CN106970512A - The adjusting means of clock and watch - Google Patents

Abstract

The present invention relates to a kind of adjusting means of clock and watch, with adjustment axis, it is by being axially moved from normally null positions are moved on to, and the zero-bit driven by the motion triggers spring force is driven, and pointer is driven into zero-bit in which can move by it.With coupler, needle pivot is of coupled connections by it with clockwork feed device power cooperation, and the connecting key of prestress is arranged between both gear devices, and it loads coupler on coupling direction.Coupler is the coupler for the power and/or form fit that can be released, and is had：First coupling disc coaxial with needle pivot, needle pivot antitorque connection therewith；By second and three coupling discs of the antitorque connection of gear device, it coaxially accommodates the first coupling disc in-between and from connecting key to its loading force with needle pivot；The separator operated by adjustment axis, by its by adjustment axis motion, second and three the coupling disc frictional position that can be leaned against by its frictional fit on the first coupling disc move on to the release position that it is raised from the disk.

Description

The adjusting means of clock and watch

Technical field

The present invention relates to a kind of adjusting means of clock and watch, with adjustment axis, it can be transported by being axially moved from normal position Move in null positions, wherein, it can trigger what spring force drove by motion of the adjustment axis from normal position to null positions Zero-bit is driven, and the pointer being fixedly placed on needle pivot is driven into null positions with moving by the zero-bit driving energy, is adjusted Regulating device has a coupler, and the needle pivot of pointer is of coupled connections by the coupler power cooperation with the clockworks of clock and watch, its In, the connecting key of prestress is disposed between needle pivot and the gear device of clockwork, it is on coupling direction Coupler is loaded.

Background technology

In order to realize the zero-bit of pointer, the driving without being related to spring motor for this, in such dress For the pointer of adjusting timekeeper in putting, a kind of coupler is known, by the coupler by the needle pivot of pointer and clock and watch Be of coupled connections to spring motor power cooperation and in order to pointer sets back and uncoupling.

The content of the invention

The purpose of the present invention is to propose to the device that a kind of pointer of the clock and watch for starting the type sets back, its The easy zero-bit of pointer can be realized during less physical dimension.

The purpose is achieved according to the present invention, i.e., coupler is the coupling of the power cooperation and/or form fit that can release Device, it has first coupling disc coaxial with needle pivot, and needle pivot is torsionally connected therewith and coupler has the second coupling Disk and the 3rd coupling disc, the two is torsionally connected by gear device, wherein, the second coupling disc and the 3rd coupling disc are with referring to Needle shaft coaxially accommodates the first coupling disc in-between, and carries out power loading, coupling towards the first coupling disc by connecting key Utensil has the separator that can be operated by adjustment axis, by the separator by adjustment axis from normal position to null positions Motion, the second coupling disc and the 3rd coupling disc can be resisted against the frictional position motion on the first coupling disc by its frictional fit In the release position being raised to it from the first coupling disc.

Pointer is preferably second hand herein and needle pivot is second hand axle.

Minute hand can be for example adjusted by adjustment axis.Adjustment axis still can be used for winding up for clock and watch.

By the design, in order to set back, coupler by by second and the 3rd coupling disc from the first coupling disc It is raised and disconnects and thus release the connection between needle pivot and the gear device of clock and watch, so that needle pivot energy It is enough at least largely to enter without resistance in zero-bit.

By an only unique connecting key, it not only to second but also is connecting direction to the 3rd coupling disc (Schliessrichtung) acted on, obtain less physical dimension.

In addition it also thereby is achieved less physical dimension, that is, there are two coupling discs for being used for connecting coupler, i.e., the Two and the 3rd coupling disc, it can have less diameter in high bonding force.

When the second coupling disc has multiple parallel with needle pivot roofbolts, second and the 3rd coupling disc can be with simple side Formula is held against on the first coupling disc by unique connecting key, wherein roofbolt by by the 3rd coupling disc towards the first coupling disc The connecting key of loading carries out power loading so that roofbolt pulls the second coupling disc against the first coupling disc.

