JP2006214821A - Mechanical timepiece with regulating mechanism - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mechanical timepiece equipped with such a regulating mechanism as to easily adjust the effective length of an outer circumferential part of a hairspring without the need for a regulator of a complicated structure. <P>SOLUTION: In the mechanical timepiece of this invention, a balance 70 with a hairspring includes a balance staff 71; a hairspring 74; and a balance wheel 79. A center part of the balance wheel 79 is fixed to the balance staff 71, and an inner end of the hairspring 74 is fixed to the balance staff 71. An outer circumferential part 74g of the hairspring 74 is connected to an adjusting spring 76 by one or a plurality of connecting parts 75a-75f for regulation and adjustment. An outer end part 76h of the adjusting spring 76 is mounted to a stud 72b. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention generally relates to a mechanical timepiece having a slow / fast mechanism. In particular, the present invention relates to a mechanical timepiece having a slow / fast mechanism including a quick / slow adjustment connecting portion that can easily adjust the effective length of the outer peripheral portion of the “spring” included in the balance.

  In a typical slow and quick mechanism that is widely known in a conventional mechanical timepiece, the outer periphery of the “hairspring” included in the balance is in contact with a “whisker bar” that is attached to a slow and quick hand. By changing the effective length of the mainspring, the rate of the watch (the degree of advance or delay of the watch per day) is changed (see FIGS. 1 and 2 of Patent Document 1). Furthermore, with the conventional improved slow / slow mechanism, a laser device is used to irradiate a part of the outer peripheral surface of the “spring balance” with a laser beam so that a part of the surface is thinned. Thus, one or a plurality of recesses are formed (see FIGS. 3 to 7 of Patent Document 1).

US Pat. No. 6,534,742B2

  However, in the conventional typical slow / fast mechanism, the outer periphery of the “hairspring” may come into contact with the “hairpin” due to a change in the swing angle of the balance or a change in the posture of the watch. In some cases, the outer periphery of the “hairspring” does not contact the “hairpin”. In addition, since the outer periphery of the “hairspring” is in contact with the “hairpin”, when the “hairspring” expands and contracts, the “hairspring” does not expand and contract with respect to the center of the “hairspring”. The “hairspring” sometimes expands and contracts based on the position eccentric from the center of the “hairspring”. Therefore, there has been a problem that the rate of the timepiece becomes unstable when a conventional typical slow / fast mechanism is used. Further, in the conventional typical slow / fast mechanism, in order to adjust the rate of the timepiece, it has been necessary to provide a “whisker bar” on the slow / fast needle which is rotatably provided to the balance.

  Further, in the conventional improved slow / slow mechanism, a laser device is used to precisely process a part of the outer peripheral portion of the “hairspring” to form a recess. Therefore, in order to accurately control the position of the outer periphery of the “spring” to be processed using the laser device, the shape of the recess to be processed, the thickness of the recess to be formed, etc., the diameter of the laser beam, the irradiation position It was necessary to control the moving direction, moving speed, irradiation time, etc. with high accuracy.

SUMMARY OF THE INVENTION An object of the present invention is to provide a mechanical timepiece having a quick and slow mechanism that can easily adjust the effective length of the outer peripheral portion of a “spring” without requiring a slow and quick hand having a complicated structure. .
Another object of the present invention is to provide a mechanical timepiece having a slow / fast mechanism that can stably and easily stabilize the rate of the timepiece without using a “whisker”.
Still another object of the present invention is that it can be easily processed using a laser device without the need to control the diameter, irradiation position, moving direction, moving speed, irradiation time, etc. of the laser beam with high accuracy. It is an object of the present invention to provide a mechanical timepiece having such a slow / fast mechanism.

  The present invention controls a ground plane constituting a substrate of a movement, a display wheel for displaying time information, a barrel wheel having a mainspring and rotating to rotate the display wheel, and a rotation speed of the display wheel. A mechanical watch having a escapement speed control mechanism including an escape wheel, ankle, and a balance for balance, wherein the balance includes a balance spring, a hairspring, and a balance wheel, The balance spring is fixed, the inner end of the balance spring is fixed to the balance, and the outer periphery of the balance spring is connected to the adjustment spring by one or a plurality of gradual adjustment connection portions. The outer end portion is attached to the whisker. Each inner end of the gradual adjustment connecting portion can be fixed to the outer periphery of the hairspring by welding. With this configuration, it is possible to realize a mechanical timepiece having a slow / fast mechanism that can easily adjust the effective length of the outer peripheral portion of the “spring” without requiring a slow hand having a complicated structure. In addition, since the mechanical timepiece of the present invention does not use a “whisker”, the rate of the timepiece can be reliably stabilized.

