DE2622864A1 - ELECTRIC CLOCK - Google Patents

Description

Applicant: Kabushiki Kaisha ijeikosha, Tokyo, Japan Seiko Koki Kabushiki Kaisha, Tokyo, Japan Kabushiki Kaisha Suwa Seikosha, Tokyo, Japan

Electric clock

The invention relates to an electric clock according to the preamble of claim 1.

In conventional electrical or electronic clocks, the housing is used to protect the internal components, the gear train or the clockwork and the base or housing plates for the individual components of the clockwork from individual, separate Components, which inevitably lead to a certain size of such clocks due to their construction Housing and the high number of components required.

The object of the invention is therefore to reduce the number of parts required to construct such a watch and in this way to enable miniaturization.

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According to the invention, this object is achieved by the subject matter of claim 1 solved.

Due to the advantageous structure of the base plates, which in addition to their original function as base plates for the individual components of the clockwork now also form the housing and also holding elements for mounting and storage of the components of the clockwork, a considerable reduction in the number of components required, a simplification of the clockwork and a miniaturization in particular to achieve a reduction in the thickness of such a watch. To prevent the ingress of Dust and sealing of the bearing point can be the holding elements arrange in such a way that the openings of the bearing points are directed away exclusively from the respective base plate are.

Since the stator and other components are held the movement of the oppositely disposed on the inner sides of the two base plates supports in their respective position of the stator and the other watch components, a vertical position-of the base plates simultaneously achieved in an advantageous manner, except for the mounting ■ : - In addition, the distance between the two base plates can be set or fixed by a component of the clockwork, so that a constant distance between the two base plates can be maintained without additional spacers. Since, according to the invention, the connecting parts provided on the two base plates forming the case are connected to one another over a certain area or a certain extent, the two base plates are held together to form the case with such a force that a loosening or loosening of the two watch cases parts in the vertical direction is hardly possible and a secure mounting or storage for the gear groups of the clockwork is achieved.

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Embodiments of the invention are in the drawing and are described in more detail below.

Show it:

Fig. 1: a plan view of the electrical according to the invention Clock with the base plate 1 removed,

Fig. 2: a cross section through the electric clock according to Fig. 1,

3: an enlarged perspective illustration an essential component of the movement,

Fig. 4: a section, the enlarged view of a connecting device for the two base plates of the Clock illustrates

5: a section through a watch case showing a further embodiment of a connecting device for the two Base plates illustrated

6: a detail of the watch case according to FIG. 5 in an enlarged view, and

Fig. 7: a further embodiment of one in the invention electric clock usable stator.

In the drawing, the reference numbers 1 and 2 denote the base plates which later formed watch cases and which are used for the arrangement of the bearings of the gearwheel groups and others Watch parts required support and holding elements are integrally connected. On the sides of the two base plates 1 and 2 there are connecting parts 3a with corresponding connecting parts 3b are in engagement, whereby the base plates are held together elastically and form a housing. the interengaging connecting parts 3a and 3b have conical parts that connect the two base or housing plates 1 and 2 to one another over a certain area and a loosening of the two base plates 1 and

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-A-

2 prevent housing parts formed in the connected state, in particular in the vertical direction. The two base or housing plates 1 and 2 can be made of synthetic resin such as polycarbonate resin, fluorinated polycarbonate resin, glass fiber reinforced Polyester resin, denatured polyphenylene oxide resin, etc. or consist of metal, e.g. made by die-casting aluminum, but other materials can also be used for production the two base plates are used that have sufficient mechanical strength for use as Base or housing plate as well as sufficient frictional resistance and durability for use as a bearing or bearing material exhibit.

Furthermore, a coil 4 is wound onto a coil former 5 which is fastened to a stator 6. The stator 6 can be a one-piece, U-shaped component which is obtained by punching out of a plate made of magnetic material such as silicon steel. The stator is designed in such a way that it not only fulfills its main function as a motor component, but also serves as a center plate for the clockwork or gear train. The bobbin 5 is inserted into one end of the stator 6 and abuts against stops or projections 6a and 6b which are formed on the stator 6. This installation state is illustrated in the drawing, the end of the bobbin 5 being held in this position by the stops or projections 6a and 6b in the installed state. Although the stator 6 is shown in the drawing as a single disk, it may also be in laminated construction of a plurality of stacked laminations S ,, S _2, each having the same configuration, as illustrated in Fig. 7. The ends of the bobbin 5 are held by projecting Haiteelemente a, which are formed on the base plates 1 and 2 and also stand pieces as spacers or Ab for the two housing plates

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1 and 2 are used.

