DE759566C - Display device for the state of tension of springs in drives - Google Patents

Description

Display device for the state of tension of springs in drives For all kinds of running and registration mechanisms that are driven by spring force, often undesired business interruptions occur because the stored Spring force is exhausted just at the most inopportune moment. The spring force machine then stops, whereby the driven running or registration mechanism also comes to a standstill. If this standstill occurs during an important operational or registration process, these sudden and premature interruptions can result valuable recordings or measurement results become unusable.

It has therefore been proposed that the force releasing and the force-receiving part of the spring combustion engine with sequential switchable from these two parts over- tragungsgliedern to connect that transmit their movements on a display member so that at any time the state of tension of the springs can be seen. However, the known devices of this type are practically unusable for various reasons. In a known design, a secure zero position of the display element cannot be achieved. The winding of the spring mechanisms is usually carried out with interruptions, because the hand on the spring mechanism key can only make a limited angular movement. This is the reason why, in this known arrangement, the engagement of the transmission members is temporarily interrupted and has to be re-established each time the rotation is continued. This interruption has the consequence that the tension pointer does not assume the position corresponding to the actual tension state after the spring mechanism has finished winding.

In another display device made of similar structural Reasons is practically useless, there is also the disadvantage that it is at Use of multiple barrels can only be used if these barrels are arranged one above the other.

The invention is based on the object at a minimum of operational effort a display device for the state of tension of springs in creating drives that are equally beneficial for a single spring force machine or can be used by a plurality of such machines, regardless of whether these machines are used connected one behind the other or in parallel, next to one another or one above the other. This makes the new display device very versatile created.

The invention accordingly extends to a display device for the state of tension of springs in drives, in which one is the indicator element Contacting washer when tensioning the spring with the spring tensioning member and when releasing it is coupled to the drive member moved by the spring: According to the invention Now such a device is further improved in that the disk of the display element loosely rotatable carries two intermeshing gears, each with of stepping mechanisms the spring tension member or the drive member influenced gears in engagement stand. In this way, a compact design that can be used in all cases is achieved having created device.

In the drawings, several embodiments of the invention are as Examples shown.

Fig. I shows a spring force machine equipped with a barrel from the beginning; Fig. 2 shows the side view of this machine; Fig. 3 is the front view a machine equipped with two barrels; Fig. Q. their side view; Fig. 5 illustrates a part of the step switch mechanisms of the two embodiments on a larger scale; FIG. 6 shows the end view of the representation according to FIG. 5 in Direction of the arrows drawn in FIG. 5; Fig. 7 is a longitudinal section through the illustration according to FIG. 5; Fig. 8 shows a modified display member. In the The embodiment according to FIGS. I and 2 is the spring force machine with a spring barrel i equipped, which is provided with a ring gear 2 and a spring core 3, the is stored in the two plates ..1, ..l '. Located inside the barrel i the invisible mainspring. Its outer end is attached to an im Inside the barrel located barrel hook and with its inner end on an identical hook arranged on the spring core. By a locking mechanism 5, the one hand on the spring core 3 and on the other hand on the plate 'engages, the rotation of the spring core locked in one direction of rotation. Through the ring gear: 2 the through the tension spring inside the housing i generated rotational movement of the housing on a Transfer not shown drive or registration mechanism. The mainspring can either be pulled up from the housing i or from the spring core 3. In the present case takes place the elevator from the spring core 3, which is provided with a square 6 for this purpose is.

An eccentric 7, which is a pawl, is attached to the spring core 3 8 drives. Another eccentric 9 is connected to the spring housing 1. This Eccentric drives a ratchet io. The two ratchets 8 and io are connected to one another by a tension spring i i. The pawl 8 is a ratchet wheel 12 and a ratchet wheel 13 is assigned to the pawl io. The rotation of the two Switching gears 12 and 13 are in opposite directions. They are arranged one behind the other with the same axis. The two ratchet gears are separated from one another by a disk 14.

The ratchet 12 sits on a socket 15 (see. Fig. 7) on a Shaft 16 is attached. The shaft 16 is provided with a pin 17 in the Plate ..1. ' is stored. On the shaft 16, a gear 18 is attached, which the The same rotary movements. Power like the shaft 16. The wheel 18 meshes with a spur gear i9, which rests freely rotatably on a pin 2o which is fastened in a disc 21 is. The disk 21 is firmly seated on a hollow shaft 22 which is guided on the shaft 16 and is provided with a pin 23. With this pin 23 is the hollow shaft 22 stored in the plate 4. In the disk 21, a pointer 24 is attached, the plays in front of a measuring sheet 25 (Fig. i and 2).

