DE4010837C1 - - Google Patents

Description

The invention relates to a watch with a watch case, the Viewing opening is closed by a glass, with an inside of the Watch case rotatably driven bezel, with one on the Bezel arranged ring gear, in which a drive gear engages the has a drive pin, via which the drive gear from the housing outside in effect by a manually rotatable actuating shaft connectable to the drive pin and the drive pin through the adjusting shaft is rotatably drivable.

Such a clock is known from CH-PS 5 10 905. Contrary to one Spring force is the actuating shaft in a positive connection with the drive cone can be brought. Then turn the control shaft the drive pin, the drive gear and the ring gear the bezel emotional. It is difficult to adjust the bezel precisely adjust the position of the bezel. This difficulty is special large if the drive pin is adjustable by means of a sealing crown, because the existing elastic sealing rings there after an adjustment reshape the gear, thereby reducing the Guide bezel.

Especially when on the bezel in different positions city names are arranged to which the time of the associated country is assigned is, it is important to exactly position the required position in each position increase.

The object of the invention is therefore a clock of the type mentioned train that the bezel easily in the desired location can be positioned exactly.

This object is achieved in that the bezel rotatable by certain angular steps and by one after one performed angular step resilient locking device in one Locking position can be fixed, with the drive pin and adjusting shaft by one certain angle freely rotatable relative to each other about their longitudinal axes are. Through this training, the exact locking device Determines the position of the desired setting of the bezel and fixes it hold. Since the adjusting shaft is only used for the adjustment process with the drive tenon is in operative connection, but is otherwise effectively decoupled, is each Applying force to the locking device in the adjustment direction is avoided.

Such an effective decoupling is achieved in a simple manner by Drive pin and actuating shaft are arranged coaxially to each other. Here can the end of the drive pin facing the adjusting shaft right have angular cross section and of the axially to the longitudinal axis of the Drive tap  fens extending prongs of the fork-shaped end the control shaft with a certain play is.

The tines can cross a sector-like cross own cut.

For manual adjustment of the control shaft, this can be done in one the inside of the watch case with the case exterior ren connecting recess be rotatably supported and at its end protruding from the watch case Wear crown. You can choose between the crown and the Watch case a seal surrounding the recess be arranged to ensure tightness one under tension between watch case and crown arranged elastic sealing ring can be.

The locking device can be formed in that the drive pin on its cylindrical mantle che has a locking recess into which a radial latching spring element loaded inwards is cash.

A particularly simple and safe posi The locking element is a locking ball.

So that the locking element in the disengaged state Moving on a precisely defined path can do that Locking element in a radially extending housing fixed guide can be arranged movably.

The locking recess has one across the length axis of the drive pin extending V-shaped Cross section, that's what the spring-loaded Rastele tries  ment always from the longitudinal axis of the drive pin to take the least distant position. This is exactly the center of the V-shaped recess. Consequently the drive pin is positioned exactly and with it the bezel.

A particularly exact positioning with securing in the set position is achieved in that the Drive pin several distributed around the circumference Has locking recesses, resiliently in the locking elements can be snapped into place. Only a small amount of space is required This is the case if the recesses are in one plane perpendicular to the longitudinal axis of the drive pin the same are moderately distributed around the circumference.

Encloses a ring spring at the radially outer ends of the latching elements, all latching elements are adjacent only a single spring element to act on everyone Locking elements required.

If the drive pin has three locking recesses and forms the cross section of the drive pin in the An isosceles three in the middle of the recesses corner, the V-shaped recesses form the same radial ramps for moving the locking elements outside, which is a non-blocking movement of the rest have an angle that ensures elements.

By the number of locking positions per revolution of the Drive pin and the number of teeth of the drive tooth rads and the bezel of the bezel is the angle an angular step.

An embodiment of the invention is in the  Drawing is shown and will be closer in the following wrote. Show it

Fig. 1 is a half section of a clock,

Fig. 2 is an exploded view of the adjusting parts of the bezel of the watch of Fig. 1,

Fig. 3 are sectional views along lines AA and BB in Fig. 1 in a basic position,

Fig. 4 sectional views along the lines AA and BB in Fig. 1 in an adjustment position.