On one as an extension of an end part of the bobbin 5 formed holding plate 5a is a circuit arrangement with various electronic components, such as e.g. a quartz oscillator, an integrated circuit, a trimmer, etc., arranged. To attach this circuit arrangement A printed circuit board already provided with the required electronic components can be attached to the holding plate 5a be connected to the holding plate 5a.

A rotor 7 is in engagement with a second wheel 9 via a second or center wheel 8, the second wheel 9 being over an intermediate gear 10 is engaged with a minute gear 11. The minute wheel 11 is via an intermediate wheel 12 with an hour wheel 13 engaged. Reference numeral 14 denotes a second hand shaft fixed to the fourth wheel 9, while the reference numeral 15 a minute hand tube formed in one piece with the minute wheel 11 and the reference numeral 16 in one piece with the Designate hour wheel 13 formed hour hand tube. With A pinion 18, which is formed in one piece with a pointer setting knob 17, is also in engagement with the intermediate gear 12. at This embodiment of the invention consists of all watch parts with the exception of the motor, the electrical or electronic Components and the second hand shaft 14 made of plastic or synthetic resin.

In connection with the description of this gear group, the formation of the intermediate gear 10 is to be included in the following Will be described in more detail with reference to FIG. 3. The intermediate gear 10 consists of a shaft part lob with which a pinion 10a Is formed in one piece, and an intermediate gear lOc. On the underside of the intermediate gear lOc are two symmetrical Bridge-like excellent elastic connecting elements iodine formed. These elastic connecting elements 1Od have a distance from each other that is a little less than that

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Outer diameter of the shaft lob of the intermediate gear 10 is so that the opposite sides of the connecting elements 1Od elastically against the corresponding side surfaces of the shaft 10b while exerting a certain frictional force or a certain friction torque are pressed, whereby both the intermediate gear lOc as during the normal movement of the pointer also praise the shaft jointly due to this frictional force or this Frictional torque are rotated, the power transmission between the intermediate gear lOc and the shaft lob is interrupted when an intentional pointer rotation occurs. The frictional force or the frictional torque depends on the size (length, thickness and width) of the respective elastic connecting elements 1Od, the outer diameter of the shaft lob and the distance between the opposite side parts of the connecting elements, so that the configuration and dimensions of these parts accordingly to be chosen according to the intended use. At the upper end part of the shaft lob is a widened bead-like part 10e formed, which is firmly in engagement with the elastic connecting elements 1Od in order to prevent the shaft from accidentally falling out to prevent.

In the following, the mounting and storage of the gearwheel assemblies will now be discussed or gear groups and other clock parts and components are described. The gear arrangements or gear groups are held or stored by the base plates and 2 forming the housing or by parts of the stator 6. In addition, supports or support parts are provided that allow these watch parts to be inserted easily and to fall out of the gearwheel parts in the automatic assembly of the gearwheel assembly or the gearwheel groups, for example using a suitable automatic installation device.

In addition, holding elements 19 and 20 for holding the rotor 7 are integral with the base or housing plates 1 and 2

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educated. The holding element 20 has a support part 20a for mounting the shaft journal of the rotor shaft and one which is formed in one piece with the support part 20a in the axial direction tubular part 20b. The tubular part 20b is designed in such a way that it supports the rotor 7 by means of its inner walls holds in a certain position, even if the base plate 1 has not yet assumed its position. In addition, by means of the tubular part 20b, the rotor 7 is kept at a certain distance from the stator 6 when the rotor 7 has inclined up to a certain limit value or is a little inclined. This arrangement is easy The base plate 1 can be fitted in because the rotor is in a certain predetermined position after it has been installed by means of the holding element 20 can be maintained until the base plate 1 is fitted or fastened as part of the automatic installation process is. The other holding element 19 has a support part 19a and one formed in one piece with the support part 19a convex guide part 19b. The guide part 19b is designed such that it the shaft or bearing journal of the rotor shaft gently leads to the support part 19a, even if the shaft occurs during the fastening of the base plate 1 is slightly inclined or is a little slanted or crooked.

