole pairs with lateral magnetization, these poles being arranged radially on the surface of the permanent magnet 8 with strips of alternating polarity analogous to the Form representation in FIG. 4.

In the upper part 7 of the housing, a shaft 9 is rotatably mounted about its axis. At the end of the shaft 9 protruding into the housing, a further permanent magnet 11 is attached, which is designed as an annular disk. On the side facing the stationary permanent magnet 8, the movable permanent magnet 11 has ten pole pairs with lateral M magnetization, which are arranged radially, as can be clearly seen from FIG. The poles of the movable permanent magnet are similar to the poles of the fixed permanent magnet 8.

The surface of the movable permanent magnet 11 facing the movable contacts 4 is in the form of a circular arc in axial section formed and adapted to the shape of the permanent magnets 6 attached to the movable contacts 4, as shown in FIGS. 1 and 3 is evident. on

109835 / U56

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

This side of the movable permanent magnet 11 excludes three poles with lateral magnetization, which have the shape of three concentric rings with different diameters (Fig. 5) * with the middle ring representing one pole, while the second pole is formed by the two side rings is. 5 that the ring with the smallest diameter is interrupted at the point marked A on the movable permanent magnet 11, while the other two rings are bulged against the interruption point, so that in the area of point A each ring has a section has opposite polarity from the polarity of the ring under consideration, as can be clearly seen from FIG.

The radially arranged PoI strips provided on the mutually facing surfaces of the permanent magnets 8 and 11 have the purpose of holding the shaft 9 with the permanent magnet 11 exactly in the desired position. When the shaft 9 rotates, it holds such angular positions in which the point A of the movable permanent magnet 11 in relation to one of the permanent magnets 6 of the movable Contact 4 is aligned.

The permanent magnets 6 and thus also the movable contacts 4 assume that position in which a pole on the movable permanent magnet 11 to the opposite Pole on the permanent magnet 6 of the movable contact 4 is opposite. This is how the moving contact lies 4 in the embodiment shown in FIGS. 1 to 5 for all arresters with the exception of the one in FIG shown on the left (in the area of point A of the moving

109838/1460

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

union permanent magnet 11 located arrester) on the inner contact 2, whereas the one in the area of the point A of the movable permanent magnet 11 located movable contact 4 rests against the outer contact J3. Will If the shaft 9 is now rotated, the movable contact 4 shown on the left in FIG. 1 jumps from the outer contact j5 to the inner contact 2 and that in the direction of movement of wave 9 that in Pig. I movable contact shown on the left 4 adjacent, also movable Contact 4 jumps from inner contact 2 to outer contact 3. The in the Embodiment shown in the drawing, all movable contacts 4 except the one that is currently in the area of point A of the movable permanent magnet

11 is located, in contact with the inner contacts 2; while the point A of the permanent magnet 11 is in the direction of movement the contact 4 adjacent to the point A, which is still in contact with the inner contact 2, becomes this contact 4 is still pressed against the inner contact 2 with increasing force until a maximum pressure point has been reached the polarity changes and the permanent magnet 6 with the relevant movable contact 4 violently after the other Page is pushed until it rests against the adjacent outer contact 5. The switching speed of the movable Contacts 4 is independent of the speed of the shaft 9 and the permanent magnet connected to it 11.

The rotary switch according to FIG. 6 has a rigid housing

12 with ten arresters, each of which consists of a rigid inner contact 13, a rigid outer contact

109835 / U56

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

14 and a movable contact 15 which carries a permanent agent 16 and is designed similar to that is the one in the Pig. I to 5 shown embodiment of a rotary switch is used.

The rotary switch according to FIGS. 6 to 9 has a movable tubular permanent magnet If , which is shown in detail in FIGS. 7 to 9. The permanent magnet 17 is installed between two disks 18 and 19 which are rotatably mounted on a fixed shaft 20 and forms part of a stepping motor with windings 21. The stepping motor also has a permanent magnet 22 which forms the stator part of the stepping motor. The permanent magnet 22 carries ten pole pairs with lateral magnetization on the side adjacent to the movable permanent magnet 17. An equal number of pole pairs with lateral magnetization is provided on the cylindrical inside of the movable permanent magnet 17, as can be seen from FIG. 7.