Fig. 5 are sectional views taken along lines AA and BB in Fig. 1 in a lung Verstellmittelstel,

Fig. 6 are sectional views taken along lines AA and BB in Fig. 1 in a Verstellendstellung,

Fig. 7 sectional views along the lines AA and BB in Fig. 1 in a second Grundstel development.

The clock shown in the figures has a Uhrge housing 1 with a viewing opening 2 , which is closed by a glass 3 .

An annular bezel 4 is rotatably mounted in the interior of the watch case 1 . On the side facing away from the opening 2 , the bezel 4 is provided with a ring gear 5 in which a drive gear 7 , which can be driven about a radially directed longitudinal axis 6, can be driven. The drive gear 7 is rotatably connected to a rotatable about the longitudinal axis 6 drive pin 8 .

The directed towards the outside of the housing free end 9 of the drive to pin 8 has a rectangular cross-section, of the fork-shaped end of the ge to the interior of the watch case 1 facing prongs 10 of an adjusting shaft 11 is surrounded with play.

The control shaft 11 extends coaxially to the drive pin 8 through a recess 12 in the watch case 1 to the outside of the case and there carries a crown 13 which is screwed onto a thread 14 at the end of the control shaft 11 protruding from the watch case 1 .

In the recess 12 an outwardly projecting bearing sleeve 15 is inserted, in which the actuating shaft 11 is rotatably mounted and axially secured. The crown 13 encompasses the outer end of the bearing sleeve 15 in a pot-like manner, an elastic sealing ring 16 being arranged under radial prestress between the part of the crown 13 encompassing the bearing sleeve 15 and the cylindrical outer surface of the bearing sleeve 15 . As a result, the inside of the watch case 1 is sealed to the outside.

As can be seen in particular in FIGS . 3b to 7b, the tines 10 have a circular sector-like cross section, the extent of which is less than 180 °. The approximately diagonally opposite contact legs 17 of the tines 10 run parallel to each other with a distance that is slightly larger than the width of the rectangular end 9 of the drive pin 8 . Characterized a game between the prongs 10 and the rectangular end 9 is achieved, which ensures a free rotation Ver by a certain angle of the drive pin 8 and the actuating shaft 11 relative to each other.

The drive pin 8 is rotatably mounted in a bearing bore 18 of a positioning piece 19 arranged in the watch case 1 . On its cylindrical circumferential surface of the drive pin 8 with three is on a plane perpendicular to the longitudinal axis 6 uniformly distributed peripheral locking recesses provided at the 20th The locking recesses 20 have a V-shaped cross section and extend transversely to the longitudinal axis 6 . This configuration of the drive pin 8 has in the center of the locking recesses 20 a cross-section which forms an isosceles triangle.

In the same plane as the locking recesses 20 , three evenly distributed circumferentially, radially directed guides 21 are formed in the positioning piece 19 , in each of which a locking ball 22 is radially movable GE leads.

The positioning piece 19 is in the middle of the guides 21 with a radially outwardly open, radially encircling the annular groove 23 , in which an annular spring 24 is arranged, which surrounds the locking balls 22 and acts radially inwardly resiliently. As a result, the locking balls 22 are pressed into the respective locking recesses in their area.

In FIGS. 3 to 7, the different positions are shown of an adjustment step.

Fig. 3 shows the basic position in which these two components are out of operative connection due to the play between drive pin 8 and actuating shaft 11 . This can be seen in particular in FIG. 3b.

