DE360108C - Electric bell mechanism - Google Patents

Description

Electric bell. The invention is an electric bell, in which the novelty is that without an upstream rectifier, Converter, a resistor and the like to all types of current and voltage both to be connected to a direct current as well as an alternating current line, z. B. at iio-volt and? -Ao-volt voltage, the same force is achieved and that it is more arbitrary for single-phase, two-phase or three-phase alternating current (three-phase current) Period number always works properly.

So far it is only possible to use the one generated by the elements for chimes To use low power. It is now a well-known fact that these doorbells have very great evils, e.g. B. need these systems a cumbersome Maintenance, as the force decreases very quickly; there are very frequent disorders, z. B. by exposure to the cold, on the elements, and the systems are expensive because large voltage losses occur, especially with long lines, etc. Furthermore is only needed when connecting a new bell in an existing one Line always the enlargement, d. H. Reinforcement of the element system, required.

All of these shortcomings and drawbacks are eliminated by the present invention eliminated.

The invention is shown in an exemplary embodiment on the drawing and shows Fig. i the front view, Fig. 2 the side view, Fig. 3 the top view and fig. q. the circuit diagram.

The aforementioned peculiarities of the invention and thus the creation such a bell is achieved that no horseshoe magnet, but two separate, non-magnetically interconnected magnetic coils (Solenoids) are used in connection with a new contact, its main being consists in giving the anchor enough time to find a way to work a stroke of any size. When making contact, the main feature is to Achievement of the above movement and, in addition to direct current, alternating current as a power source to use that a U-shaped or similarly curved contact part in its end positions held and released at the last moment by the moving anchor will. It is well known that the horseshoe magnets used with direct current leave once Do not connect to different voltages without using a resistor to have to, and on the other hand not the direct connection to a W: echselstr: omn: etz too, since they cannot generate any force, because as a result of the in colossally faster succession pole change taking place .the armature cannot find time to find a way to generate it to retire from work. These circumstances always required a converter or rectifier when connecting an electromagnetic device to an alternating current network.

According to the idea of the invention, there are two from each other separate magnet coils that are not magnetically connected to one another and pushed onto sleeves a (Solenoids) b provided on a plate c, in which also the sleeves a are attached, rest.

The contact, which works with these coils and allows direct connection to alternating current in addition to direct current, consists of a base plate d and a frame formed from side plates e, f on it , the free ends of which in slots in a housing cover g through a pin h and the sleeves a are inserted in the base plate d. Between the side plates e, f there is arranged a contact lever h which can be easily rotated by means of an axis i in the side plates f and is bent in a U-shape or similar manner at the free end, which is connected with a conductor wire 1 to one coil b and between the side plates e, f is provided with a contact plate ni and with a lateral sliding roller n, the axis o of which is firmly united with the contact love k. A lever q, which is rotatably held by a pin p on one of the side plates e and which lies with its wedge-shaped nose r on the roller n, is held by one with its ends in a recess s of the lever q and in a recess t of the side plate f The spring rc is always pressed firmly against the roller n. A bridge v of the magnetic cores w, v pn, which one is equipped with a stop -v for the contact lever k, is located in the middle between the magnetic cores w provided with a spindle y guided in the plate d. A plate 2 is connected to the plate c by a guide tube z of the spindle y and a lock nut i. A spring q connected around the spindle y between collar 3 and plate c. serves to push up the bridge v and thus pull the magnet cores w out of the sleeves a of the magnet coils b. Above the contact plate in the contact lever k, the nut 5 of a setting contact screw 7, which can be adjusted in the usual way with a lock nut 6, is arranged with a projection 8, which comes into contact with the contact plate m at the highest position of the contact lever k and thus a closed one Circuit is established.

The bridge v, which is always pushed up by the force of the spring is when there is no current, i.e. also when the circuit is interrupted, and pulls the magnetic cores w out of the coils b; also pushes the contact lever 1e up through the stop x of the one magnetic core w until it is pressed firmly against the shoulder pin 8 of the contact screw 7 by the action of the wedge-shaped nose r of the lever q with the contact plate.

If the bell or the like is now switched into the power line by means of the contact screw 7 and the connection contact of the magnetic coil b, the magnetic cores w, since a closed circuit is created, is drawn into the magnetic coils b by the electromagnetic force generated in the coils. Here, the bridge v meets the U-shaped bent part of the Kontakthe '"els k, which is now also pulled downwards, whereby the contact between the contact plate rra of the lever h and the contact screw 7 is canceled and the circuit is interrupted.

