DE161457C - - Google Patents

Description

IMPERIAL.

PATENT OFFICE.

JVr 161457 CLASS 21 ^.

In the accompanying drawings, Fig. 1 is a side view, Fig. 2 is a top view, and Fig. 3 is a bottom view of the present toy motor. Fig. 4 shows the engine seen from behind. Fig. 5 is a cross section along the line AA of Fig. 2 and Fig. 6 is a perspective view of the armature with the contact rod.

The motor is built on a base plate 1 on which two bearing blocks 2 are arranged are. Furthermore, the base plate carries a vertically arranged support plate 3 for - fastening the magnets and two small ones Bearing blocks 4, in which., The armature 6 is rotatably mounted.

The crankshaft 15, on which a flywheel 5 is attached, runs in the bearing blocks 2 is. The crankshaft has a crank pin 28 and a connecting rod engages this 7, which is rotatably connected to the armature 6 at 27 (FIG. 6).

On this connecting rod, the contact rod 8 is attached at 29 (Fig. 6), which extends over extending the magnets towards the rear of the machine. About this contact rod runs a cross bar 22, which is bent down at two points and rotatable there is mounted on an insulating plate 11. The latter is attached to the support plate 3. In the Rotation of the crankshaft 15 is, as can be seen, an up and down swing of the The connecting rod 7 is generated and, accordingly, the one attached to this connecting rod also vibrates Contact rod 8 with its rear end up and down. It alternately comes into and out of contact with the one above it running rod 22, and this creates the circuit through the winding of the Electromagnet 9 closed and interrupted accordingly.

The electromagnets 9 are attached to the insulating plate 11 by screws 21. Her Winding is on the one hand at 20 with the base plate of the machine, on the other hand with a Line 26 connected, which leads to the clamping screw 14. From a second Clamping screw 13 from leads a line 23 to a clamping screw 12 through which the line is connected to one of the brackets in which the rod 22 rotates. the Clamping screws 13 and 14 are through bushings 24 and 25 from the base plate of the Machine isolated.

Any suitable power source, e.g. B. a battery 19 (Fig. 2) connected by wires 17 and 18. Should the machine are put into operation, the flywheel is rotated so that the connecting rod and so that the contact rod 8 is swung up and down. With every upward movement touches in a given

Points in time, the contact rod 8, the rod 22 running over it, and thereby a Circuit closed from one pole of the battery 19 through the line 17 leads to the clamping screw 13, from there through the line 23 to the clamping screw 12, to the Bracket 22, through the contact rod 8 and the connecting rod 7 to the frame of the machine and from this through the clamping screw 20 to one end of the electromagnet winding. From the other end of the solenoid winding, the circuit goes through line 26 and clamping screw 14 and from there through line 18 to the other pole of the battery.

The electromagnets are thus excited and attract the armature 6. Through this Movement of the armature moves the connecting rod so that the contact rod 8 comes out of contact with the bracket 22, and under the action of the inertia the armature oscillates back, whereupon the game repeats itself.

To regulate the speed of the machine, the bracket 22, as already noted, can be rotated arranged. The rotation can be effected by a lever arm IO. Ever further one this lever arm and thus also the bracket 22 from the in Fig. 1 with full Lines drawn position moved sideways, the sooner the contact rod 8 comes into contact with it after each stroke Bracket and the more quickly the electromagnetic armature is attracted again.

On the crankshaft 15, a cord wheel 16 is set, from which any drive can be derived.

Claims (2)

Patent Claims: 1. Electromagnetic toy motor in which by a vibrating armature generates a circular movement and at the same time causes the necessary switching of the coil influencing the armature is, characterized in that the switching on and off of the excitation windings the electromagnet (9) moving the armature (6) by a contact rod firmly connected to the connecting rod (7) (8) takes place during the vibrations imposed on it by the connecting rod (7) alternately in and out Comes into contact with a contact clip (22). 2. Embodiment of the electric motor according to claim 1, characterized in that that the transversely over the contact rod (8) running contact bracket (22) is rotatably mounted and thereby with respect to its distance from the contact rod (8) can be adjusted, for the purpose of increasing the duration of the attraction of the armature (6) and thereby to be able to regulate the speed of the latter. 1 sheet of drawings.