JPH04120388U - electronic clock - Google Patents

Abstract

(57) [Summary] [Purpose] The purpose is to realize an ultra-compact movement. [Configuration] IC chips are stacked on the wheel train, and
In terms of cross section, the movement size can be reduced by overlapping the wheel train and train bridge.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

The present invention relates to the layout of a MOS-IC chip for an electronic watch.

0002

[Conventional technology]

In recent years, there has been a noticeable trend towards luxury in the watch market, but women Many bracelet-like watches have been commercialized as sexual watches. However, with the current movement size, there is a limit to miniaturization, and This reduces the degree of freedom in design that is required. So, that small In order to achieve compact design, a structure has been proposed in which the battery is placed above the wheel train. Figure 3 FIG. 1 is a plan view showing the layout of an electronic timepiece according to this prior art. This structure The structure is such that the motor and gear train section are placed on the base plate 1, which is the base frame, and the gear train bridge 2 and the A battery 24, which is a power source, and a reference signal generator are mounted on the top through an insulating plate 21. The crystal oscillators 20 are arranged so that they do not overlap on a plane, and Furthermore, an IC chip 19 that generates electrical signals related to the movement of the hands of the clock is located in the train wheel bridge 2. It is arranged above the cross-sectional height and at a position that does not overlap with the battery in plan view.

0003

[Problem that the idea aims to solve]

However, unlike the conventional structure, the crystal oscillator and battery cannot be placed on top of each other. If you try to further reduce the movement size, the movement The size of the component is determined by the outer diameter of the IC chip, and the size of each component is Even in the current state of miniaturization, there are limits to its miniaturization.

0004 Therefore, the present invention is intended to solve these problems, and is to replace the conventional IC chip size. This makes it possible to provide an even more compact movement by using the same model as is.

[0005]

[Means to solve the problem]

An IC chip that generates an electrical signal, and an electrical signal from the IC chip, A step motor is a device that converts electrical energy into mechanical energy; The wheel train is composed of a gear train that transmits the rotation of a motor, and a gear train bridge that supports the gear train axially. At least a part of the IC chip is connected to the wheel train and the wheel train. An electronic timepiece characterized by being placed in a position that overlaps the row support in a plane and in cross-section.

[0006]

【Example】

FIG. 1 is a plan view showing an embodiment of the electronic timepiece of the present invention, and FIG. 2 is a sectional view of the train wheel portion of FIG. 1. It is.

[0007] 1 is a main plate, 2 is a gear train bridge, and the gap between these two constitutes a gear train part. Second The wheel 6 is guided by a second axle 8 which is driven into and fixed to a second bridge 7. Also, two The number bridge 7 is guided by a dowel formed on the main plate (not shown), and is guided by the gear train bridge at the top. positioning in the cross-sectional direction. 11 and 12 are transmission gear trains. The third wheel, fourth wheel, and 5 are the rotors of the step motor, which are converters. is supported by the train wheel bridge 2. The drive coil which is a component of the motor which is a converter The plate-like stator 4 and the plate-shaped stator 4 are placed on the ground plate 1 with their parts overlapping to form a magnetic circuit. It is placed on the The screws 10a and 10b are tightened to ensure contact pressure between the magnetic core 13 and the stator 4. are doing. Further, the stator 4 and the drive coil 3 are arranged in an annular manner on the outer periphery of the watch body. The layout is such that the wheeled trains are arranged inside the train. Sara In addition, the stator 4 and drive coil 3 are made of conventional component sizes and maintain performance. It is something that can be held. The rotor 5 consists of a rotor pinion 5a and a rotor magnet 5b. , the magnetic flux generated by the drive coil 3 is guided to the magnetic core 13 and the plate-shaped stator 4. It rotates by generating magnetic attraction or repulsion. The rotor 5 is the fourth gear 12 The fourth gear 12 consists of a and a fourth pinion 12b, the third gear 11a and the third pinion 11b. The second wheel & pinion 6 is driven via the third wheel & pinion 11 consisting of. The second wheel 6 has a minute hand 14. It rotates guided by the second axle 8 and displays minutes. The second kana 6a is the reverse gear of the day 1 5a, the hour wheel 1 with the hour hand 16 via the hour wheel 15 consisting of the hour hand 15b. 7 to display the hour.