Connecting key can be herein the spring with multiple spring arms being radially directed towards to save weight, wherein, each The spring arm end of inner radial be applied on the 3rd coupling disc and wherein each radially outer spring arm end axially It is supported on one of roofbolt.

For not only the second coupling disc but also also the 3rd the coupling disc rise simultaneously from the first coupling disc, separator can So that with least one expansion wedge, the expansion wedge non-can be separated from what the second coupling disc and the 3rd coupling disc were radially spaced Position is moved in the separation point position being radially introduced between the second coupling disc and the 3rd coupling disc towards the first coupling disc, its In, expansion wedge has a thickness in the bearing of trend of needle pivot, and the thickness is more than the thickness of the first coupling disc.

In order to simply be inserted radially into expansion wedge between the second coupling disc and the 3rd coupling disc, expansion wedge is in its footpath On to the end in face of the first coupling disc have the thickness smaller than the thickness of the first coupling disc, wherein, expand wedge thickness with The thickness bigger than the thickness of the first coupling disc is expanded to radially away from the first coupling disc.

Cause the first and second coupling discs when separator is with expansion wedge opposite on two at least approximate diameter From the uniform rise on the first coupling disc, the expansion wedge can be jointly by adjustment axis in its separation point position and Qi Fei separation point positions Between move.

By adjustment axis when it is from axial movement of the normal position on the direction of null positions, actuating linkage or behaviour Vertical leverage can swingingly drive around an axis or respectively around an axis from home position (Ruhepostion) Into the trigger position of triggering zero-bit driving.

If a spacing of expansion wedge down to expansion wedge axis is arranged on expansion wedge lever herein, wherein, expand wedge Lever energy supports around expansion wedge axis oscillating and can be swingingly from non-by actuating linkage or actuating linkage device Separation point position is driven into separation point position, then actuating linkage or actuating linkage device are in the way of saving part not only to zero Position driving is manipulated but also the expansion wedge of separator is manipulated.

In a simple design, zero-bit driving is with the commutation that can be supported around reverse lever axis oscillating Lever (Herzhebel), the reverse lever by adjustment axis from normal position to zero-bit in axial movement drive with moving, Wherein, reverse lever has regulation face down to one spacing of reverse lever axis, and the regulation face is in adjustment axis normal position So that the axial rings of centroid disk being fixedly mounted on needle pivot around the radial direction spacing of centroid keep and zero It is resisted against in position under spring force on centroid.

In order to avoid reverse lever adjusts face and radial direction ring using it in the case of the adjustment axis in normal position Around centroid against actuating linkage or actuating linkage device can have spacing retaining pin in a simpler way, pass through Spacing retaining pin in the normal position of reverse lever using its adjust face so that radially around centroid radial direction spacing Keep.

In order to make spring motor stop during the regulation of pointer, moved by adjustment axis at it from normal position Holding meanss can be manipulated during into null positions, so that the spring motor of clock and watch stops.

If can be manipulated in this holding means by actuating linkage or actuating linkage device, then actuating linkage or behaviour Vertical leverage also meets other function, and this causes the further reduction of component and and then also has and construct space and diminish.

Brief description of the drawings

Embodiments of the invention are shown in the drawings and next further described.Shown in figure：

Fig. 1 is the top view of the adjusting means in normal position,

Sections of the Fig. 2 along the line A-A in Fig. 1,

Fig. 3 be according to the top view of Fig. 1 adjusting means in null positions,

Fig. 4 is the sectional view along the line B-B in Fig. 1,

Fig. 5 is looking up for the coupler, null-setting device and separator of the adjusting means in Fig. 1 in normal position Figure.

