DE2211969B2 - Time-keeping device - Google Patents

Description

circuit of the device according to F i ε. 1,

F i g. 3 is a schematic representation of the spiral key according to FIG. 2,

F i g. 4 is a graph of a typical isosynchronism characteristic as found in the invention is reachable and

Q ^: g. 5 to 7 are schematic representations / for an explanation of the mode of operation of the spiral wrench in a device according to the invention.

The arrangement of a spiral wrench with respect to the balance construction in a watch is a person skilled in the art known and will not be explained in more detail below. The above mentioned \ orvcrötienilichungen show typical spiral key arrangements in a watch and it must be considered as being within the skill of the art should be viewed horizontally, based on the disclosure of the present invention Built-in spiral wrench.

If one now looks at the drawings in detail, so it can be seen that in Fig.! the balance shaft 10 with its one end in a bearing f 1 des Front frame 12 is mounted. The other end of the balance shaft IO is in a bearing 13 of the bridge 14 of the balance construction. The balance body 16 is attached to the balance shaft 10 and can be a Wear coil 17, which swings past stationary magnets 15, which are attached to dial ring 20 are.

A spiral spring 18 is attached to a hub 19 of the balance shaft 10 and also to a bracket 21. In detail, the spiral spring is inserted into an opening 22 of the clamp 21 and with it Attached by means of a conical split pin 23. The coil spring 18, which can be a conventional spring, is used to store the kinetic energy of the up.rest body I ^ during its oscillations. the Power for the movement is supplied by a cell 25, which the electrical energy through a Contact spring 30 transfers to a contact pin 35 on balance body 16.

As is particularly clear from FIG. 2, the spiral wrench 24 has a base part 26 of essentially circular shape with a gap 27 between areas 28 and 29. Areas 28 and 29 are spread apart in order to mount the spiral wrench on a hub 31, which in turn opens up the balance shaft 10 is arranged. The spiral wrench 24 is parallel to and slightly above the Spiral spring 18 built into the clock.

The other end of the spiral wrench 24 has two arms 32 and 33 which are separated from one another by a predetermined distance along an arc of a circle which corresponds to the spiral spring 18. It can also be said that the arms 32 and 33 enclose a predetermined angle with one another. The arm 32 runs directly as an extension of the central part 34 of the spiral wrench, while the arm 33 is connected to the central part 34 via a bridge part 36 which protrudes from the central part 34 at an angle.

The arms 32 and 33 each have an upwardly angled flange 37 and 38, respectively, and slots or openings 39 and 41 are provided in the flanges. The arm 32 also has a protruding portion 42 which is arranged in front of L..m slot 39 and the coil spring 18 contacts to limit the effective length of the same. The arm 32 also serves the purpose of aligning the coil spring 18 with the center of the sleeve 41. The coil spring normally vibrates in the slot 41 in a manner which will be described in more detail below.

In the construction of the spiral key 24, the angle et between the arms 32 and 33 and

ίο the width of the slot 41 selected so that gives the desired isosynchronisnuis characteristic. By using a common spiral spring and modifying the characteristics of the same with the help of the spiral wrench 24 is it possible to

Relationship to get in. What the frequency of the Oscillation of the balance wheel is made dependent on the amplitude of this oscillation. The typical Isosynchronism-Cf- <raktcristik. which is achieved with the spiral wrench 24 is shown in FIG. 4 shown and differs from the normal design, where the frequency would be independent of the amplitude. This facilitates the synchronization of the balance body 16, particularly in quartz watches.

During the operation of the clock, the spiral key acts in the manner shown in FIGS. 5 to 7 explained manner 13 to the coil spring Looking at Fig. 5 it can be seen that the spiral spring at small amplitudes, for example at 80 \ α between the positions b and vibrates, and at its reciprocating

movement in the slot 41 does not touch the arm 33. The effective length of the coil spring 18 thus extends from the inner attachment point to the theoretical outer attachment point P (80). The balance body thus vibrates at a low frequency, as can be seen from the graph according to FIG. 4 can be derived.

If one looks at FIG. 6, one recognizes. that with larger amplitudes (240 °) the spiral spring between positions α and. b oscillates and for about 40 ⁰ O the

Vibration period is applied to the arm 33 of the spiral wrench. The active ^c ame length of the coil spring extends from the inner attachment point to the theoretical point of attachment äuPeren P (240 °). This increases the frequency of the balance wheel.

If one now considers FIG. 7, it becomes clear that when the amplitude is increased further to 560 °, the spiral spring 18 oscillates between positions a and b and rests against the arm 33 for about 80 "hours of the oscillation period. The effective length

₅ "of the spiral spring 18 extends from the inner fastening point to the theoretical outer fastening point P (560 °), which leads to a further increase in the frequency of the balance wheel.