On the outside, the permanent magnet 17 has an annular groove with a circular arc-shaped cross section, which the Shape of the permanent magnets 16 on the movable contacts

15 is adapted, as can be seen in particular from FIGS. In the annular groove of the permanent magnet 17 has three poles with lateral magnetization, as shown in FIG. 8 is visible · The three poles form the essential ⁶ loan per a ring and are arranged to each other. The rings have the same diameter and are offset from one another in the direction of the axis. The middle ring represents a pole and the two rings on its side form the opposite pole. In

■ 109836 / UB6

Patent attorneys Dr. W. Andreiewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

of a similar nature as already referred to in the Pig. 1-5 illustrated design of the rotary switch is interrupted at point B of the ring-shaped poles (lateral poles) and the other two ring-shaped poles are against this point of interruption of the worse pole provided with an indentation in which a pole with lateral magnetization opposite sign as that of the adjacent annular poles engages. The mode of operation of the rotary switch is analogous to that in the Pig. 1 to 5 shown rotary switch after each Step of the stepping motor position B of the movable permanent magnet 17 successively on a specific permanent magnet 16 is aligned, which with a snap movement from a position in which he is on an inner Contact Ij5 is applied, passes into a position in which it comes to rest on an external contact 14. In this case, too, is the speed at which the moving Contact 15 changes from an inner contact 13 to one outer contact 14 moves independently of the speed of rotation of the permanent magnet 17 and thus also of the speed of rotation of the stepper motor.

From the foregoing it is easy to see that the magnetic rotary switch is simply designed that the movable Contacts 4 and 15 of the arrester are only actuated by the action of a magnetic field, which means that nothing mechanical wear is caused and therefore the risk of damage due to wear and tear is excluded. The switchover is extremely quick and the movable contacts 4 and 15 of the individual arresters become duroh the magnetic field of the movable permanent biagnete assigned to them 11 or 17 held securely in the respective contact position »

10983B / 14S6

Claims (4)

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse - 10 - Patent Claims V ι. !fa" 1. ^ Magnetic rotary switch with several on the circumference <§ "arresters arranged in the housing, each consisting of There are two fixed contacts and one movable contact between them, the one with a permanent magnet is connected, the one preferably designed as a magnetic ring sector surface with at least two the Has fixed contacts assigned poles, with a further, rotatable, preferably arranged on a shaft Permanent magnet is provided, which is ring-shaped and in the active area of the with the movable contacts connected permanent magnet is arranged, characterized in that the rotatable permanent magnet (11; 17) on the movable Contacts (4, 15) facing side preferably a ring sector-like, the shape of the movable contacts (4, 15) attached permanent magnets (6, 16) has a corresponding cross-section with at least three poles is provided with lateral magnetization, which poles essentially have the shape of three, preferably concentric Have rings, the middle of which represents one pole, while the second pole through the side rings at least one point (A, B) is interrupted and the other two rings in the direction of the interruption point of the side ring are bulged in such a way that in the bulge of one, preferably middle ring, the bulge of the adjacent ring is opposite Polarity takes effect. 109835 / U56 Patent attorneys Dr. W. Andrejewski, Or. M. Honice, 43 Essen, Kettwiger Strasse - 11 - 2. Magnetic rotary switch according to claim 1, characterized in that that on the side of the movable permanent magnet facing away from the movable contacts (4, 15) (11, 17) a stationary permanent magnet (8,22) is arranged, the pole pairs with lateral magnetization in one Number of arresters has the same number and also the stationary permanent magnet (8, 22) adjacent Area of the movable permanent magnet (11, 17) pole pairs with lateral magnetization in one of the number the arrester has the same number * 3. Magnetic rotary switch according to claim 1 or 2, characterized in that both the stationary permanent magnet (8) and the movable permanent magnet (11) are designed as a disc and are arranged parallel to one another, the pole pairs facing each other Surfaces of these disks are arranged radially with respect to the common axis of the two disks, while the pole rings on the moving contacts (4) facing side are arranged at a radial distance from one another and concentrically to one another (Fig. 1). 4. Magnetic rotary switch according to claim 1 or 2, characterized in that the stationary permanent magnet (22) belongs to the stator part of an electric stepping motor and the movable permanent magnet (I7) is a cylindrical tubular body which is part of the rotor of the Stepper motor forms and that the pole rings are coaxially arranged at an axial distance from each other 109835 / U56 Blank page