DE1242390B - Spring winding device for clockworks in taximeters - Google Patents

Description

Spring winding device for clockworks in taximeters The invention relates to a spring winding device for clockworks in taximeters, consisting of a spring mechanism with a pulling device and with a rotatable spring connection, wherein the pulling part of the spring mechanism with the pulling device on and off Switching elements is provided and the spring force connection has a cam part provided cam plate actuates the switching elements in the switch-on direction when the previously given winding voltage has been consumed, and the winding part of the spring mechanism keeps the switching elements in the on position until a previously given one Spring force has been supplied by the winding device.

There is already a winding device for a clockwork known a cam disk is attached to the spring core housing and the spring core shaft is. Both cam disks work together via a contact arrangement so that after every turn of the spring mechanism that relaxes the spring, a contact is closed which retensiones the movement by one revolution. Before the end of the winding process the cam disc that sets the winding process in motion is only activated by the other The cam was brought back to its original position of rest. The clockwork is allowed during of the winding process are not stopped, otherwise the motor controlling the winding motor Contacts are no longer separated from each other and the spring is thus drawn up for so long until it is finally destroyed. As the clockwork of a taxi meter is well known is switched off after every journey, it must be ensured that the winding motor comes to a standstill even after the clockwork has been switched off.

This is now the case with the spring retractor of the type mentioned at the beginning Kind according to the invention ensured that the cam disc from the pulling-up Part is guided in engagement with the switching elements when the cam disc after and that both the cam disk as well as the cam disk is provided with a projection in order to to move the switching elements into the switch-off position when the clockwork is at a standstill.

A clockwork is also already known, the one in a spring housing has arranged spiral spring, which is wound up again by an electric motor will when it has expired. The electric motor is controlled by a the tension state of the spring sensing contact arm. With this movement, however, the spring is only rewound when it has completely expired.

Furthermore, a spring winding device is already known by which the spring is re-tensioned as soon as it is a predetermined amount has relaxed, but in which the spring emits a force during the pull-up period. The movement therefore stops during the winding process. In the case of the invention designed spring winding device is not only re-tensioned as soon as the spring she has relaxed to a certain extent, but also ensures that the Winding motor is also switched off after the clockwork has been switched off during the winding process will.

An embodiment of the invention will now be made with reference to drawings described in more detail, in which shows F i g. 1 shows an arrangement according to the invention in Longitudinal section, F i g. 2 shows a section along line II-11 in FIGS. 1 and F i G. 3 and 4 sections along the line II-II in F i g. 1 to illustrate various Working positions.

The device shown consists of a spring housing 1 and a spring 2. The spring housing is attached to a worm wheel 3, which is rotatably mounted on an axis 4. The outer end of the spring is fastened in the spring housing 1, while the inner end is connected to a hub 5. This hub cannot be rotated about the axis 4, but can be displaced on it in the axial direction. At the upper end of the axis 4, a gear 6 is attached, which is used to drive the associated clockwork parts, for. B. the balance wheel and the like (not shown), is used. A cam disk 8 is attached to the upper part 7 of the spring housing 1. This cam is provided with a pin 9. A dry disk 10 is freely rotatably mounted on the axis 4 above the hub 5 and above the cam disk 8. The cam disk 10 is also provided with a pin 11 which is arranged at the same radial distance from the axis 4 as the pin 9 and cooperates with it. The cam disk 10 is connected to the hub 5 via a groove and tenon connection 12, 13. The cam disk 8 and the cam disk 10 are in engagement with the end 14 of an arm 15. The arm 15 is provided at the bottom with a pin 16 which is covered with an insulating sheath and interacts with contact springs 17, 18 of a contact device 19. As shown in FIG. 2 to 4, the contact device 19 is in series in the circuit of a motor 20 which is provided for winding the spring and on the axis 21 of which sits a worm 22 which is in engagement with the worm wheel 3. The cam disk 8 is provided with a recess 23, and the cam disk 10 is equipped with a cam part 24.

The device works in the following way.