The holding elements 21, 22 and 23 also provided on the base plate 1, which hold the Mitfcelrad 8, the second hand shaft 14 or the intermediate wheel 10 each hold or store, have essentially the same structure as the preceding described holding element 19 and each comprise a support part 21a, 22a and 23a and a guide part 21b, 22b and 23b, which are identical in terms of their configuration to the parts already described. The other end part of the center wheel 8 is in a bearing shell made of plastic and fitted into the stator 6 by means of a press fit or bearing bush 24 stored. This shaft can also be installed directly in the stator 6 without using the bearing shell or bearing bush 24

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be stored. In this case, in order to achieve better lubrication, it is desirable to have an oil groove in the stator 6 or to produce the stator from oil-free, dry-running metal. The lower part of the fourth wheel 9 is held by a resilient washer or a spring washer 25, and the second hand shaft 14 is due to the constant compressive force exerted by the spring ring 25 pressed elastically against the support part 22, causing a tremor or Fluctuation of the second hand (not shown) is avoided. The upper end of the minute wheel 11 is in one in the stator 6 formed recess 26 held or stored. The holding element 27, which is the other end of the shaft of the intermediate gear 10 supports, has essentially the same structure as the holding element 23, but the intermediate gear 10 is also still held in a hole or a recess 28 of the stator 6 and thus against falling out after insertion into the holding element 27 secured (with the base plate 1 not yet attached or attached). Another intermediate gear 12 is rotatably mounted on a shaft-like bearing part 29 which is part of the base plate 2 and protrudes from it. A falling out of the intermediate gear 12 is prevented by the underside of the stator 6 when it is installed. Also serves the shaft-like bearing part 29 also for positioning the stator 6. The holding element 30 for the rotatable mounting of the pinion 18 of the pointer adjustment knob 17 has a support part 30a for mounting the journal 18a of the pinion 18, an open guide part formed in one piece with the support part 30a 30b and a projection 30c with a flat or even top. The bottom of the pinion 18 is from the flat Surface of the projection 30c held so that the pinion can not fall out when the base plate 1 is not attached is. If the base plate 1 has taken its position after assembly, the shaft part 17a of the pinion 18 is in a certain position in a recess 31 of the base plate 1

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held, which forms an arched depression at this point.

In the following, the holding device for the stator 6, which also serves as the middle plate. The stator 6 is of holding share 32, 33 'and 34 and the shaft-like bearing part 29 supported and held. The holding parts 32 and 33 have the same structure, and a smaller one Projection 35a of a Tconical, truncated cone formed integrally with the base plate 2 and protruding therefrom Support 35 is passed through a hole 36 formed in the stator 6 and then into a hole 37a of another conical, frustoconical support 37 fitted, the protrudes from the base plate 1, as can be seen in FIG. 2, so that there is a firm support for the stator, since in vertical direction from each of the two supports 35 and 37 a compressive force is exerted on it. The holding part 34 is such designed that the stator is held essentially by supports (not shown) which consist of the base plates 1 and 2 stand out. The supports 35 and 37 serve not only as fastening means for the stator 6 but also as spacers for the Base plates 1 and 2.

In the base plate 2, a housing 39 for a battery 38 is also formed, on the side walls of the battery housing a positive (+) connection terminal 40 and a negative (-) connection terminal 41 are provided. Of the Connecting terminal 40 extends a strip-shaped, angled contact spring 40a to a power supply terminal of the circuit arrangement fastened on the holding plate 5a and its end is welded to this power supply connection. An end part runs opposite. 41a of the connection terminal 41 along the outer wall of the battery case 39, which is bent at a suitable point and at its end to the power supply connection of the main

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plate 5a is welded.

In the above-described embodiment of the
Invention is the thickness or the distance between the
Top of base plate 1 and the underside of base plate 2 17 mm. This represents an extremely small thickness for a watch including the watch case, which could be achieved by the integrated assembly of the base plates forming the watch case and an advantageous arrangement of the stator, which also serves as the middle plate.