An essential advantage of the present invention or of the novel spiral wrench 24 is therefore to see that the isosynchronism characteristic is not disturbed by the regulation of the clock, since the angle α and the width. ·? of the slot 41 always remain constant. With increasing demands LiD the accuracy and the use of Quartz-synchronized systems to achieve such accuracy can be achieved with the one proposed here Spiral wrenches achieve unique benefits.

1 sheet of drawings

Claims (5)

is designed in such a way that it does not produce good accuracy. A synchronization system is also used. 1. Line-holding device, in particular a clock, with the above-mentioned prior publications on a balance wheel assembly containing a spiral spring only include the prior art structure known to the applicants and with a spiral key, the technology, and it is possible that other patents are identified by nc , that the spiral are present, which with regard to the present key (24) has a first arm (32), the invention could be of importance. the spiral spring (18) touches and its effective starting from the above Length limited (37, 39, 42), and that it is a prior art, the present invention has a second arm (33) which, under a previously underlying task, is a time-keeping given constant angle (u) with respect to the device to propose with a spiral wrench which first arm (32) is arranged and in whose ches it is easy and cheap to manufacture and with head piece (38) an opening (41) is provided, which by using a spiral wrench the edges of the spiral spring (18) A high accuracy can only be achieved from the age of 15.
a certain oscillation amplitude This task is done by a time-keeping device are solved in the manner described at the beginning, which 2. Ge-It according to claim 1, characterized in that it draws, the spiral key (24) has a first arm on the spiral key, which base part (26) mountable on the balance shaft (10) Coil spring touches and proves its effective length from which the two arms (32, 33) exclude, and that it has a second arm going, each of which has an angled at a given constant angle ₍₁ he flange (37 38) is arranged with an opening (39, 41) upstream of the first arm and has in it, through which the coil spring (18) an opening is provided, the border of which is guided through the head piece Coil spring is only determined from one 3. Apparatus according to claim 2, characterized in that the vibration amplitude is touched. draws that on the flange (37) of the first The present invention is thus concerned with groove Arms (32) a part (42) is provided, which is a spiral trunk. which serves to make the Os / ülalor touch the Spiralft_Jer (18) and to give it a positive isosynchronism characteristic with respect to a clock - opening (41) of the z-second \ rms (33) in this way. With the help of the spiral wrench ν. _; , ν tet that it normally runs in the middle of the frequency of the balance oscillation of the Schwin. giingsamplitude made dependent. This makes it easier 4. Apparatus according to claim 2, characterized in the synchronization of the balance body, in particular characterized in that the width (s) of the opening (41) in with the aid of a quartz-controlled time standard. 35 The spiral wrench preferably has a bass dial is that such an effective length part, which is rotatably mounted on the balance shaft, wherein the oscillating spiral spring (18) results in the two arms, each of which has one downwards Frequency of the balance oscillation from the swinging or above angled flange with an opening amplitude is dependent. has for receiving the spiral spring from which 5. Apparatus according to claim 2, characterized in that the 40 base part goes out. The first arm of the spiral key draws, that the spiral closes! (24) a base which has a side part that is in contact has part (26), which is substantially circular with the spiral spring, is used to the and is forked. Coil spring to issue such a position that this through the middle of the slot of the second arm of the , 15 spiral wrench and also the to change the effective length of the spiral spring. The spiral spring vibrates within the slot of the two The invention relates to a time-keeping device, in the arm of the spiral wrench. The angle between a watch, with a spiral spring containing both arms of the spiral key and the tendon balance construction and with a spiral ;; ₀ Width of the slot in the second arm of the spiral wrench, key is chosen so that the desired insulation The use of spiral wrenches in clocks is a synchronism characteristic is generated,
common, and many watches contain spiral wrenches, so having the present invention is the advantage which touch the coil spring to the effective connected that they change a new and improved length of the same. While duration suggests 35 spiral keys for synchronized watches, the spiral key can be used to use the clock the spiral an oscillator to maintain a positive isosynchronism spring. Regarding the state of the characteristic, which movement technique is given to U.S. Patents 2,307,841, 6 <> of the spiral wrench is not disturbed.
482 351 and 3,517 503 as well as the Swiss Further advantages and details of the invention Patent specification 338 770 pointed out, however, which will be explained in more detail below with reference to a drawing mainly deal with special problems. explained and / or are the subject of the Schulz A claim is made from the USA patent specification 2 183 062. In the drawing shows
Spiralschlüssci known, which two in a wide range 65 F i g. Fig. 1 is a side view of a balance construction having prongs arranged from one another. The and a spiral wrench as a time-keeping device shaft of the balance is thus with the help of a spiral according to the invention,
spring causes vibrations, which intentionally F i g. 2 a perspective view of the spiral