DE1171497B - Magnetically operated multiple rotary switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 02 c

German class: 21c-40/01

Number: 1171 497

File number: J 20228 VIII d / 21 c

Filing date: July 13, 1961

Opening day: June 4, 1964

The invention relates to a magnetically actuated multiple rotary switch in which a magnet arrangement executes a circular motion and magnetically influenceable limbs along the outer Circle are arranged on which the magnet assembly rotates past and in this Passage or movement of the magnet in the vicinity of the magnetically influenceable members this controls.

In previously known designs of this type, the magnet arrangement (or each individual Magnet, which executes a circular path) only the mentioned magnetically influenceable members or Protection tube anchor contacts. In this known design, the armature contacts are actuated by the magnet arrangement as a function of the relative position of the magnet arrangement to the thermowell anchor contacts rapidly progressing instead, so that if z. B. is desired, to switch a thermowell armature contact within a small orbit of the magnet, it is necessary these protective tube armature contacts at a relatively large distance from the orbit of the magnet to be installed, because the protective tube armature contacts after closing due to the influence of the nearby magnetic field poorly or not at all. But even this measure does not lead to reliable switching of the Protection tube anchor contacts.

The invention has the task of beginning and ending the influencing of the protective tube armature contacts to delimit more sharply by the magnet arrangement, so that it is possible to define exact boundaries of activity and to create a usable time between these limits in which the The thermowell armature contacts are properly closed or open. According to the invention, this is thereby achieved achieves that small, less strong permanent auxiliary magnets on the rotatable part of the Switches are arranged in the direction of rotation before and after the main permanent magnet, their polarity opposite to the polarity of the main permanent magnet.

The arrangement of these auxiliary magnets with opposite polarity to the main magnet allows to solve the problem posed in the object of the invention.

The invention is described with reference to drawings. In the drawings shows

Fig. 1 shows a switch according to the invention in principle and in a perspective view,

F i g. 2 is a side view of the rotating middle part made of non-magnetic material, which is used for Magnetically operated multiple rotary switch

Applicant:

International Standard Electric Corporation,
New York, NY (V. St. A.)

Representative:

Dipl.-Ing. H. Ciaessen, patent attorney,

Stuttgart W, Rotebühlstr. 70

Named as inventor:

Floras Gerardus Marivriens, Antwerp (Belgium)

Claimed priority:

Belgium of July 15, 1960 (593 021)

Used to hold the various magnets, cut drawn,

F i g. 3 Upper and lower part of the rotating middle part as in F i g. 2 shown between those the individual magnets are attached, in perspective and

Fig. 4 is a side view of a holder for a protective tube armature contact which, as shown in FIG. 1 shown on the inside of the outer circle of the Switch is mounted.

F i g. 1 shows a basic arrangement of a rotary switch in a perspective illustration. The magnetic switch consists of two rings 1 and 2 that form a circular frame. On the inside of these rings, protective tube armature contacts are arranged at a distance from one another. An axis 3 is arranged in the center of these rings and a part 4 made of non-magnetic material is fastened on this axis 3. As in Fig. 2, a part 5 is placed on the part 4 in such a way that the surfaces 6 and 7 of the parts 4 and 5 lie on top of one another in the assembled state. Between these parts 4 and 5, as can also be seen from FIG. 3, the main magnet 8 and the auxiliary magnets 9 and 10 are fastened. In this arrangement, the main magnet 8 and the auxiliary magnet 9 are fastened to the part 4 and the auxiliary magnet 10 to the part 5 (FIG. 3). After the parts 4 and 5 have been assembled, as described under FIG. 2, the individual permanent magnets 8, 9 and 10 are held at a certain distance from one another in the halves 4 and 5 which have been joined together to form one part. Part 5 is through

409 598/395

Screws 11 and 12, which are inserted through angled elongated holes 13 and 14, held in the threaded holes 15 and 16 in part 4. The slightly angled or semicircular threaded holes 13 and 14 make it possible to adjust the distance between the main magnet 8 and the auxiliary magnet 10. The auxiliary magnets 9 and 10 have, as shown in FIG. 1 shows, compared to the main magnet 8, an opposite polarity. If the shell halves 4 and 5 combined into one part, between which the magnets 8, 9 and 10 are arranged, and which are mounted on the axis 3, are set in a rotary movement about the axis 3, the opposite polarity of the individual permanent magnets results for the protective tube contacts 17 held on the outer rings are a perfect switching criterion. The previously known switches of this type, however, have the disadvantage that, for. B. at a higher speed of the parts arranged on the axis 3 or if the distance between the rotating permanent magnet and the protective tube contacts 17 arranged around them was too small, the protective tube contacts 17 were not properly switched off, since remanent phenomena within the tongues of the protective tube contact 17 caused a bare Weakening, ie decreasing the magnetic field by further turning the permanent magnet, was not sufficient to cause the tongues attracted by the field of the permanent magnet to drop after the permanent magnet had rotated past the protective tube contact 17. Because the HUfsmagneten 9 and 10 are made smaller than the main magnet 8, there is a magnetic field around the auxiliary magnets 9 and 10, which is sufficient to bring the tongues of the protective tube contact attracted by the main magnet 8 to waste, but not so what is strong is that re-tightening occurs with opposite polarization. At a certain number of revolutions of the axis 3, the time that the individual protective tube contact 17 remains attracted by the magnetic field of the main magnet 8 can be set. In the direction of the rotary movement, an auxiliary magnet 9 and an auxiliary magnet 10 are thus arranged in front of and behind the main magnet 8. The shortening of the orbit is also properly limited by the difference between the intensity of the field that is necessary to switch the contact and the intensity of the field that is necessary to open the contact.