  In the mechanical timepiece according to the present invention, the plurality of slow-adjustment adjustment connecting portions are formed to have the same length, the same height, and the same thickness, and the plurality of slow-adjustment adjustment connection portions are arranged at equal angular intervals. Is preferred. With this configuration, the outer peripheral portion of the hairspring and the adjustment spring can be fixed in a balanced and reliable manner. In the mechanical timepiece of the present invention, the outer peripheral portion of the hairspring is first connected to the adjustment spring by the plurality of gradual adjustment connecting portions, and by cutting at least one of the plurality of gradual adjustment connecting portions, the hairspring is cut. The outer periphery of the mainspring is connected to an adjustment spring. With this configuration, the adjustment spring can be regarded as a part of the hairspring, and the effective length of the hairspring can be easily adjusted.

  Further, in the mechanical timepiece of the present invention, the outer periphery of the hairspring is connected to the adjustment spring by a plurality of adjustment parts for quick and slow adjustment, and the outer end of the adjustment spring is attached to the whiskers, The spring includes a plurality of longitudinal spring portions, and by cutting at least one of the longitudinal spring portions of the adjustment spring located between the plurality of slow adjustment connecting portions, The outer peripheral part is connected to an adjustment spring. The connecting part for slow / quick adjustment can be cut by laser processing. Since the mechanical timepiece of the present invention does not need to control the laser processing conditions with high accuracy, the slow / slow mechanism can be processed quickly and easily using the laser device. Therefore, with this configuration, the effective length of the hairspring can be easily adjusted over a wide range.

  In the mechanical timepiece according to the present invention, the plurality of slow-adjustment connecting portions are formed to have the same length, the same height, and the same thickness, and the plurality of slow-adjustment connecting portions are arranged at equal angular intervals. Good. With this configuration, it is possible to easily fix the outer peripheral portion of the hairspring and the plurality of gradual adjustment connecting portions, and it is possible to effectively adjust the effective length of the outer peripheral portion of the hairspring.

  In the mechanical timepiece according to the invention, the balance further includes a beard ball, the inner end portion of the hairspring is fixed to the beard ball, and the outer end portion of the adjustment spring is not attached to the beard, and It can be configured to be fixed to a ball. With this configuration, it is possible to easily adjust the rate of the timepiece by changing the effective length of the hairspring without using the beard and the beard holder. In the mechanical timepiece of the present invention, at least one of the material, thickness and height of the adjustment spring may be formed so as to be different from the corresponding characteristic of the hairspring. With this configuration, the rate of the timepiece can be adjusted more finely by simultaneously changing the effective length of the hairspring and the effective length of the adjustment spring.

  Since the present invention has the above-described structure in a mechanical timepiece equipped with a slow / fast mechanism, the effective length of the outer periphery of the “hairspring” can be easily adjusted without the need for a slow / fast hand having a complicated structure. . In addition, since the mechanical timepiece of the present invention does not use a “stick rod”, the rate of the timepiece can be stabilized reliably and easily. Furthermore, since the mechanical timepiece of the present invention does not need to control the laser processing conditions with high accuracy, the slow / fast mechanism can be processed quickly and easily using the laser device.

  In general, a machine body including a driving part of a timepiece is referred to as a “movement”. A state in which a dial and hands are attached to the movement and put into a watch case to make a finished product is called “complete” of the watch. Of the two sides of the main plate that constitutes the watch substrate, the side with the glass of the watch case, that is, the side with the dial is referred to as the “back side” or “glass side” or “dial side” of the movement. Called. Of the two sides of the main plate, the side with the back cover of the watch case, that is, the side opposite to the dial is referred to as the “front side” or “back side” of the movement. A train wheel incorporated on the “front side” of the movement is referred to as a “front train wheel”. The train wheel incorporated in the “back side” of the movement is called “back train wheel”. The mechanical timepiece of the present invention can also be used for an exterior structure without a back cover. Therefore, the present invention is not intended to limit the exterior structure of a mechanical timepiece to one having a back cover.

(1) First embodiment:
A first embodiment of the present invention will be described below with reference to the drawings.
(1.1) Structure of front train wheel:
4 to 6, the mechanical timepiece of the present invention includes a base plate 22 that constitutes a substrate of the movement 20. In the embodiment of the present invention described below, the outer shape of the main plate 22 is substantially circular. The outer shape of the main plate 22 may be other shapes such as a quadrangle, a polygon, and an oval. In the embodiment of the present invention, the automatic wheel mechanism such as the front wheel train of the barrel wheel, the second wheel, the third wheel, the fourth wheel, the rotary weight, the pawl lever, etc. It is incorporated on the opposite side of the 20 dial plate side, that is, on the front side.

  A second wheel & pinion 24 is rotatably incorporated at substantially the center of the main plate 22. The second wheel 24 is assembled between the main plate 22 and the second receiver 26. A cylindrical pinion 28 is incorporated on the dial side of the main plate 22 so as to be able to slip to the outer peripheral portion adjacent to the tip of the second wheel 24 close to the needle mounting portion. The cylindrical pinion 28 rotates integrally with the center wheel & pinion 24. A barrel complete 30 is rotatably mounted between the main plate 22 and the first receptacle 32. The barrel wheel of the barrel complete 30 meshes with the second pinion of the second wheel 24. A third wheel 34 is rotatably incorporated between the main plate 22 and the first receptacle 32. The second gear of the second wheel & pinion 24 is configured to mesh with the third pinion. A fourth wheel 40 is rotatably mounted between the second wheel 26 and the first wheel 32. The third gear of the third wheel 34 is configured to mesh with the fourth pinion of the fourth wheel 40. A escape wheel & pinion 50 is rotatably incorporated between the main plate 22 and the first support 32. The fourth gear of the fourth wheel 40 is configured to mesh with the escape wheel of the escape wheel 50.