Embodiment

The adjusting means for adjusting timekeeper shown has adjustment axis 1, its can by its figure 1 illustrates normal position Axially move to its figure 3 illustrates adjusting position in.Stretched on the watchcase that adjustment axis can never be shown on the right side of it The end gone out has table hat, is preced with by the table, in the case of the adjustment axis in adjusting position, the minute hand energy of such as clock and watch Enough it is adjusted by the rotation of adjustment axis.

Adjustment axis 1 has annular groove 2, is engaged with an end of the first double-arm actuating linkage 3 in this wise wherein, I.e. the actuating linkage by adjustment axis 1 from normal position to adjusting position in axial movement and can around axis 4 swingingly It is driven into from home position (Fig. 1) in trigger position (Fig. 3).

The pin 5 stretched out parallel to axis 4 is disposed with the second end of actuating linkage 3, can be around commutation by the pin Lever axis 8 swing double-arm reverse lever 7 the first arm 6 can swingingly from null positions be loaded into normal position in simultaneously And during the second arm 9 of reverse lever 7 is loaded into its null positions from its normal position.Second arm 9 of reverse lever 7 can be by pin The free end of 5 loadings is designed to spring arm 10.

So that a spacing of reverse lever axis 8, its second arm 9 has regulation face 11, its in reverse lever 7 just In normal position with centroid disk 13 radially around centroid 12 at a distance of a radial direction spacing, the centroid disk fixes Ground is arranged on the second hand axle 14 of carrying second hand 15 and can be rotatably driven around pointer axis 47.

If by manipulating adjustment axis 1, reverse lever 7 is put by the first actuating linkage 3 from its normal position (Fig. 1 and 2) Move in its null positions (Fig. 3 and 4), then regulation face 11 is just resisted against centroid 12 by the spring loads of spring arm 10 On.By adjusting radial loaded of the face 11 to centroid 12, centroid disk 13 is swung until regulation face 11 is to reaching pointer At the radial direction minimum position of axis 47.Thus, the second hand 15 being arranged on second hand axle 14 is also moved in its zero-bit.

In addition, being fixedly arranged on second hand axle 14 has the first coupling disc 16.The second coaxial coupling with the first coupling disc 16 Close the side that the coupling disc 18 of disk 17 and the 3rd is arranged in the first coupling disc 16.

Second coupling disc 17 and the 3rd coupling disc 18 have the diameter bigger than the first coupling disc 16.In surrounding for radially outer Region in, two roofbolts 19 are equably circumferentially dispersedly disposed with the second coupling disc 17, it is radially first The outside of coupling disc is protruded by and with gap as small as possible by the opening of the 3rd coupling disc 1, and in its free end Portion has the stopper section 24 protruded radially around ground.

Connecting key 20 is using the 3rd coupling disc 18 of the encirclement of region 21 of its inner radial away from the first coupling disc 16 The sleeve shaped lug boss 22 that protrudes of side, and with two spring arms 23 for being radially outward directed, the two utilizes its freedom End is respectively supported on one of stopper section 24, and due to the prestressed reason of spring arm 23, the 3rd coupling disc 18 and There is the second coupling disc 17 to be extruded towards the first coupling disc 16 by roofbolt 19.In this kind of state, three coupling discs 16,17, The torsionally connection coupled to each other of 18 power cooperations ground.The gear device 25 of the spring motor being not shown of clock and watch and Three coupling discs 18 are torsionally connected, so as to be realized in the case of the coupling disc 16,17 and 18 of torsionally connection coupled to each other By spring motor to the first coupling disc 16 and using the coupling disc to second hand axle 14 and second hand 15 rotation driving.

In addition, ring gear 46 is torsionally connected with gear device 25.

The end with pin 5 of first actuating linkage 3 is engaged to double what can be swung around second axis 28 using pin 5 In longitudinal opening 48 on the end of first actuating linkage arm 26 of the second arm-type actuating linkage 27, second actuating linkage by This can swingingly be driven when the first actuating linkage 3 is swung by it.