During the downward movement of the lever k, the roller n pushes the lever q back, slides over its nose r and now comes to rest on the lower wedge surface of the lever q, in which position the roller n and thus the contact lever 1e due to the action of the spring ri is held. After the circuit has been interrupted, the spring .4 pushes the spindle y and thus also the bridge v with the magnetic cores w upwards, namely when the stop x of one magnetic core u hits the contact point e1 k and pushes it up. The roller n slides back over the nose r of the Hegel q, and the contact lever k is pushed up by the wedge effect of the He @, els q until the contact plate m with the contact screw 7 is connected, 'whereby the: circuit again is closed. The spindle y hits the bell shell io every time it moves downwards and makes it sound.

Precisely because of this, claß - the helm q under the influence of a spring his wedge-shaped nose r the Kontakthehel k always holds in its end positions and the bridge v always first covers a distance and thus achieves a lift of the armature it is possible to use the device not only for direct current but also for alternating current to use.

As mentioned above, the connection can be made to any lighting system, z. B. i i o and 25o volts, through the from Fig. Q. accomplish the apparent circuit. Four terminals I, II, III, IV are provided for this purpose.

At iio volts, the plus line is attached to terminal I, the minus line to terminal II and a conveniently easily detachable connection, e.g. B. by a terminal IV as a fulcrum bridge r2 made. In this case, the two solenoids b are connected in parallel. If 220 volts is now available, the minus line is attached to terminal III and the connection between terminals III and IV is canceled by loosening bridge 1 2 from terminal III. In the latter case, the two solenoids b are switched one behind the other.

The invention can be used with other electromagnetic bells as well Use apparatus.

The current flows at 100 volts direct current (i.e. parallel connection of solenoids b) from terminal I, to which the positive line is connected, through 7, 8, h, terminal IV and from there at the same time through bridge r2, terminal III to b, on the other hand through L to b and through the two solenoids b to terminal II, to which the minus line is connected. The effect is that both coils b are excited at the same time with 10 volts each. With an alternating current of 100 volts, the circuit and effect are the same.

At 220 volts direct current (i.e. series connection of the solenoids b) the current flows from terminal; - I through 7, 8, k, terminal IV, l through b to terminal II, which in this case is only a connection, and through this on to the second Solenoid b and from there to terminal III, to which the minus line is connected in this case with the open bridge 12. The effect, in contrast to the parallel connection, is that the solenoids b connected in series with a voltage of 220 volts Oppose the same resistance as with parallel connection and 100 volts. With alternating current of 220 volts, the circuit and the effect are the same.

Claims (3)

PATENT CLAIMS: i. Electric bell, characterized in that that there is no upstream connection of rectifiers, converters and other resistors for direct current and alternating current and thus usable for different voltages is that two separate, non-magnetically connected, parallel or series-connected solenoids (solenoids b) with an appropriately U-shaped arteiten bent contact piece (kin), which is held in its end positions and is triggered at the last moment by the oscillating anchor, so that the anchor (w) is given sufficient time, a work path to achieve a to carry out any size hat. 2. embodiment of the contact device according to Claim i, characterized in that it consists of a rotatably mounted at its end, bent at the other end in a U-shape and with a. Contact lever provided with sliding roller (s) (k) with a wedge-shaped nose (r) and spring action (u) standing lever (q) by the action on the sliding roller (s) in its end positions is held, with a contact plate (m) of the lever (k) in the highest Position of the contact lever (k), coming into contact with the contact screw (7), the circuit closes, whereby the magnetic cores (w) by the now occurring electromagnetic Force to be drawn into the coils _ (b) and interrupt the circuit in order to then pushed up again by spring (d.) to close the circuit again, furthermore characterized in that the bridge (u) connecting the magnetic cores (w) with a lateral extension is provided, which when approaching the bridge (v) comes to rest on the U-shaped bent end of the contact lever and thereby pulls the contact lever downwards, on the other hand, pulls the contact lever upwards because of the bridge Approach (x) of a magnetic core (w) comes into contact with the contact lever and pushes this lever up. 3. Embodiment according to claim i and 2, characterized characterized in that to achieve the parallel and series connection of the Solenoid coils depending on the available, z. B. iio-volts or 22o-volts @ current four terminals (I, II, III, IV) are used, with the plus line when connected in parallel connected to terminal (I), the negative line connected to terminal (II) and the terminals (III and IV) are connected by a bridge (i2), while when connected in series the negative line is connected to terminal (II) and the connection of the terminals (III and IV) is released by the bridge (i2).