  The rotation center of the fourth wheel & pinion 40 which operates to display the second is the same as the rotation center 300 of the second wheel & pinion 24. That is, the embodiment of the mechanical timepiece of the present invention shows a middle three-hand wristwatch. The rotation center of the fourth wheel & pinion 40 may be at a position different from the rotation center 300 of the second wheel & pinion 24. The third wheel 34 transmits the rotation of the second wheel 24 to the fourth wheel 40. Here, the number of wheel trains is not limited to the above, and one or more transmission wheels may be added.

(1.2) Structure of escapement speed control mechanism:
4 to 6, the ankle 60 is incorporated between the main plate 22 and the ankle receiver 62 so as to be swingable. The ankle 60 has two claw stones 63 and a tip 64. The escape gear of the escape wheel 50 is engaged with the claw stone 63. A balance 70 is rotatably incorporated between the main plate 22 and the balance 72. Referring to FIGS. 1 and 6, the balance with a balance 70 includes a balance stem 71, a hairspring 74, a swing stone 76, a whistle ball 78, and a balance wheel 79. The tip 64 of the ankle 60 is configured to engage the flutes 76. The central portion of the balance wheel 79 is fixed to the balance stem 71. The inner end portion of the hairspring 74 is fixed to a hairball 78 fixed to the balance stem 71. The outer peripheral portion 74g of the hairspring 74 is connected to the adjustment spring 76 by a plurality of gradual adjustment connecting portions 75a to 75f. An outer end portion 76h of the adjustment spring 76 is attached to the whisker 72b. The beard holder 72b is attached to the beard holder 72a. The hair support 72 a is attached to the balance holder 72.

  The hairspring 74 is formed of an alloy of an elastic material such as “Erin bar”. For example, the thickness of the hairspring 74 is 0.03 mm, and the height of the hairspring 74 (the dimension in the axial direction of the balance spring 71) is 0.15 mm. The adjustment spring 76 is formed of an alloy of an elastic material such as “Erin bar”. For example, the thickness of the adjustment spring 76 is 0.03 mm, and the height of the adjustment spring 76 (size in the axial direction of the balance stem 71) is 0.15 mm. The plurality of gradual adjustment connecting portions 75a to 75f are formed of an alloy of an elastic material such as “Ellin Bar”. For example, the thickness of each of the plurality of slow adjustment connectors 75a to 75f is 0.03 mm, the length of each of the plurality of slow adjustment connectors 75a to 75f is 0.2 mm, The respective heights (the dimensions so as to be in the axial direction of the balance stem 71) of the connection portions 75a to 75f for the gradual adjustment are 0.15 mm. That is, it is preferable that the plurality of slow and rapid adjustment connecting portions 75a to 75f have the same length, the same height, and the same thickness. With this configuration, the outer peripheral portion 74g of the hairspring 74 and the adjustment spring 76 can be fixed with good balance.

  The plurality of gradual adjustment connecting portions 75a to 75f are between the outer peripheral portion 74g of the hairspring 74 and the adjustment spring 76 within an opening angle range of 50 degrees to 90 degrees with respect to the central axis of the balance spring 71. It is preferable to arrange them at equal angular intervals, that is, 10 to 18 degrees. With this configuration, it is possible to easily fix the outer peripheral portion 74g of the hairspring 74 and the plurality of gradual adjustment connecting portions 75a to 75f, and to effectively adjust the effective length of the outer peripheral portion 74g of the hairspring 74. be able to. Although FIG. 1 illustrates six slow-adjustment adjustment connecting portions, the number of slow-adjustment adjustment connection portions is preferably 2 to 12. With this configuration, the effective length of the outer peripheral portion 74g of the hairspring 74 can be adjusted in a wide range. More preferably, the number of connecting portions for slow / slow adjustment is 4 to 8. With this configuration, the effective length of the outer peripheral portion 74g of the hairspring 74 is adjusted to a wide range without increasing the area occupied by the outer peripheral portion 74g of the hairspring 74 and the plurality of gradual adjustment connecting portions 75a to 75f. be able to.

  The adjustment spring 75 is preferably formed so as to be the same in material, thickness and height as the hairspring 74. With this configuration, the adjustment spring 75 can be regarded as a part of the hairspring 74, and the effective length of the hairspring 74 can be easily adjusted. Moreover, it is preferable that the plurality of connecting portions 75a to 75f for slow and rapid adjustment are formed so as to have the same material, thickness and height as the hairspring 74. With this configuration, the outer peripheral portion 74g of the hairspring 74 and the adjustment spring 76 can be fixed in a well-balanced manner without adversely affecting the vibration of the hairspring 74.