Be disposed with the free end region of the second actuating linkage arm 29 of the second actuating linkage 27 with radially around Separation curve 31 curve disc 30.The the first double-arm separation lever 33 that can be swung around the first separation lever axis 32 One end 34 is resisted against on separation curve 31, and can swingingly driven due to the separation curve 31 risen in clockwise It is dynamic.The first expansion wedge 35 is disposed with the second end of the first separation lever 33.Transported by the swing of the first separation lever 33 Dynamic, the first expansion wedge 35 can be in the non-separation point position away from the first coupling disc 16 and close in the plane of the first coupling disc 16 Moved between the separation point position of first coupling disc 16.

Expand wedge 35 has the thickness smaller than the first coupling disc 16, the thickness at it on the end of the first coupling disc 16 The thickness bigger than the thickness of the first coupling disc 16 is increased to then as with distance that the first coupling disc 16 increases and V-arrangement.

Wedge 35 is being expanded from its non-separation point position to during motion in its separation point position, and it reaches the second coupling disc 17 and the Between three coupling discs 18.The region with the thickness bigger than the thickness of the first coupling disc 16 for expanding wedge 35 is being incorporated into the When between two coupling discs 17 and the 3rd coupling disc 18, the two coupling discs 17 and 18 are raised and and then clock from the first coupling disc 16 The gear device 25 of the spring motor not showed that of table is also separated with second hand axle 14, so as to by heart-shaped bent Drum 13 realizes the zero-bit of second hand 15 in the clear.

In the region of the first separation lever axis 32, the first separation lever 33 is with having approximate right angle towards separation lever The transfer lever 36 of 33 extensions, it utilizes approximate on the other side reception lever 37 of its free end to the second separation lever 38 Free end loaded.

Second separation lever 38 is similarly designed to double-arm and can swung around the second separation lever axis 39.

It is disposed with the second end of the second separation lever 38 and expands wedge 40 with the first expansion wedge 35 corresponding second, its It is opposite with the first expansion diameter of wedge 35.

About from the region of the second separation lever axis 39, the separation for being designed to spring arm of the second separation lever 39 Lever arm 14 is set out towards the first actuating linkage 3 and is resisted against using its free end region on pin 5.Here, separation lever Arm 41 figure 1 illustrates non-separation point position in second separation lever 38 using its second expansion wedge in non-separation point position Under the prestressing force of loading.Figure 3 illustrates separation point position in, separation lever arm 41 is without prestressing force.

By shifting lever 37 and receiving lever 38, the prestressing force is also passed on the first separation lever 33.

In the normal position of the adjustment axis 1 shown in fig 1 and 2, the first actuating linkage 3 and the second actuating linkage 27 are in In home position.Here, the first end 34 of the first separation lever 33 is in the second axis 28 close to the second actuating linkage 27 It is resisted against in region on the separation curve 31 of curve disc 30.This is realized, i.e., two expansions under the spring force of separation lever arm 41 Wedge 35 and 40 is opened to swing in its non-separation point position.

Coupling disc 17 and 18 is resisted against on the first coupling disc 16, so that the spring motor of clock and watch can be rotatably driven Second hand axle 14 and and then driving second hand 15.

Reverse lever 7 adjusts face 11 with centroid 12 at a distance of a radial direction spacing using it.

If in the null positions that present adjustment axis 1 moves to that it shows in figures 3 and 4 from its normal position, then by This actuating linkage 27 of the first actuating linkage 3 and second is just swung in its trigger position by its home position.

Here, on the one hand passing through the separation curve 31 of the curve disc 30 remote with the second axis 28 of the second actuating linkage 27 So that first separates lever 33 and also causes the second separation lever 38 to go to its from its non-separation point position piece and separate position by it In putting, thus, the first expansion wedge 35 and second expansion wedge 40 is by the second coupling disc 17 and the 3rd coupling disc 18 from the first coupling disc 16 are raised and and then so that second hand axle 14 and second hand 15 are separated with the spring motor of clock and watch.

