DE419709C - Electrical signaling device - Google Patents

Description

Electrical signaling device. The invention relates to a electrical signaling device with a polarized armature arm attached to one end a permanent magnet is hinged and with its free end between two electromagnets located, whose cores are connected to the other end of the permanent Magnets are connected. According to the invention, these electromagnets lie with the polarized one Anchors in a common circuit, and also are adjustable in the circuit Contacts and resilient contacts cooperating therewith on the armature arm are provided. The movement of the armature is regulated by setting the contacts. By The arrangement of two switches will further the current direction and thus the movement of the Armature regulated to the right or left. Except for the two on one side of the anchor arm located spring contacts is a third spring on the other side of the armature arm provided, which strikes against an adjusting screw.

Figure i is a diagrammatic plan view of the device.

Fig. 2 is a section along 2-2 of Fig. I. Fig. 3 is a section along 3-3 of Fig. I. The permanent magnet 5 has a bottom part 6 with ends 7 and B bent vertically upwards. At the end 8, a yoke-shaped part 9 of the magnet, which consists of soft iron, is arranged. In the ends io of the yoke 9 electromagnets ii and 12 are mounted, the inner end surfaces of the cores 13 being in front of the center of the yoke at a short distance from each other. At the end 7 of the magnet 5, a T-iron 14 is attached to which an armature arm 1 6 is hinged at 1 5 , which extends in the longitudinal direction of the bottom part 6 of the magnet 5, and its free end 17 between the protruding inner ends of the Cores 13 of the electromagnets ii and 1: 2 lies. The free end of the arm 16 carries a rod 18 with a button i9 which can hit a bell shell 2o carried at 2-1. Any other apparatus may be provided in place of the tray. On one side of the arm 16 there are two contact springs: 22, 23, and a spring 2.4 is attached to the other side of the arm. Opposite the springs 22, 23 supports 25, 26 are arranged, in which adjustable contacts 27, 28 sit in the form of screws. Opposite the spring 24 there is a support 29 with an adjusting screw 3o. The contact screw 27 works with the spring 22, the contact screw 28 with the spring 23 and the adjusting screw 30 with the spring 24. As can be seen from Fig. I, two lead wires 31, 32 are provided, which are connected to a power source (direct current). Two switches 33 and 34 are used to control the circuit through the wires 31,32. Both switches are of the same construction and each consists of a pair of upper spring contacts 35, 36, a pair of lower spring contacts 37, 38, and both pairs of contacts are separated from one another by an insulating strip 39 (Fig. 3).

The main line 31 is with the contact 38 des Switch 33 through a wire 4o and to the contact 36 of the switch 34 through a wire 41 in connection, while the main line 32 with the contact 36 of the Switch 33 through a wire 42 and to the contact 38 of the switch 34 through a wire 43 is connected. Two clamping screws 44, 45 are provided, one of which Lines 46 and 47 go out. Line 46 is connected to contact by wire 48 35 of the switch 33 and through a wire 49 to the contact 35 of the switch 34 connected, while the line 47 with the contact 37 of the switch 33 by a Wire 5o and with the contact 37 of the switch 34 through a wire 51 in conductive Connection.

As a result, both contact pairs of switches 33 and 34 are in the main circuit of lines 31, 32 and in the circuit of lines 46, 47. A line 52 leads from the clamping screw 44 to the support 26 of the contact screw 28, and a line 53 leads from the clamping screw 45 to the electromagnet 12. From the line 53, a line 54 branches off to the support 25 of the contact screw 27 from. Another line 55 connects the electromagnets 12, and i i, and finally A line 56 connects the electromagnet i i at 57 to the hinged end of the anchor arm 16.

Due to the arrangement described above, the anchor arm can move perform in both directions, and by adjusting the contacts 27, 28 and the Screws 30 can be of various types of movements. The magnet i i should be in further description as the right side of the device and the magnet 12 can be described as the left side. In one setting the device can the anchor arm move to the right or left. In a different setting can the anchor arm vibrate to the right or vibrate to the left, and in another Adjustment, the anchor arm can move to the right or vibrate to the left, and finally the anchor arm can vibrate to the right in a further setting and move to the left.

The end 8 of the magnet 5 is the south pole of the magnet, while the End 7 is the North Pole. The yoke 9 of the magnet therefore has S polarity, and the core pieces the electromagnets also have S-polarity due to their connection with yours Yoke 9 so that the free end of the armature arm N polarity and the hinged end Has S polarity.