  The inner end portions of the gradual adjustment connecting portions 75a to 75f can be fixed to the outer peripheral portion 74g of the hairspring 74 by welding. The inner ends of the gradual adjustment connecting portions 75a to 75f can be fixed to the outer peripheral portion 74g of the hairspring 74 by soldering, bonding, or the like. The outer end portions of the gradual adjustment connecting portions 75a to 75f can be fixed to the adjustment spring 76 by welding. The inner ends of the gradual adjustment connecting portions 75a to 75f can be fixed to the outer peripheral portion 74g of the hairspring 74 by soldering, bonding, or the like.

  As shown in FIG. 1, the outer peripheral portion 74 g of the hairspring 74 is first connected to the adjustment spring 76 by a plurality of, that is, six slow and rapid adjustment connecting portions 75 a to 75 f. In the state shown in FIG. 1, a balance including a balance spring 74 is assembled to a watch, and the rate of the watch is measured. Depending on the measurement result, a necessary portion of the plurality of slow and quick adjustment coupling portions 75a to 75f. Disconnect. That is, the effective length of the hairspring 74 can be adjusted by cutting a necessary portion of the connecting portions 75a to 75f for gradual adjustment. In the present invention, the connection range in which the outer peripheral portion 74g of the hairspring 74 and the adjustment spring 76 are connected by the plurality of slow and rapid adjustment connecting portions 75a to 75f does not fall within the effective length of the hairspring 74. ing. Because the elastic coefficient of the hairspring 74 is larger than that of the other regions of the hairspring 74 within the connection range, the hairspring 74 is assumed to be a rigid body within the connection range, and therefore This is because the deformation of the hairspring 74 hardly occurs within the above-described connection range.

  Referring to FIG. 1, in the initial state, the effective length of the hairspring 74 is the length from the inner end of the hairspring 74 to the fixed portion of the hairspring 74 and the innermost slow / slow adjustment connecting portion 75a. This is the total length from the outer end portion 76h of the adjustment spring 76 to the fixing location of the adjustment spring 76 and the outermost slow / slow adjustment connecting portion 75f. Prior to the processing for setting the effective length of the hairspring 74, it is preferable to obtain the relationship between the effective length of the hairspring 74 and the rate of the watch by experiments. In the state shown in FIG. 1, the balance including the hairspring 74 is assembled to the watch, and the rate of the watch is measured. Then, when the measurement result of the rate is “advance of rate”, for example, the gradual adjustment connecting portions 75a and 75b can be cut by laser processing so as to correspond to the degree of advance. The diameter of the laser beam when performing laser processing is preferably about 0.1 mm, for example.

  Referring to FIG. 2, after cutting the connection portions 75 a and 75 b for slow and rapid adjustment, the effective length of the hairspring 74 is the third connection from the inner end of the hairspring 74 to the hairspring 74 and the third from the inside. This is the total length of the length from the outer end 76h of the adjustment spring 76 to the fixing location of the adjustment spring 76 and the outermost steep adjustment connection portion 75f. When the measurement result of the rate is “advance progress”, for example, only one portion of the slow / adjustment adjustment connecting portion 75a can be cut or the rapid / adjustment adjustment connection portion corresponding to the advancement degree. It is possible to cut two places 75a and 75b, cut three places of the connecting parts 75a to 75c for slow / slow adjustment, and cut four parts of the connecting parts 75a to 75d for slow and quick adjustment. Alternatively, it is possible to cut the five portions of the connecting portions 75a to 75e for slow / slow adjustment. As described above, by cutting one or a plurality of the quick and slow adjustment connecting portions, the effective length of the hairspring 74 can be changed and the rate of the watch can be adjusted to be delayed.

  Referring to FIG. 3, the effective length of the hairspring 74 is cut from the inner end portion of the hairspring 74 after cutting the connection portions 75 a, 75 b, 75 c for slow / rapid adjustment and the connection portions 75 e, 75 f for slowness adjustment. The length from the main spring 74 to the fixing portion of the fourth slow-adjustment connecting portion 75d from the inside, and the fixing portion of the adjusting spring 76 and the fourth slow-adjustment connecting portion 75d from the inside from the outer end 76h of the adjusting spring 76 It becomes the total length with the length up to. In this way, by cutting the five portions for slow and rapid adjustment, the effective length of the hairspring 74 can be changed to be the longest, and the rate of the watch can be adjusted to be the most delayed. In this case, the slow / quick adjustment connecting portion that is left only at one place can be any of the slow / quick adjustment connecting portions 75a to 75f. As a modification, at least one of the material, thickness, and height of the adjustment spring 75 may be formed different from the corresponding characteristic of the hairspring 74. With this configuration, the effective rate of the hairspring 74 and the effective length of the adjustment spring 75 can be changed at the same time to adjust the rate of the timepiece more finely.