The ratchet wheel 13 is firmly connected to a gear wheel 26. It runs together with the gear 26 loosely on the shaft 16. The gear 26 meshes in one Gear 27, which is freely movable on a pin firmly connected to the disc 21 28 seated. The wheel 27 meshes with the wheel i g.

The ratchet wheel 12 is also provided with a retaining pawl 29 and the ratchet wheel 13 is provided with a retaining pawl 30 . The retaining pawls 29 and 30 block the rotation of the ratchet wheels i2 and 13 in opposite directions.

The device described works as follows: Winding up the mainspring takes place with a pulling device, which is placed on the square 6 of the spring core 3 will. The eccentric 7 sitting on the spring core 3 is rotated and thereby the pawl 8 advanced. With every full revolution of the eccentric 7 the ratchet 12 shifted by one tooth, in a clockwise direction. the The pawl io and the ratchet wheel 13 assigned to it remain at a standstill.

The switching movement is now carried on by the ratchet wheel 12 the socket 15, the shaft 16, the gear 18, the gear i9 and from here to the Disk 2i and the pointer 24 connected to it. The pointer 24 moves through it before the measuring sheet 25 when looking at Fig. i to the right to the side that is denoted by the word raised.

If the spring force machine drawn up in this way runs out, then remain now the pawl 8 and the ratchet wheel 12 are, however, by the on the spring housing i, which in turn is connected to the running or registering mechanism via the toothed ring 2 is, eccentric 9 attached the pawl io advanced. With every full Rotation of the eccentric 9, the ratchet 13 is advanced by one tooth, namely in a direction of rotation opposite to the direction of rotation of the ratchet wheel 12.

The rotary movement of the ratchet wheel 13 is transmitted to the gear wheel 26 Gear 27, from here to gear i9 and then back to disk 2i and the pointer 24 transferred. However, the turning movement is now in the opposite direction, d. H. the pointer 24 now moves to the left when looking at FIG side of the measuring sheet 25 indicated by the word expired.

The pointer 24 gives a reliable picture of what is present in each case Spring force reserve so that the observer of the pointer 24 is always able to rewind the spring before it expires.

In the embodiment according to FIGS. 3 and 4, two barrels 3 i, 32 are provided. The barrel 31 is provided with a spring core 33 and the barrel 32 is provided with a spring core 34. The ring gears 35 and 36 of the two barrels mesh with one another. As a result, they are placed one behind the other, so that the running time of this machine is twice as long as the running time of the machine according to FIG. The two eccentrics 7 and 9 are each connected to a spring core 33 and 34, so that the two switching pawls 8 and io receive their drive from the spring cores. Incidentally, the stepping mechanisms and the display device are accurately formed as with the embodiment of FIGS. I and 2 with the one exception that the retaining pawls are arranged 29 and 30 below the shift gears 12 and 13 instead of above as in the embodiment of FIG. i.

The two barrels 31 and 32 could also be used instead of one behind the other be connected in parallel. In the case of parallel connection, it will be double for the same running time or n-fold rotation, with series connection with constant torque achieved twice or n times the runtime.

In the embodiment shown in Fig. 8 there is a linearly moved Display link application. The disk 21 is provided here on the outside with a toothed ring 37, which meshes with a toothed splint 38. The toothed splint 38 runs on pins 39, 40. The right end of the rack 38 is designed as a pointer tip behind the fixed diaphragm 41 disappears when the spring force is used up. By the gradual disappearance of the tip is said to be the gradual decrease in the spring force to be symbolized.

Otherwise, the embodiment corresponds to the mainspring and the stepping mechanisms those according to Figs. 3 and 4.-

Claims (3)

PATENT CLAIMS: i. Display device for the voltage status of Springs in drives, in which a disk carrying the display element is tensioned the spring with the spring tension member and when relaxing with the one moved by the spring Drive link is coupled, characterized in that the disc (21) of the display member (24) loosely rotatable carries two intermeshing gears (i9, 2 # 7), each with of stepping mechanisms (8, io) of the spring tension member (3 or 34) or the drive member (i or 33) influenced gears (18,: 26) are in mesh. 2. Device according to claim i, characterized in that the indexing wheels (12, 13) of the indexing mechanisms (8, io) and the associated gears (18, 26) are arranged coaxially. 3. Device according to claims i and 2, characterized in that the pawls (8, io) of the stepping mechanisms are mounted on eccentrics (7, 9) provided on the spring tension member (3 or 34) and on the drive member (i or 33). To delimit the subject matter of the invention from the state of the art, the following publications have been taken into account in the granting procedure: German Patent Specifications No. 247 211, 372 376, 384 046; U.S. Patent No. i o35 io4.