On the other hand, and then the first arm 6 of reverse lever 7 separates with pin 5, so that its spring force in its second arm 9 In the presence of be swingingly resisted against on centroid 12 using its regulation face 11 and centroid disk 13, and caused using it Second hand axle 14 and second hand 15 can be swung in zero position.

Different from the first actuating linkage 3, the second actuating linkage 27, which has, manipulates projection 42, and it is in the second actuating linkage 27 It will can be surrounded in home position and stop the stopping spring 44 that swings of axle of spring 43 and be maintained at it with resisting spring force from stabilizer In 45 un-activated positions being raised.

If the second actuating linkage 27 is swung in its trigger position, then manipulate projection 42 and swing external action using it To stopping on spring 44, so that it is radially resisted against the axial direction of stabilizer 45 in the presence of the spring force acted to it On profile and braked inactive state.

When during adjustment axis 1 moves back into its normal position from its null positions, spring 44 will be stopped again by manipulating projection 42 It is secondary to be raised and discharged again from stabilizer 45.Using reverse lever 7, regulation face 11 is raised from centroid 12, And wedge 35 and 40 is expanded to move in its non-separation point position so that spring motor by gear device 25 again Second hand axle 14 and second hand 15 can be rotatably driven.

List of reference characters

1 adjustment axis

2 annular grooves

3 first actuating linkages

4 axis

5 pins

6 first arms

7 reverse levers

8 reverse lever axis

9 second arms

10 spring arms

11 regulation faces

12 centroids

13 centroid disks

14 second hand axles

15 second hands

16 first coupling discs

17 second coupling discs

18 the 3rd coupling discs

19 roofbolts

20 connecting keys

21 regions

22 protuberances

23 spring arms

24 stopper sections

25 gear devices

26 first actuating linkage arms

27 second actuating linkages

28 second axis

29 second actuating linkage arms

30 curve discs

31 separation curves

32 first separation lever axis

33 first separation levers

34 first ends

35 first expansion wedges

36 transfer levers

37 receive lever

38 second separation levers

39 second separation lever axis

40 second expansion wedges

41 separation lever arms

42 manipulate projection

43 stop axle of spring

44 stop spring

45 stabilizers

46 ring gears

47 needle pivots

48 longitudinal openings.

Claims (12)

1. a kind of adjusting means of clock and watch, has：Adjustment axis (1), the adjustment axis can be transported by being axially moved from normal position Move in null positions, wherein, it can be touched from the normal position to the motion of the null positions by the adjustment axis (1) The zero-bit driving of spring force driving is sent out, the pointer being fixedly placed on needle pivot is driven with moving by the zero-bit driving energy Into the null positions；Coupler, the needle pivot of the pointer by the coupler power cooperation with the clock and watch Clockwork be of coupled connections, wherein, between the gear device (25) of the needle pivot and the clockwork arrange There is the connecting key (20) of prestress, the connecting key is loaded on coupling direction to the coupler, it is characterised in that The coupler is the coupler for the power cooperation and/or form fit that can be released, and the coupler has same with the needle pivot The first coupling disc (16) of axle, the needle pivot is torsionally connected with first coupling disc, and the coupler has the Two coupling discs (17) and the 3rd coupling disc (18), second coupling disc and the 3rd coupling disc pass through the gear device (25) torsionally connect, wherein, second coupling disc (17) and the 3rd coupling disc (18) and the needle pivot are coaxially First coupling disc (16) is contained between second coupling disc and the 3rd coupling disc, and by the connecting key (20) Power loading is carried out towards first coupling disc (16), there is the coupler separation that can be operated by the adjustment axis (1) to fill Put, by the separator by the adjustment axis (1) from the normal position to the motion of the null positions, described Two coupling discs (17) and the 3rd coupling disc (18) can by second coupling disc and the 3rd coupling disc frictional fit The frictional position being resisted against on first coupling disc (16) move to second coupling disc and the 3rd coupling disc from described In the release position that first coupling disc (16) is raised.