(1-3) Structure of the back train wheel:
Referring to FIGS. 5 and 8, the hour wheel 80 is rotatably incorporated on the side of the main plate 22 where the dial 82 is located. A minute wheel 90 is rotatably mounted on the side of the main plate 22 where the dial 82 is present. The minute wheel of the minute wheel 90 meshes with the cylindrical pinion 28. The reverse side pinion of the reverse side wheel 90 is configured to mesh with the hour wheel 80.

(1/4) Structure of automatic winding mechanism:
With reference to FIGS. 4 to 6, the rotary weight 100 is first rotatably incorporated in the receiver 32. The rotary weight 100 is first assembled in the receiver 32 via a ball bearing (not shown). A transmission wheel (not shown) is rotatably incorporated so as to mesh with a kana (not shown) of the rotary weight 100. A pawl lever (not shown) is rotatably incorporated in an eccentric cam portion (not shown) of the transmission wheel. A second transmission wheel (not shown) is rotatably incorporated in the pawl lever so as to engage the pawl portion (not shown). A ratchet tooth (not shown) of the second transmission wheel is configured to engage with the pawl portion of the pawl lever. The first transmission wheel (not shown) rotates based on the rotation of the rotary weight 100, and the second transmission wheel rotates only in a predetermined direction based on the operation of the pawl lever. Based on the rotation of the second winding transmission wheel (not shown), the mainspring is wound.

(1.5) Structure of switching mechanism:
Referring to FIGS. 4, 7, and 9, the yoke retainer 140 is made of an elastically deformable material, and is preferably made of, for example, stainless steel. The yoke 130 is made of an elastically deformable material, for example, preferably made of stainless steel. The spring portion 132 of the yoke 130 may have any shape such as a linear shape, a curved shape, or a U shape. The chevron portion 142 of the crown holder 140 engages with the positioning pin 122 of the setting lever 120 to determine the position of the setting lever 120 and set the switching weight of the winding stem 110. In the mechanical timepiece of the present invention, the mountain-shaped portion 142 of the yoke holder 140 is configured so that the winding stem 110 can be pulled out to the first and second stages. The guide trough 138 of the yoke 130 is pressed against the side surface of the distal end portion of the setting lever 120 by the spring force of the spring portion 132 of the yoke 130.

(1.6) Mechanical watch operation:
Next, the operation of the mechanical timepiece of the invention will be described. 4 to 6, the barrel complete 30 is rotated by the force of the mainspring (not shown). The center wheel 24 is rotated by the rotation of the barrel complete 30. As the second wheel 24 rotates, the third wheel 34 rotates. The fourth wheel 40 is rotated by the rotation of the third wheel 34. Further, as the center wheel 24 rotates, the cylindrical pinion 28 rotates simultaneously. The minute wheel 90 is rotated by the rotation of the hour pinion 28. The hour wheel 80 is rotated by the rotation of the minute wheel 90. The rotation speeds of these wheel trains are controlled by the operations of the balance with balance 70, the ankle 60 and the escape wheel & pinion 50. As a result, the fourth wheel & pinion 40 makes one rotation per minute. The cylindrical pinion 28 and the center wheel & pinion 24 rotate once per hour. The hour wheel 80 rotates once every 12 hours.

  “Second” is displayed by the second hand 40 h attached to the fourth wheel & pinion 40. “Minute” is displayed by the minute hand 28 h attached to the cylindrical pinion 28. “Hour” is displayed by the hour hand 80 h attached to the hour wheel 80. That is, the fourth wheel 40, the hour pinion 28, the second wheel 24, and the hour wheel 80 constitute a display wheel for displaying time information. The time can be read by the hour hand 80h, the minute hand 28h, the second hand 40h, the dial 82, etc. Next, the mainspring winding by the automatic winding mechanism will be described. Carry a mechanical watch around your arm and swing your arm back and forth. Based on the rotation of the rotary weight 100, the pawl lever operates like an eccentric cam, and the mainspring can be wound by rotating an automatic winding transmission wheel (not shown) having ratchet teeth.

  Next, the operation of the switching mechanism will be described. Referring to FIGS. 4 and 7 to 9, the winding stem 110 is normally in the 0th stage when the mechanical timepiece is carried around the arm. Next, when the calendar is corrected, the winding stem 110 is pulled out to the first stage. At this time, the setting lever 120 rotates. The yoke 130 is rotated by the spring force of the yoke and meshes the tooth 162b of the clutch wheel 162 with the first calendar correction transmission wheel 170. When the winding stem 110 is rotated in this state, the pinion wheel 162 is rotated, and the date indicator 172 or the day indicator 174 can be corrected by the rotation of the first calendar correction transmission wheel 170. Next, when correcting the time, the winding stem 110 is further pulled out to the second stage. At this time, the setting lever 120 further rotates. The yoke 130 rotates in the direction opposite to the above rotation by the spring force of the yoke, and meshes the instep 162a of the clutch wheel 162 with the minute wheel 90. When the winding stem 110 is rotated in this state, the pinion wheel 162 is rotated, and the hour display can be corrected by rotating the hour pinion 28 and the hour wheel 80 by the rotation of the minute wheel 90.