In the in F i g. 1 and 2, the contacts 17, 18 of the contact device 19 are closed, and the motor 20 drives the spring housing 1, 7 and the cam disk 8 in a direction that pulls the spring 2, which is indicated by the arrow 23. At the same time, the spring rotates the hub 5, the cam disk 10 and the gear wheel 6 in the direction indicated by the arrow 26 in order to advance a counter and drive the clockwork. The spring housing 1 rotates at a significantly greater speed than the hub 5 and the parts connected with it. After, as can be seen from FIG. 3 shows that the spring housing 1 with the cam 8 has been rotated so far that the recess 23 is just opposite the arm end 14 , the arm swings into the recess. The circuit of the motor 20 is interrupted and this comes to a standstill, whereby of course the spring housing 1 also comes to rest. Meanwhile, the hub 5 and the cam 10 continue to rotate. When the cam part 24 on the cam 10 gradually approaches the arm 15, the arm end 14 finally touches the cam part 24, whereby the contacts 17, 18 are closed again. The motor is now set in motion and rotates the spring housing 1 and the cam disk 8 so that the recess 23 is rotated past the arm end 14 before the latter disengages from the cam part 24 during the continued rotation of the cam disk and the arm end again against the peripheral edge the cam pushes. The spring is tensioned again by one revolution until the arm end 14 swings again into the recess 23 and the working cycle is repeated.

If the clockwork is brought to a standstill, it is ensured that the motor does not run continuously, but stops as soon as the cam has been turned so far that the arm end 14 swings into the recess and the contacts 17, 18 are interrupted. Should the clockwork for any reason stop in a position of the cam disk 10 , as shown in FIG. 4, the motor then rotates the spring housing 1 and the cam disk 8 by one revolution, the pin 11 of the disk 8 coming into contact with the pin 9 of the disk 10 and the disk 10 thereby about the hub 5 and the axis 4 inside of the game of the mortise and tenon joints 12, 13 is rotated. Here, the part 24 comes out of engagement with the arm end 14, and the latter swings into the recess 23, the current being interrupted and the motor coming to a standstill. Thus, there is no further winding operation until the clockwork has started and the cam disk 10 has been rotated one more revolution.

With the arrangement shown, it is also possible to apply a certain initial tension to the spring in a simple manner. This is done by releasing the locking plate 27 on the axis 4 and pushing the axis with the cam disk 10 and the gear 6 upwards until the pin 11 can no longer take the pin 9 with it. Then the axis 4 and thus the hub is rotated one or more revolutions until the desired initial tension is set, whereupon the parts are returned to their original position. For example, if the spring has been given an initial tension corresponding to a winding of two revolutions, the motor will wind the spring by a further revolution, ie a total of three revolutions. The working area of the spring is therefore between two and three winding revolutions. If the spring has been given an initial tension corresponding to three revolutions, the working area is between three and four revolutions, etc. It is of course conceivable that the spring has no initial tension and that the clockwork is only wound up by the motor 20 , ie by winding it up one revolution, is kept going. The initial voltage can easily be changed without replacing any individual parts or without carrying out extensive dismantling.

In the context of the invention: can of course to wind up the spring Another device can be used in place of the motor, for example a step magnet, which works in the intervals controlled by the switch. The curve and Cam disks can also be designed in other ways, they just have to be in the cooperate with the switch described manner.

Claims (3)

Claims: 1. Spring winding device for clockworks in taximeters, consisting of a spring mechanism with a winding device and a rotatable spring force connection, the winding part of the spring mechanism being provided with switching elements that switch the winding device on and off and the spring force connection is provided with the switching elements via a cam disk provided with a cam part operated in the switch-on direction when the previously given winding voltage has been consumed, and the winding part of the spring mechanism holds the switching elements in the switched-on position until a previously given spring force has been supplied by the winding device, characterized in that the cam disk (10) from the winding Part in engagement with the switching elements (14 to 19) is performed when the cam disk (10) has not yet moved out of the mentioned position after the opening has been completed, and that both the cam disk (10) and the cam disk (8) have a protrusion (11 or 9) is provided to move the switching elements when the clockwork is at a standstill in the switch-off position. 2. Spring retractor according to claim 1, characterized in that the retracting part of the spring mechanism consists of a spring housing (1, 7) mounted on a shaft (4) on which a circular cam disc (8) with a recess (23) is mounted, wherein the shaft (4) with the cam disk (10) is provided with the protruding part (24) , both disks (8,10) are arranged to cooperate with the switching elements (14 to 19), the cam disk (10) with respect to the axis (4) is rotatable and connected to it via a mortise and tenon connection (12, 13) . 3. Spring winding device according to claim 1 or 2, characterized in that the spring housing (1, 2,7) and the cam and cam disk (8, 10) are arranged around the common shaft (4) serving as a spring force connection, which is displaceable in this way that, to set an initial tension, the projections (9, 11) can be disengaged and the shaft can be rotated with respect to the spring housing. Documents considered: German Patent No. 470 523; British Patent No. 572,201; Swiss patents No. 301868, 313004.