DE1082629B - Switching device with several buttons and with protection tube anchor contacts - Google Patents

Description

German

The invention relates to a switching device with several keys combined to form a keyboard and with protection tube armature contacts that are operated by permanent magnets. Such key switches are used in telecommunications systems or other information processing systems where different control characters are sent out in code form, e.g. B. at subscriber stations in telephone systems or in computer systems.

In the switching device according to the invention, protective tube armature contacts are used, for example of two overlapping ones located within a protective tube made of glass or some other insulating material and leaf springs forming the contact point or from piston contacts reciprocated within the protective tube exist. It is known that these contacts are controlled by a variable magnetic field, that is generated outside the protective tube. The change in the magnetic field in the area of the contact points takes place by switching an electric coil on and off or by making a permanent magnet special the flux guide pieces leading to the contact point are approached and removed by turning or shifting will. The change in the magnetic field can also be achieved by short-circuiting the permanent magnet.

It is known to use protective tube armature contacts of this type in button-controlled switching devices. In a known device of this type, a permanent magnet is used as a key button on one perpendicular to the protective tube armature contact arranged leaf spring attached. When the leaf spring is pressed down, the permanent magnet becomes approached the associated protective tube armature contact and actuated it.

It has also been proposed an arrangement with a plurality of keys, in the case of the key bodies that are arranged in the manner of a matrix, one or more permanent magnets preferably each at 90 ° to one another are arranged. When one of the buttons is pressed, the associated permanent magnets are shifted in the longitudinal direction and actuate those protective tube armature contacts that are closest to the key body. Such an arrangement makes it possible to use the control characters assigned to each key in code form can be sent out.

The use of protective tube armature contacts has such button-controlled switching devices the advantage that they can also be used in systems at risk of explosion. But you need in the Relation to the code characters to be sent and thus in relation to the number of keys required large number of thermowell anchor contacts and their associated permanent magnets.

The invention avoids the disadvantages of the known switching devices in that switching device with several buttons
and with thermowell anchor contacts

Applicant:
Standard electrical system Lorenz

Corporation,
ίο Stuttgart-Zuffenhausen,

Hellmuth-Hirth-Str. 42

Dipl.-Ing. Hoeckley Oden, Korntal (Württ.),
has been named as the inventor

ao coordinate-wise arranged coupling members are provided, at the crossing points of which permanent magnets carrying keys are arranged, and that when the keys are pressed the one coupling members in the one direction and the other are moved in the direction perpendicular thereto in such a way that thereby the protective tube armature contacts assigned to the coupling links are actuated individually or in combination will. The pressure point required for key switches is thereby determined according to a further embodiment of the invention achieved that the coupling members are held in their rest position by a magnetic force and against a spring force, which returns the coupling members to their rest position, are moved. Magnetic force and Spring force act against each other during the movement of the coupling members, so that when they are pressed down a key initially requires a great force, which then becomes smaller. This has the advantage of that the keys and thus the coupling elements do not stop halfway, but always theirs occupy both end positions.

According to a further embodiment of the invention, the coupling members can be rod-shaped or strip-shaped be. In the first case, the coupling members are expediently moved by rotation, and in the second by moving. In the coupling rods, the permanent magnet is according to a further embodiment of the invention expediently attached to one end of the rods and magnetically short-circuited in its rest position. at With a push of a button, the rod and thus the permanent magnet rotates through such an angle that the permanent magnet on the one hand is pivoted out of the area of the short circuit and on the other hand a field on the Contact point of the anchor contact generated, which is sufficient to operate this. In this working position of the permanent

Ο0Θ S28 / 206

magnets, special flux guide pieces can be arranged. The evaluation of the generated in this way Code characters are made according to a further embodiment of the invention by such a circuit arrangement, in which the protective tube armature contacts on the one hand directly or via blocking switching means on a common Potential and, on the other hand, in rows and rows with one and the other wire of a connecting line are switched on, so that according to the principle of reversing the current direction, an evaluation of the Code character is possible.

The invention is explained in more detail below with reference to two exemplary embodiments shown in FIGS. 1 to 3 explained. It shows

Fig. 1 shows a basic arrangement of the switching device according to the invention, in which the coupling members are strip-shaped,

FIG. 2 shows a further exemplary embodiment of a switching device, the basic structure of which is that of FIG. 1 corresponds and the coupling members are designed as rods, and

3 shows a circuit arrangement for evaluating the values generated by the switching devices according to FIGS. 1 and 2 Code characters.

The switching devices shown in principle in FIGS are only equipped with the items necessary to understand the invention. Special Function types are omitted for the sake of clarity. For example, the individual Keys that are arranged according to a matrix are mutually arranged in rows or rows in a known manner trigger.