(2) Second embodiment:
Next, a second embodiment of the mechanical timepiece of the invention will be described. In the following description, the difference between the second embodiment of the mechanical timepiece of the invention and the first embodiment of the mechanical timepiece of the invention will be mainly described. Therefore, the description of the first embodiment of the mechanical timepiece of the present invention described above applies mutatis mutandis to the portions not described below.

  Referring to FIG. 10, the plurality of gradual adjustment connecting portions 275 a to 275 g have an opening angle of 60 degrees to 342 with respect to the central axis of the balance spring 71 between the outer peripheral portion 274 g of the hairspring 274 and the adjustment spring 276. It is preferable that they are arranged within an angle range so as to form an equal angular interval, that is, an angular interval of 10 to 57 degrees. Although FIG. 10 shows eight connecting parts for slow / slow adjustment, the number of connecting parts for slow / quick adjustment is preferably 2 to 12. More preferably, the number of connecting portions for slow / fast adjustment is 6 to 10. Each inner end of each of the gradual adjustment connecting portions 275a to 275g is fixed to the outer peripheral portion 274g of the hairspring 274 by welding. The adjustment spring 276 includes a portion of the adjustment spring, that is, seven length direction spring portions 276a to 276g, while fixing each of the slow and rapid adjustment coupling portions.

  As shown in FIG. 10, the outer peripheral portion 274g of the hairspring 274 is first connected to the adjustment spring 276 by a plurality of, that is, seven slow / adjusting adjustment connecting portions 275a to 275g. In the state shown in FIG. 10, the balance including the hairspring 274 is assembled to the watch to measure the rate of the watch, and at least one of the lengthwise spring portions 276a to 276g of the adjustment spring 276 is measured according to the measurement result. Cut one point. That is, the effective length of the hairspring 274 can be adjusted by cutting a necessary portion of the length direction spring portions 276a to 276g. Referring to FIG. 10, in an initial state, the effective length of the hairspring 274 is the length from the inner end of the hairspring 274 to the fixed portion of the hairspring 274 and the innermost steep adjustment connection portion 275a. is there.

  In the present invention, the connection range in which the outer peripheral portion 74g of the hairspring 274 and the adjustment spring 276 are connected by the plurality of gentle adjustment connectors 275a to 275g does not fall within the effective length of the hairspring 274. ing. Because the elastic coefficient of the hairspring 274 is larger than the other regions of the hairspring 274 within the connection range, it is assumed that the hairspring 274 is a rigid body within the connection range. This is because deformation of the hairspring 274 is unlikely to occur within the above connection range.

  In the state shown in FIG. 10, the balance including the hairspring 274 is assembled to the watch, and the rate of the watch is measured. When the rate measurement result is “advance progress”, for example, the length direction spring portions 276b, 276d, and 276f can be cut by laser processing so as to correspond to the advance degree. With this configuration, the effective length of the hairspring 274 can be easily adjusted over a wide range.

  Referring to FIG. 11, after cutting the longitudinal spring portions 276 b, 276 d, 276 f, the effective length of the hairspring 274 is adjusted from the inner end of the hairspring 274 to the hairspring 274 and the innermost gentle adjustment. The length of the connecting portion 275a to the fixing location, the fixing location of the second slow / adjustment adjustment connecting portion 275b from the inside of the hairspring 274, and the fixing location of the third quickening adjustment connecting portion 275c from the inside of the hairspring 274 Between the length of the hairspring 274 between the first, the fourth fastening adjustment connecting portion 275d from the inner side of the hairspring 274, and the fifth fixing portion of the fifth spring adjustment connecting portion 275e from the inner side of the hairspring 274. The length of the hairspring 274 between them, the fixed portion of the sixth quick-adjustment connecting portion 275f from the inside of the hairspring 274, and the hairspring Consisting inside of 74 to the total length of the length of the balance spring 274 between the fixed portion of the seventh pace adjusting coupling portion 275 g. When the measurement result of the rate is “progress of rate”, for example, only one portion of the length direction spring portion can be cut or the length direction spring portion of the length direction spring portion can be cut. A plurality of locations can also be cut. In this way, by cutting one place or a plurality of places in the length direction spring portion, the effective length of the hairspring 274 can be changed and adjusted so that the rate of the watch is delayed.

(3) Third embodiment:
Next, a third embodiment of the mechanical timepiece of the invention will be described. In the following description, the difference between the third embodiment of the mechanical timepiece of the invention and the first embodiment of the mechanical timepiece of the invention will be mainly described. Therefore, the description of the first embodiment of the mechanical timepiece of the present invention described above applies mutatis mutandis to the portions not described below.