[0008] 18 is a circuit board made of a flexible material, and is a source of electrical signals. It has a MOS-IC 19 which is a are doing. The circuit board 18 is placed on the upper part of the train wheel bridge 2 with an insulating plate 21 in between. ing. The train wheel bridge 2 and the insulating plate 21 are located at approximately the center of the watch body, that is, the center wheel & pinion 6. A hole is provided at the position of the MOS-IC 19 mounted on the circuit board 18. It is located inside it. In the end, the MOS-IC 19 is similar to the gear train bridge 2. The cross-sectional height is approximately the same, and the train is placed in a position that overlaps with the wheel train. , by making use of the dead space that originally exists, the thickness of the movement is increased. However, the planar size has been reduced.

[0009] The crystal resonator 20 is mounted on the side of the circuit board 18 facing the MOS-IC 17. has been done. The crystal resonator of this example is a rectangular flat crystal; The surface size is almost the same as that of the battery 24 which is the power source, and It is arranged substantially on the same plane as the battery with a battery seat 27 in the lower part. For watches in recent years Button-type batteries have been significantly miniaturized, and a crystal oscillator is placed on the same plane as the battery. By placing this, it is possible to downsize the movement to the size of a battery. It is something. Furthermore, since it is a flat crystal, its thickness is extremely thin and its There is almost no effect on the thickness of the lumen.

0010 3 is a drive coil, and a coil lead board 2 is adhesively fixed to the drive coil. 2, the pattern of the circuit board 18 is formed by the lead pins driven into and fixed to the gear train bridge 2. 23, conduction is established and an electrical signal is given to the drive coil 3.

[0011] 24 is a battery which is the power source, and the main body guided by the dowel of the gear train bridge 2 is The negative terminal 25 makes spring contact with the negative can of the battery to establish negative conduction. ing. Further, the negative terminal 25 has a bent portion at the tail portion, and a bent portion at the upper portion. The negative pattern on the circuit board is pressed to establish continuity with the circuit. For positive conduction, the spring part of the positive terminal 26 located at the top is connected to the side surface of the battery 24. is pressed to establish positive continuity. 27 is a battery seat, and the circuit board 18 It is placed at the top of the It is fastened and fixed. In addition, the battery seat 27 is shaped so that it does not enclose the crystal oscillator 20. The structure is such that it avoids impact from the battery 24 placed on top.

0012 This example shows a two-hand watch, but the same effect can be obtained with a three-hand watch. It is something that can be done.

[0013]

[Effect of the idea]

As described above, according to the present invention, when the battery is placed on the top of the movement, In total, the IC chip is placed within the plane of the wheel train configuration, and the cross-sectional height is also close to that of the wheel train bridge, etc. By placing the battery in the desired position, the movement size can be reduced to the minimum battery diameter. It has the great effect of being able to In addition, the IC chip It is located inside the movement and is not exposed outside the movement like in traditional electric watches. Because there is no external pressure, the influence of external pressure can be extremely small, and there is no possibility of stopping, etc. It also has the advantage of increasing the safety factor. In addition, small In vintage watches, the shape of each component has become smaller, and the circuit board is no exception. . However, according to the present invention, since the IC chip can be placed at the bottom of the battery, the circuit board The board can also be expanded to the maximum movement size and can be used as a circuit board for small watches. This allows for improved handling.

[Brief explanation of drawings]

FIG. 1 is a plan view showing an embodiment of the present invention.

FIG. 2 is a sectional view showing an embodiment of the present invention.

FIG. 3 is a plan view showing a conventional example.

FIG. 4 is a sectional view showing a conventional example.

[Explanation of symbols]

1 Main plate 2 Gear train bridge 3 Drive coil 4 Plate stator 5 Rotor 6 Second wheel 11 third wheel 12 Fourth wheel 15th day car 17 hour wheel 18 Circuit board 19 MOS-IC 20 crystal oscillator 24 Battery 25 minus terminal 26 Positive terminal

Claims (1)

[Scope of utility model registration request] 1. An IC chip that generates an electrical signal; a step motor that is a device that converts electrical energy into mechanical energy using the electrical signal from the IC chip; a wheel train that transmits rotation of the step motor; An electronic timepiece comprising a train wheel bridge that supports the train wheel axially, characterized in that at least a part of the IC chip is arranged at a position that overlaps the train wheel and the train wheel bridge in plan and cross-section. Electronic clock.