In Fig. 4, a side view of a holder is shown in which the protective tube armature contacts 17 are attached. As already described in FIG. 1, this holder is attached to rings 1 and 2. On a plate 18 made of insulating material, metal bent in a U-shape are provided at both ends of the plate 18 Eyes 19 and 20 attached. The eyelets 19 and 20 are above the plate 18 in both directions out, with one cranked side for clamping the ends of the protective tube contact 17 and the other angled side serves as a solder connection. On the back of the insulating plate 18 is a L-shaped bracket 21 attached. The bracket 21 has an elongated hole in which a part 22 by means of a Screw 23 is slidably attached. The lower part of part 22 is made somewhat thicker at point 25, namely so that it is inserted between the rings 1 and 2 (Fig. 1), the distance between fills rings 1 and 2. After the part 22 with its thickening 25 between the rings 1 and 2 is used, a part 26, which is provided with lugs on the outer edge of the outside Rings 1 and 2 act, put on and fastened to part 22 at point 25 by means of a screw 27. The point 28 of the part 26 is just like the point 25 of the part 22 designed so that the between the space provided for rings 1 and 2 is filled. In FIG. 1 is on the Rings 1 and 2 only show a holder for a protective tube contact 17. It goes without saying that, depending on the requirements, several brackets with protective tube contacts 17 in the inner circle can be used in a circle. The elongated hole in the L-shaped angle 21 allows when released Screw 23 to adjust the distance between the rotating part carrying the permanent magnets and the individual protective tube contacts 17. By loosening the screw 27 and thus loosening the cover plate 26 it is possible to use the individual holders for the protective tube contacts 17 as required to be adjusted within the circular path determined by the ringlets and 2. This results in the Possibility that the switching times of the contacts with each other with a constant rotation of the rotating Part are variable.

Claims (6)

Patent claims: 1. Magnetically operated multiple rotary switch with a permanent magnet in the rotating part is arranged, which describes a circular movement, and with one revolution of the same protective tube armature contacts, which are arranged in a circle around this magnet arrangement, switches, thereby characterized in that small, less strong permanent auxiliary magnets (9 and 10) before and after (seen in the direction of rotation) the main permanent magnet (8) are arranged, their polarity is opposite to the polarity of the main permanent magnet (8). 2. Switch according to claim 1, characterized in that the main magnet (8) and a first Auxiliary magnet (9) are attached to a part (4), while the second auxiliary magnet (10) to one another part (5), which is placed on the part (4), is attached so that the second auxiliary magnet (10) is seen in the direction of rotation after the main magnet (8), and that the distance between the second auxiliary magnet (10) and the main magnet (8) through semicircular slots (13 and 14) is adjustable in the upper part (5). 3. Switch according to claim 1 and 2, characterized in that the protective tube contacts (1) are arranged in brackets that lie parallel to each other between two at a certain distance Rings (1 and 2) attached to the rotating part (3, 4 and 5) and those attached in it Magnets (8, 9 and 10) are arranged concentrically and that the brackets in which the protective tube armature contacts (17) are attached are, in the direction of the rotatable magnets (8, 9 and 10) to and on the circular path that formed by the two rings (1 and 2) are adjustable. 4. Switch according to claim 1 to 3, characterized in that each of the brackets on a plate (18) made of insulating material is arranged, at the outer ends of which clamps (19 and 20) made of electrically conductive material are arranged, in which the connection ends of the protective tube contacts are held. 5. Switch according to claim 1 to 4, characterized in that on the insulating plate (18) the holder, approximately in the middle, an L-shaped bracket (21) is attached to its free standing arm an open slot (24) is attached, and that on this bracket (21) by means a screw (23) an F-shaped part (22) is attached, which with its thicker part (25) in the space between two rings (1 and 2) and is held there by a cover plate (26). 6. Switch according to claim 1 to 5, characterized in that the elongated hole (24) is formed is that the distance between a protective tube contact (17) and the rotatable permanent magnet (8, 9 and 10) is adjustable. 1 sheet of drawings 409 598/395 5.64 © Bundesdruckerei Berlin