  Referring to FIG. 12, the balance with a balance includes a balance 71, a hairspring 374, a flint, a hairball 378, and a balance wheel. An inner end portion of the hairspring 374 is fixed to a hairball 378 fixed to the balance stem 71. The outer peripheral portion 374g of the hairspring 374 is connected to the adjustment spring 376 by a plurality of adjustment portions 75a to 75f for gradual adjustment. An outer end 376 h of the adjustment spring 376 is fixed to the whisker ball 378. Therefore, the third embodiment of the mechanical timepiece of the present invention relates to a balance with a so-called “rolled whisker” structure.

As shown in FIG. 12, the outer peripheral portion 374 g of the hairspring 374 is first connected to the adjustment spring 376 by a plurality of, that is, six slow-adjustment adjustment connecting portions 75 a to 75 f. Referring to FIG. 13, after cutting the connection portions 75 a and 75 f for the slow and rapid adjustment, the effective length of the hairspring 374 is the second connection from the inner end of the hairspring 374 to the hairspring 374 from the inside. This is the total length of the length from the outer end 376h of the adjustment spring 376 to the fixing location of the adjustment spring 376 and the fifth fast / slow adjustment connecting portion 75e from the inside. In this way, by cutting one or a plurality of the quick and slow adjustment connecting portions, the effective length of the hairspring 374 can be changed and the rate of the watch can be adjusted to be delayed.

  Referring to FIG. 14, after cutting the gradual adjustment connecting portions 375 a and 375 b and the gradual adjustment connecting portions 375 e and 375 f, the effective length of the hairspring 374 is changed from the inner end portion of the hairspring 374 to the hairspring 374. And the length from the inside to the third fixed connection portion 375c for the slow / slow adjustment, and the outer end 376h of the adjustment spring 376 to the fixed portion for the fourth adjustment connection portion 375d from the inner side to the adjustment spring 376. It is the total length. In this way, by cutting the four portions for adjusting the speed, the effective length of the hairspring 374 can be changed and the rate of the timepiece can be adjusted. With this configuration, it is possible to easily adjust the rate of the timepiece by changing the effective length of the hairspring 274 without using the beard and the beard holder.

  Next, a modification of the third embodiment of the mechanical timepiece of the invention will be described. In the following description, a description will mainly be given of a point that a modification of the third embodiment of the mechanical timepiece of the invention differs from the second embodiment of the mechanical timepiece of the invention. Therefore, the description of the second embodiment of the mechanical timepiece of the invention described above applies mutatis mutandis to the portions not described below.

  The structure for fixing the outer end 376h of the adjustment spring 376 to the whistle ball 378 can also be applied to the structure of the second embodiment of the mechanical timepiece of the invention. That is, in the second embodiment of the mechanical timepiece of the invention, the outer end portion 276h of the adjustment spring 276 can be fixed to the whistle ball 278 without providing the whiskers 72b and the whiskers 72a. . With this configuration, the effective length of the hairspring 274 is changed by cutting at least one of the lengthwise spring portions 276a to 276g of the adjustment spring 276 without using the beard and the beard holder. The rate of the watch can be adjusted easily.

  According to the present invention, it is possible to realize a mechanical timepiece having a slow / fast mechanism that can easily adjust the effective length of the outer periphery of the “spring spring”. The slow / fast mechanism of the mechanical timepiece of the present invention can be easily processed using a laser device or the like.

In the first embodiment of the mechanical timepiece of the invention, it is a plan view showing a schematic structure of a “hairspring” that does not cut the connecting portion for slow and rapid adjustment. In the first embodiment of the mechanical timepiece of the invention, it is a plan view showing a schematic structure of a “hairspring” obtained by cutting two inner and low speed adjustment connecting portions. In the first embodiment of the mechanical timepiece of the invention, it is a plan view showing a schematic structure of a “hairspring” in which only a middle slow / adjustment connecting portion is left and other slow / adjustment connecting portions are cut. In the first embodiment of the mechanical timepiece of the invention, for the sake of clarity, it is a plan view showing a schematic structure viewed from the front side of the movement, omitting the automatic winding device, the receiving member and the like. In the first embodiment of the mechanical timepiece of the invention, it is a cross-sectional view showing a schematic structure of a barrel and a front train wheel portion. In the first embodiment of the mechanical timepiece of the invention, it is a cross-sectional view showing the schematic structure of the balance of balance, ankle and balance. In the first embodiment of the mechanical timepiece of the invention, it is a plan view showing a schematic structure of a setting part and a yoke part. FIG. 3 is a cross-sectional view showing a schematic structure of a winding stem portion in the first embodiment of the mechanical timepiece of the invention. In the first embodiment of the mechanical timepiece of the invention, it is a cross-sectional view showing a schematic structure of a setting portion and a yoke portion. In the second embodiment of the mechanical timepiece of the invention, it is a plan view showing a schematic structure of a “hairspring” that does not cut the connecting portion for slow and rapid adjustment. FIG. 6 is a plan view showing a schematic structure of a “hairspring” obtained by cutting a plurality of portions of an adjustment spring portion in the second embodiment of the mechanical timepiece of the invention. In 3rd Embodiment of the mechanical timepiece of this invention, it is a top view which shows the schematic structure of the "hairspring" which has not cut | disconnected the connection part for quick / slow adjustment. FIG. 11 is a plan view showing a schematic structure of a “hairspring” obtained by cutting the innermost slow / adjustment connecting portion and the outermost slow / adjustment connecting portion in the third embodiment of the mechanical timepiece of the invention. In the third embodiment of the mechanical timepiece of the present invention, a plan view showing a schematic structure of a “hairspring” in which only the intermediate two quick-adjustment connection portions are left and the other quick-adjustment connection portions are cut. It is.

