DE117199C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The subject of the present invention is an automatic electrical winding device for spring drives, the purpose of which is to make the spring drive in question as uniform as possible To maintain tension and consequently the mechanism to be driven by the spring drive to communicate an almost uniform force.

According to the present invention, this is achieved in the simplest way by the fact that between the drive electric motor and the spring mechanism for switching on and off the motor serving transmission element is inserted, which at a certain voltage the spring of the spring mechanism is influenced by the motor in such a way that it switches off of the motor causes it to return to its previous position as the spring tension of the engine decreases and thereby switch the motor on again.

In the on the accompanying drawing in Figs. Ι to 3 shown embodiment of The invention is the transmission element used for switching the motor on and off the armature shaft itself formed, which is vertically displaceable and so with one of the Power supply brushes is connected that lifting the armature shaft lifting the Brush and thus the .motor.switching off.

The vertical axis α of the wind-up motor is mounted and guided at the bottom in the magnet frame b and with the upper end in the conical bearing housing c , which is open on one side, in such a way that it can be moved upwards within certain limits. The upper part of the housing c contains, as FIG. 1 illustrates, a helical spring d which presses on a metal disc e serving to support the axle and whose pressure on the axle can be made more or less strong by adjusting a screwed-on cover f. The current required to drive the electric motor is conducted via the terminals gg ^l to the solenoid coils ii ¹ and via the terminals hh ¹ to the brushes kk ^l and into the armature. The armature axis is provided at / with a screwed-in edge on which one end of a double-armed lever m movably mounted in the housing wall rests. Under the other end of this lever engages one leg of a small rotatable angled lever 0 made of insulating material, the other leg of which lies on a shoulder ρ of the brush holder q ¹ carrying the brush k ^1. As shown in FIG. 3, the brush holders q and # ^{l are} rotatable in the frame. and are pressed against the commutator by means of leaf springs rr ^1. The above-described device has the effect that by lifting the armature axle, one brush k ^{1 is} lifted off the commutator and the motor is thereby switched off.

The rotary movement of the armature axis is transmitted by means of a worm s located on the same to a gear wheel t which is provided on the neck ν of the spring drive mechanism which is loosely seated on the shaft u. Its drum χ accommodates the spiral spring » ¹ , which has only a few or only one wind

needs to own and on the one hand on the drum, on the other hand on the drive axle for the work is attached.

From this it can be seen that the rotation of the motor tensions the spring mechanism, so that it is what drives the work itself. As soon as the tension of the spring is one. has reached a certain degree, the movement of the motor is under the retroactive Force of the spring drive and, due to the worm gear, effective in such a direction, that the motor axis itself is raised. The consequence of this is the lifting of the Brush from the commutator and consequently switch off the motor.

It is easy to see that this is the moment when the motor shaft is raised and switched off of the current occurs every time the retroactive force of the spring drive mechanism is roughly equal to the force of gravity of the anchor and therefore also by a variable load on the anchor axis this moment pushed out or at will. the respectively required tension of the spring drive can be regulated as desired can. For this purpose the already mentioned spiral spring is in the head of the motor frame intended.

In the raised position, the anchor axis is retained until the force of gravity of the motor the tension of the gradually running spring mechanism outweighs again. Then the armature axle goes back to its rest position and switches the motor on again.

Since each falling below and exceeding the said moment is an entry resp. Switch off of the motor, it can be explained that the winding device is subject to constant Switching the motor on and off always with the same voltage of the spring drive will work towards it, and accordingly the spring mechanism will also contribute to the work to be driven almost constant force.

Instead of the vertical arrangement of the armature shaft with the use of gravity the anchor can also be stored horizontally and its one-sided load only by one Spring happen. Instead of the armature shaft, any other suitable, between Drive motor and spring mechanism used to transmit the movement serving element for switching the motor on and off as long as it is stored in such a way that it is at a certain tension of the spring mechanism the force still communicated to it by the motor into the elimination of the Moves causing the motor.

Claims (4)

Patent Claims: 1. Automatic electric winding device for spring drives, characterized in that between the drive motor and the spring drive mechanism is a transmission element which is used to switch the motor off and on and which is switched on at When a certain tension is reached, the mainspring is moved in such a way that it The motor switches off in order to return to its previous position with decreasing spring force and thereby turn the engine back on. 2. Embodiment of the mounting device according to claim i, characterized in that that the transmission element used to switch the motor on and off is the axis of the Motor itself forms, which is slidably mounted and the movement by means of a Worm gear transmits to the spring mechanism, so that the axis at a certain retroactive force of the spring drive under the force still communicated to it by the motor against the effect their gravity or a spring is shifted and thereby turns on the motor. 3. Embodiment of the winding device according to claim 1 and 2, characterized by the switching on and off of the motor in such a way that the displacement of the axis is transmitted by means of a lever mechanism m o to a power supply brush of the winding motor in order to remove it. lift or apply. 4. embodiment of the mounting device according to claim 1, characterized by a. Device for regulating the variable load on the transmission element which switches the motor on and off, whereby the tension of the mainspring is increased or decreased and the driving force of the spring drive itself can be regulated can. 1 sheet of drawings.