The main principle on which the invention is based is that Changing the polarity of the electromagnets i i, 12 by changing the direction of the current, so that the armature arm is moved after one or the other of the electromagnets, and by adjusting the contacts 27, 28 and the screws 30, the movement be regulated so that it is a simple or a vibrating movement. the Device is actuated as a buzzer in the vibrating movement of the anchor to the left. This is done by adjusting the screw 30 so that the pressure is on the spring 24 is increased and the spring 23 is kept in constant contact with the contact 28 will. The contact 27 is set so that it does not come into contact with the spring 22 is coming (Aib. I). The switch 34 is then actuated and the current flows into the signaling device by wires 49, 46, clamping screw 44, wire 52 after the Support 28 and from there through the spring 24, the anchor arm 16, the wire 56 to the Elektroinagneten i i and 12 and from the electromagnet 12 through the wire 53 and the Terminal 55 to ('a wire 47 and back to switch 34. As a result of the turns the. Electromagnet gets the electromagnet i i N polarity, and at the same time the 1Zagnetism of the magnet 12, which does not change its polarity, is strengthened. The armature arm 16 is therefore repelled by the magnet i i and by the magnet 'i attracted 2. So it swings to the left. The spring 22 comes into contact with the contact screw 27, which short-circuits the signal device through the wire 54. The current through the electromagnets i i 'and 12 is interrupted, and the armature arm returns to its original position, whereby the spring 22 is removed from the contact 27 is separated, so that when the switch 34 is in the effective position, current flows through again the magnets i i and 12 flows and the N-organg is repeated, whereby by the Hammer rod 18 a humming sound is generated.

The signaling device is activated when the armature arm vibrates to the right operated like a bell, and this is done by closing switch 33. The current then flows through wires 50, 47, post 45, wire 53 into the Electromagnet 12, then after electromagnet i i and through wire 56, armature arm 16, spring 23, contact 28, wire 52 and clamping screw 44 back after the switch 33. As a result of this direction of current, the magnetism of the magnet i i is strengthened, without changing its S polarity, and the electromagnet 12 becomes 11 "T polarity. As a result, the anchor arm 16 moves to the right.

During this process the contact screws 27 and are located 28 and the Screw 3o in the same position as in the vibrating one Movement of the anchor arm to the left. However, if the anchor arm swings out to the right ingt, the spring 23 moves away from the contact 28, the circuit is broken, and the anchor arm returns to the usual central position. Is the switch 33 still closed, electricity is sent again through the now closed circuit, and .the process is repeated. The arm 6o moves to the right, and the button the bell hits 2o. Should the anchor arm only move once to the left or to the right are moved, the contact screw 28 is adjusted so that it is in constant Contact with the spring 23 remains, regardless of the position of the anchor arm, and the Contact 27 is set so that the spring 22 is not in any position of the armature arm 16 comes into contact with the contact. As a result, the circuit through the Electromagnet r r, 12 not interrupted, and the direction of movement of the armature arm 16 only depends on the closing of one or the other switch 33, 34. Will if the switch 33 is closed, the armature arm moves to the right and becomes the Switch 34 closed, the arm moves to the left. The anchor arm remains in contact with one or the other electromagnet as long as the switch is in the closed position. The anchor arm is supposed to have a simple movement to the left and a vibrating movement to the right, this will make contact 27 adjusted so that it does not come into contact with the spring 22 when the arm is moved to the left, and the contact 28 is adjusted so that it is with the spring 23 is in contact when the anchor arm is in the usual central position, but comes out of contact with the spring 23 when the armature arm swung out to the right will. In this setting and "with a current direction, what movement of the arm caused to the left, the armature arm remains in position until the circuit is through switch 3.4 is interrupted. The current flows in the opposite direction through the apparatus, and if the arm is moved to the right, the circuit is through Removal of the spring 23 from the contact 28 opens, the arm returns to its original position back and the circuit is closed again. This process is repeated to produce a vibrating movement of the arm as long as the switch 33 is closed is.

With a vibrating movement of the anchor arm to the left and easier Moving to the right, the contact 28 is set so that it is in constant contact with the spring 23, and the contact 27, as shown in Fig. that the spring 22 is in contact with the contact 27 when the armature arm is in the left position comes. In this setting and a current direction which the arm to the right moved, the Azm will remain in such a position as long as the circuit through the switch 33 is kept closed. If the current goes through in the opposite direction the device so that the arm is moved to the left, the spring 22 in Brought into contact with the contact 27. The device is short-circuited, the Arm returns to its original position, which completes the circuit again becomes and a vibrating movement of the arm to the left occurs as long as the circuit is closed by switch 34.

The device can therefore be used for various purposes, z. B. for Be: actuation of bells, buzzers, needle indicators, lamps, switches and the like. The switches 33, 34 can of course be replaced by suitable other switches will.

Claims (3)

PATENT CLAIMS: e.g. Electrical signal device with a polarized armature arm which is hinged to one end of a permanent magnet and which lies with its free end between two electromagnets connected by their cores to the other end of the magnet, characterized in that these electromagnets (IT, 12) with the armature arms (z6) lie in a common circuit, and that adjustable contacts (27, 28) and on the armature arm (i6) co-operating, resilient contacts (22, 23) are provided in the circuit so that the contacts (27, 28 ) to regulate the type of movement of the armature. 2. Device according to claim z, characterized by the arrangement of two switches (33, 34) through which regulates the direction of the current and thus the direction of movement of the armature will. 3. Apparatus according to claim 1, characterized in that in addition to the two springs (22, 23) located on one side of the armature arm, a third spring (2d.) on the other side of the anchor arm is provided, which against a set screw (3o) strikes.