Explanation of symbols

20 movement 22 ground plate 24 second wheel 28 tube kana 30 incense box 34 third wheel 40 fourth wheel 50 escape wheel 60 ankle 70 balance 71 balance true balance 72 balance 72a beard holder 72b beard 74 spring balance 75a-75f Coupling part for slow / slow adjustment 76 Adjustment spring 79 Balance wheel 274 Hairspring 275a to 275h Coupling part for slow / quick adjustment 276 Adjustment spring 276a to 276g Length direction spring portion 374 Hairspring 375a to 375f Coupling part for slow / adjustment adjustment 376 Adjustment spring

Claims (8)

A base plate (22) constituting a substrate of the movement (20), a display wheel (24) for displaying time information, and a mainspring and rotating to rotate the display wheel (24, 40, 80) Escapement speed regulating mechanism including an escape wheel barrel (30), an escape wheel (50), an ankle (60), and a balance (70) for controlling the rotation speed of the display wheel (24, 40, 80) A mechanical watch having:
The balance with hairspring (70) includes a balance stem (71), a hairspring (74), and a balance wheel (79).
The center of the balance wheel (79) is fixed to the balance (71),
The inner end of the hairspring (74) is fixed to the balance spring (71),
The outer peripheral portion (74g) of the hairspring (74) is connected to the adjustment spring (76) by one or a plurality of adjustment portions (75a to 75f) for gradual adjustment,
The outer end (76h) of the adjustment spring (76) is attached to the whiskers (72b).
A mechanical watch characterized by that.   The plurality of slow and rapid adjustment coupling portions (75a to 75f) are formed to have the same length, the same height, and the same thickness, and the plurality of slow and rapid adjustment connection portions (75a to 75f) are at equal angular intervals. The mechanical timepiece according to claim 1, wherein the mechanical timepiece is arranged.   The outer peripheral portion (74g) of the hairspring (74) is first connected to the adjustment spring (76) by a plurality of slow / adjustment adjustment connecting portions (75a to 75f), and the plurality of slow / adjustment adjustment connection portions (75a to 75a). 75f), by cutting at least one of the outer peripheral portions (74g) of the hairspring (74) so as to be connected to the adjustment spring (76). The mechanical timepiece according to 1. A base plate (22) constituting the substrate of the movement (20), a display wheel (24, 40, 80) for displaying time information, and a mainspring having a mainspring and rotating the display wheel (24, 40, 80) A barrel wheel (30) that rotates so as to move, and a escape wheel (50), ankle (60), and balance (70) for controlling the rotation speed of the display wheels (24, 40, 80). A mechanical timepiece having an advance speed control mechanism,
The balance with hairspring (70) includes a balance stem (71), a hairspring (274), and a balance wheel (79).
The center of the balance wheel (79) is fixed to the balance (71),
The inner end of the hairspring (274) is fixed to the balance spring (71),
The outer peripheral portion (274g) of the hairspring (274) is connected to the adjustment spring (276) by a plurality of adjustment portions (275a to 275f) for adjusting speed,
The outer end (276h) of the adjustment spring (276) is attached to the whiskers (72b),
The adjustment spring (276) includes a plurality of longitudinal spring portions (276a-276g),
By cutting at least one of the lengthwise spring portions (276a to 276g) of the adjustment spring (276) located between the plurality of adjustment sections (275a to 275f) for slow and rapid adjustment, the hairspring is cut. A mechanical timepiece characterized in that an outer peripheral portion (274g) of (274) is connected to the adjustment spring (276).   The plurality of slow and rapid adjustment connecting portions (275a to 275f) are formed to have the same length, the same height, and the same thickness, and the plurality of slow and quick adjustment connecting portions (275a to 275f) are at equal angular intervals. The mechanical timepiece according to claim 4, wherein the mechanical timepiece is arranged. The balance with hairspring (70) further includes a ball (378),
An inner end of the hairspring (74) is fixed to the hairball (378),
The outer end (376h) of the adjustment spring (376) is fixed to the whisker ball (378) without being attached to the whisker (72b). The mechanical timepiece according to any one of the above.   The said adjustment spring (76,276,376) is formed so that all of the material, thickness, and height may be the same as the said balance spring (74,274,374). The mechanical timepiece according to any one of 6.   At least one of the material, thickness, and height of the adjustment spring (76, 276, 376) is formed to be different from a corresponding characteristic of the hairspring (74, 274, 374). The mechanical timepiece according to any one of claims 1 to 6.

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