In this position, the detent ball 22 is pressed by the annular spring 24 into its lowest possible position in the recesses 20 . Since the drive pin fen 8 is freely rotatable freely by a certain amount, the locking balls 22 act on the locking recesses 20 so that the drive pin 8 and thus also the bezel 4 assume the exact position to be positioned. To adjust the bezel 4 by one step, an adjustment can be made in the same way in both directions of rotation, the actuating shaft 11 is moved by means of the crown 13 until the contact 10 of the pins 10 on the surfaces 25 of the end 9 of the drive pin 8 and this taken along in rotation. This is shown approximately in FIG. 4. Since the locking balls 22 are already moved by a small amount radially outwards through the walls of the locking recesses 20 . This radial movement of the locking ball 22 to the outside is continued by further turning the crown 13 and the actuating shaft 11 until the maximum position shown in FIG. 5 is reached, in which the locking balls 22 are on the border between two adjacent locking recesses.

With further rotation of the crown 13 , the locking balls 22 move into the recess adjacent to their original Rastver recess ( Fig. 6) until they have largely taken the lowest possible position in this new recess 20 . If the crown 13 is no longer actuated, the locking balls 22 now press the drive pin 8 into the optimal position, so that the bezel 4 is exactly in the new basic position.

Claims (14)

1st watch with a watch case, the viewing opening of which is closed by a glass, with a rotatable drivable arranged bezel inside the watch case, with a ring gear arranged on the bezel, into which a drive gear engages, which has a drive pin via which the Drive gear from the outside of the housing by a manually rotatable actuating shaft can be brought into operative connection with the drive pin and the drive pin can be rotatably driven by the actuating shaft, characterized in that the steady rest ( 4 ) can be rotated by certain angular steps and by a step after a completed angle resiliently engaging locking device in a locking position fixier bar, the drive pin ( 8 ) and actuating shaft ( 11 ) are freely rotatable relative to each other about their longitudinal axes ( 6 ). 2. Clock according to claim 1, characterized in that the drive pin ( 8 ) and actuating shaft ( 11 ) are arranged coaxially to one another. That the actuating shaft (11) facing the end (9) driving pin (8) 3. Watch according to claim 2, characterized in that the on a rectangular cross section and from the axial to the longitudinal axis (6) of the drive stud (8) extending prongs ( 10 ) of the fork-shaped end of the adjusting shaft ( 11 ) is gripped with a certain play. 4. Clock according to claim 3, characterized in that the prongs ( 10 ) have a circular sector-like cross-section. 5. Clock according to one of the preceding claims, characterized in that the adjusting shaft ( 11 ) in a the interior of the watch case ( 1 ) with the Ge housing outer connecting recess is rotatably gela gert and at its end from the watch case ( 1 ) projecting Wearing the crown ( 13 ). 6. Clock according to claim 5, characterized in that a seal enclosing the recess is arranged between the crown ( 13 ) and the watch case ( 1 ). 7. Clock according to claim 6, characterized in that the seal is a pre-tensioned between the Uhrge housing and crown ( 13 ) arranged elastic sealing ring ( 16 ). 8. Clock according to one of the preceding claims, characterized in that the drive pin ( 8 ) on its cylindrical outer surface has a locking recess ( 20 ) into which a radially resiliently loaded locking element can be locked. 9. Clock according to claim 8, characterized in that the locking element is a locking ball ( 22 ). 10. Clock according to claim 8, characterized in that the latching element is arranged movably in a radially extending guide ( 21 ) fixed to the housing. 11. Clock according to claim 8, characterized in that the locking recess ( 20 ) has a guer to the longitudinal axis ( 6 ) of the drive pin ( 8 ) extending V-shaped cross section. 12. Clock according to one of the preceding claims, characterized in that the drive pin ( 8 ) has a plurality of locking recesses distributed around the circumference ( 20 ), can be resiliently locked into the locking elements. 13. Clock according to claim 12, characterized in that the locking recesses ( 20 ) in a plane perpendicular to the longitudinal axis ( 6 ) of the drive pin ( 8 ) are arranged evenly distributed on the circumference. 14. Clock according to claim 13, characterized in that an annular spring ( 24 ) at the radially outer ends of the locking elements closes all locking elements around. 15. Clock according to claims 11 and 13, characterized in that the drive pin ( 8 ) has three Rastver recesses ( 20 ) and the cross section of the drive pin ( 8 ) in the middle of the recesses ( 20 ) forms an isosceles triangle.