In the following, the principle of operation of the clock constructed according to the invention described above will be briefly described. When the rotor 7 from the output signal of the
Quartz oscillator is set in rotation, the second wheel 9 is rotated via the center wheel 8 and performs one full revolution in one minute, while the minute wheel 11 is rotated via the intermediate wheel 10 and one full revolution in one hour, and the hour wheel 13 is rotated via the intermediate wheel 12 and performs a full revolution within 12 hours, whereby a correct time display is obtained.

To correct the pointer position, all that is necessary is to turn the pointer adjustment knob 17, which means that the
Intermediate gear 12 via the pinion 18 of the pointer adjustment button
17 is set in rotation, a corresponding rotation of the
The hour wheel 13 and the minute wheel 11 causes and thus brings about the desired correction. In this case, the pinion 10a and the shaft part 10b of the intermediate gear 10, which are formed in one piece with the pinion 10a and which are illustrated in detail in FIG and the shaft lob relative to each other on their friction surfaces with which they interact

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other are in contact, and applied to the pointer by hand Rotational movement is not transmitted to the following gears.

As can be seen from FIG. 4, the support 37 for holding and fixing the stator 6 can additionally be at the end of the hole 37a a small annular projection 37b may be formed, while a corresponding one on the opposite support .35 annular recess or recess 37b is formed, with which the annular projection 37b according to FIG. 4 in Intervention occurs. This arrangement prevents the base plates 1 and 2 from bulging in the vertical direction, at the same time the possibility is kept low that the gears or groups of gears due to a Impact or an impact occurring from the outside are no longer in engagement with the associated holding elements.

5 and 6 is another form of connection two base plates 1 and 2 illustrated. With this type of connection, connecting supports 42 are at suitable locations mounted on one of the two base plates, e.g. The base plate, in this case the underside of the base plate 1, reach, the supports having a connecting projection on their upper part 45 with a hook part 43 which is diametrically deformable by pressing in a gap groove 44, and the connection in formation before jumps 45 each to connect the two Base plates 1 and 2 can be fitted into corresponding holes 46 formed in the base plate 1. Through this a secure connection between the two base plates 1 and 2 guaranteed, while at the same time a bulge in vertical direction is prevented.

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Claims (5)

-12- May 21, 1976 S-3935 Claims 1. Electric clock with a motor-driven clockwork and two base or base plates, characterized in that that each of the two base or base plates (1, 2) holding elements (19-24, 27, 29, 30) for holding and fastening of the individual components (7-13, 17) of the movement, which are connected to the respective base or base plate (1 or 2) are integrally formed, and that the two base or base plates (1, 2) form the watch case when connected. 2. Electric clock according to claim 1, characterized in that the holding elements (19-24, 27, 29, 30) form bearings for the components (7-13, 27) of the movement, the openings of which are separated from the respective base or base plate (1 or 2) are directed away, whereby the components (7-13, 17) of the clockwork held movably in their respective positions and be stored. 3. Electric clock according to claims 1 or 2, characterized characterized that on the inside of the base or Base plates (1, 2) opposing supports (35, 37) are formed, the end parts (35a, 35b, 37a, 37b) of which at least one component to be arranged between the two base plates (1, 2). (6) hold the movement in place, causing the supports (35, 37) both secure the movable mounting of the components' (7-13, 17) of the clockwork and act as spacers serve for the two base or base plates (1, 2). 4. Electric clock according to one of claims 1-3, characterized I see that at least one component (6) 609850/0717 of the clockwork is designed to adjust the distance between the two base or base plates (1, 2) and as a - Serves standstill. 5. Electric clock according to one of claims 1-4, characterized in that a connecting element (3a) is formed at a connection steeply of a base or base plate Base plate (2) formed connecting element (3b) enters into engagement, whereby the two base or
Base plates (1, 2) over a certain area due to the elastic connection of the connecting elements (3a, 3b) to
Formation of the watch case are connected to one another, the components (7-13, 17) of the clockwork being movable in their respective positions by the holding elements (19-24, 27, 29, 30 ) are kept and stored. 609850/071 7 Blank page