The switching device shown in Fig. 1 consists of coordinate-like arranged strip-shaped coupling members X and Y. They are connected to a base plate 1 via leaf springs 2 and 4. They are held in their rest position as shown by permanent magnets 3 and 5, which are attached to the side walls 11 of the base plate 1 in a magnetically insulated manner. Since the strips X and Y simultaneously carry the permanent magnets 6 required to actuate the protective tube armature contacts α to i , they must be made of insulating material, or the permanent magnets 6 are attached to the strips X and Y in a magnetically insulated manner. If the strips X and Y are made of an insulating material, they are held by the permanent magnets 3 and 5 by the springs 2 and 4. The permanent magnets 6 are arranged on the strips X and Y in such a way that in the rest position of the coupling members X and Y they lie to the side of the contact point of the protective tube armature contacts α to i and are shifted into the area of the contact points when the strips are moved. For circuit reasons, the strip Xl is not assigned a protective tube armature contact. The protective tube armature contact α is not particularly drawn in FIG. 1. At the crossing points of the strips X and Y , these are provided with notches on the front side, one side of which is beveled. The keys T are arranged above these intersection points of the strips X and Y , which are arranged one above the other. The lower part of these keys T has two bevels arranged at different points and running perpendicular to one another, so that when the keys T are depressed, these beveled surfaces slide onto the inclined sides of the notches of the strips X and Y and move them laterally, namely the strips X in the direction of arrow Px and the stripes Y in the direction of arrow Py. This movement of the strips X and Y takes place against the spring force of the leaf springs 2 and 4. As is known, the magnetic force decreases with the distance from the permanent magnet and the spring force increases with the degree of deflection of the leaf spring. In the arrangement according to FIG. 1, these two forces counteract one another during the movement of the strips X and Y. The total force that has to be overcome by pressing the button is high at the beginning of the movement of the strips X and Y , but then decreases relatively quickly. This is because the magnetic force decreases with the distance from the magnet according to an exponential function, the spring force decreases with the

ίο deflection increases linearly.

It can now be achieved that the movement (displacement) of the strips is ended when the total force has reached a minimum. The keys T _1, which are individually designated with the indices of the coupling members X and Y actuated by them, are guided in a cover plate 7 in a known manner. The projections 8 prevent the keys T from tilting. The rest position of the keys T is determined by a leaf spring 9 which, with its angled free end, is inserted into a recess 10

ao of the buttons T click into place. The keys T can be locked in their working position in the same way or in another known way. The return to the rest position can also take place in a known manner, not shown, by means of a spiral spring.

FIG. 2 shows a section from an arrangement which basically corresponds to that of FIG. 1. The difference is that rods X ' and Y' are used as coupling elements, which are rotated in the directions of the arrows P'x and P'y by the keys T _1, which in this example are provided with the indices % ' and y'. For this purpose, the rods X 'have lateral projections 19 and 20, on which the projections 21 and 22 engage when one of the associated keys T is actuated. The individual rods X ', of which only one (X'2) is shown, are mounted on one end in the support 18 in a manner known per se. On the other side of the rods X ' and Y' , the bearing is used as a magnetic short circuit 17 for the permanent magnet 16 at the same time. This permanent magnet 16 is attached to the end of the rods X ' and Y' and is rotated with them. In the working position of the permanent magnet 16, which in this example is rotated by 90 ° (smaller angles are also possible) with respect to the rest position, special flux guiding pieces 15 are arranged, which serve to increase the flux for the armature contacts 12 in a known manner. The return of the permanent magnet and thus the associated rods X ' and Y' takes place in a known manner, not shown, by a spring force, for example by a spiral spring.

In FIG. 3, an example is shown in which the protective tube armature contacts a to f actuated by the keys T are evaluated in terms of the circuitry according to the predetermined coding.

Tasti Reference
sign > Designation
tion Actuated
Anchor contact relay C. 55 Tx IyI 1 d D. Txly2 2 e C ₁ D 60 TxIyZ 3 f A ₁ C Tx2yl 4th a, d A ₁ D Tx2y2 5 a !, & A ₁ C ₁ D Tx2y3 6th a, f B, C TxZyX 7th b, d B ₁ D 65 Tx3y2 8th b, e B ₁ C ₁ D TxZyZ 9 h, f A _x B ₁ C Tx ± y \ X c, d A ₁ B ₁ D Tx4y2 0 o.e. A ₁ B ₁ C ₁ D TxIyZ Y o, f 70

The table above shows which anchor contacts are actuated by the keys shown in FIGS. At the same time, the table shows which relays A to D respond when a certain key is pressed.