2. adjusting means according to claim 1, it is characterised in that second coupling disc (17) have it is multiple with it is described The parallel roofbolt of needle pivot (19), the roofbolt is by the 3rd coupling disc (18) is loaded towards first coupling disc (16) Connecting key (20) carry out power loading so that the roofbolt pulls second coupling disc (17) against first coupling disc (16)。

3. adjusting means according to claim 2, it is characterised in that the connecting key (20) is radially directed towards with multiple Spring arm (23) spring, wherein, the spring arm end of each inner radial is applied on the 3rd coupling disc (18), and And the spring arm end of wherein each radially outer is axially supported on one of described roofbolt (19).

4. adjusting means according to any one of the preceding claims, it is characterised in that the separator has at least One expansion wedge (35,40), the expansion wedge can be between second coupling disc (17) and the 3rd coupling disc (18) The non-separation point position separated move between second coupling disc (17) and the 3rd coupling disc (18) radially towards In the separation point position that first coupling disc (16) is introduced into, wherein, the expansion wedge (35,40) is in the extension side of the needle pivot There is a thickness in, the thickness is more than the thickness of first coupling disc (16).

5. adjusting means according to claim 4, it is characterised in that the expansion wedge (35,40) is in the expansion wedge Sagittal plane on the end of first coupling disc (16) have the thickness smaller than the thickness of first coupling disc (16), its In, the thickness of the expansion wedge (35,40) is expanded to than first coupling with radially away from first coupling disc (16) Close the big thickness of the thickness of disk (16).

6. the adjusting means according to any one of claim 4 and 5, it is characterised in that the separator has two Expansion wedge (35,40) aligned diametrically opposite one another, the expansion wedge can be jointly by the adjustment axis (1) in the expansion Moved between the separation point position of wedge and the non-separation point position of the expansion wedge.

7. adjusting means according to any one of the preceding claims, it is characterised in that by the adjustment axis (1) in institute State adjustment axis from during axial movement of the normal position on the direction of the null positions, actuating linkage or manipulate thick stick Lever apparatus (3,27) can swingingly be driven into from home position around an axis or each axis (4,28) and trigger described In the trigger position of zero-bit driving.

8. adjusting means according to claim 7, it is characterised in that the expansion wedge (35,40) is so that expansion wedge axis One spacing of (32,39) is arranged on expansion wedge lever (33,38), wherein, the expansion wedge lever (33,38) can surround institute State expansion wedge axis (32,39) swingingly support and can be by the actuating linkage or the actuating linkage device (3,27) In swingingly separation point position being driven into from non-separation point position.

9. adjusting means according to claim 7, it is characterised in that the zero-bit driving, which has, can surround reverse lever axle The reverse lever (7) that line (8) is swingingly supported, the reverse lever is by the adjustment axis (1) from the normal position to institute State the axial movement in null positions and drive with moving, wherein, the reverse lever (7) is so that the reverse lever axis There are to (8) spacing regulation face (11), the regulation face is in the normal position of the adjustment axis (1) so that refer to described The centroid disk (13) being fixedly mounted on needle shaft radially around centroid (12) radial direction spacing keep and zero Position is resisted against on the centroid (12) in position under spring force.

10. the adjusting means according to any one of claim 7 to 9, it is characterised in that the actuating linkage is described Actuating linkage device (3,27) has spacing retaining pin (5), by the spacing retaining pin in the described of the reverse lever (7) In normal position using the reverse lever regulation face (11) so that it is described radially around centroid (12) radial direction between Away from holding.

11. adjusting means according to any one of the preceding claims, it is characterised in that existed by the adjustment axis (1) The adjustment axis from the normal position move to the null positions in when holding meanss can be manipulated so that described The spring motor of clock and watch stops.

12. the adjusting means according to any one of claim 7 and 11, it is characterised in that the holding meanss can pass through The actuating linkage or the actuating linkage device (3,27) are manipulated.