The protective tube armature contacts α to f are placed on the one hand directly or via rectifiers GIl to Gl 4 to a common potential and on the other hand in rows and rows to the wires Ll and £ 2 of a line connecting the subscriber station TN with the office E. If, for example, the button 5 is pressed, which has the reference symbols Tx2y2 or 2V2 / 2 in FIGS. 1 and 2, the protective tube armature contacts α and e are operated by moving, ie by shifting or rotating the coupling members X2 and Y2. According to the circuit arrangement in Fig. 3, the following two circuits are created:

1. Earth potential, GIl, a, Ll, B15, A, battery BaI, earth potential.

2. Earth potential, battery Ba2, D, G18, L2, e, GIt, earth ^a ° potential.

As a result, the relays A and D respond, which now initiate the execution of the code character transmitted by the key 5 in a known manner (not shown). If the switching device is used as a key switch of a telephone station, five pulses for setting connection switching means would be generated in this case. The mode of operation of the circuit in FIG. 3 when other code characters are transmitted can be taken from the table shown above without further ado.

If a switching device according to FIGS. 1 and 2 is used as a key switch in telephone stations, an auxiliary contact is generally required which must be actuated each time a key is pressed. The protection tube armature contacts g to i, which are actuated by moving the associated coupling elements Y , are used for this purpose. The auxiliary contacts g to i are electrically connected in series when they represent normally closed contacts and electrically connected in parallel with each other when they represent normally open contacts.

Claims (13)

Claims: 45 1. Switching device with several buttons and with thermowell armature contacts actuated by permanent magnets for facilities in telecommunications systems or other information processing systems, z. B. telephones or computer systems, characterized in that coordinated coupling members (X, Y) are provided, at the crossing points of which permanent magnets (6) carrying keys (Txy) are arranged, and that when the keys (Txy) are pressed, the one coupling members (X) are moved in one direction (Px) and the other (Y) in the perpendicular direction (Py) in such a way that the protective tube armature contacts (abisi) assigned to the coupling members (X, Y) are actuated individually or in combination . 2. Switching device according to claim 1, characterized in that the coupling members (X, Y) are moved against a spring force (spring 2) and are returned by this again to their rest positions. 3. Switching device according to claim 1 and 2, characterized in that the coupling members (X, Y) are held in their rest positions by magnetic force (magnets 3, 5). 4. Switching device according to claim 2 to 3, characterized in that the magnetic force and the spring force act against each other during the movement process of the coupling members (X, Y). 5. Circuit device according to claim 1 to 4, characterized in that the coupling members (X ', Y') are rod-shaped and the associated permanent magnets (16) are arranged at one of their ends. 6. Switching device according to claim 1 to 4, characterized in that the coupling members (X, Y) are strip-shaped and at their crossing points have notches on the end face, in which correspondingly formed sliding surfaces of the keys (Txy) engage and the coupling members (X, y) move in their longitudinal directions. 7. Switching device according to claim 1 to 6, characterized in that the permanent magnets (6) are attached laterally to the coupling members (X, Y) . 8. Switching device according to claim 1 to 7, characterized in that the protective tube armature contacts (a to i) are arranged parallel to the coupling members (X, Y) . 9. Switching device according to claim 1 to 5, characterized in that the coupling rods (X ', Y') have lateral paragraphs (19, 20) at their crossing points, on which paragraphs (21, 22) of the buttons (Tx ', y' ) attack during actuation and thereby turn the coupling rods (X ', Y'). 10. Switching device according to claim 1 to 5 and 9, characterized in that the permanent magnets (16) are arranged on the end faces of the coupling rods (X ', Y') and when rotating the same in such a position to the protective tube armature contacts (a to i) be brought that these are operated by the magnetic force. 11. Switching device according to claim 1 to 10, characterized in that the magnetic fields generated by the permanent magnets (6, 16) in the working position are each supplied to the armature contacts (a to i) via flux guide pieces (15). 12. Switching device according to claim 1 to 11, characterized in that in the rest position of the coupling members (X, Y ') the associated permanent magnets (16) are magnetically short-circuited. 13. Circuit arrangement for a switching device according to claim 1 to 12 in telecommunications, in particular telephone systems, characterized in that the protective tube armature contacts (a to f) on the one hand directly or via blocking switching means (GIl to G14) at a common potential and on the other hand in rows and rows the one (Ll) and the other (L2) wire of a connecting line are connected, so that an evaluation of the transmitted code characters assigned to the individual keys (Txy) can be carried out in a manner known per se according to the principle of reversing the current direction. 1 sheet of drawings ® 009 528/206 5.60