JPS62237385A - Solar battery type wrist watch - Google Patents

Abstract

PURPOSE:To prevent a glass dial from cracking without increasing the whole wrist watch in thickness by joining a reinforcing plate with the glass dial where a solar battery is formed and sandwiching elastic body at its outer periphery. CONSTITUTION:A main plate 9 is coupled with a side 1 and a contact spring 11 is installed; and the reinforcing plate 5 is joined with the glass dial 6 where the solar battery 7 is formed by using a both-sided adhesive tape 8 and then this is arranged on the main plate 9. A rubber packing 16 as the elastic body is arranged on the outer peripheral surface of the reinforcing plate 5 and sandwiched between the side 1 and reinforcing plate 5. Then, a push-up frame 4 is arranged in contact with the outer periphery of then reverse surface of the main plate 9 and a reverse cover 3 is engaged with the side 1 to fix the whole body. Thus, the main plate 9 engages the side 1, so even if an impact force is applied to the wrist watch, the main plate 9 is prevented from jumping out toward the glass dial 6 and even if an impact force is applied to the reinforcing plate 5, the rubber packing 16 absorbs the impact force to prevent the glass dial 6 from cracking.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a fixing structure for a dial in a solar battery wristwatch in which a solar cell is formed on a glass dial.

(Summary of the Invention) The glass dial plate on which the solar cells are formed is bonded to a reinforcing plate, and after bonding the glass dial plate, a supplementary cover plate is placed on the base plate, and an elastic packing is used to bond the glass dial plate to a reinforcing plate. By supporting the plate, the impact strength of the glass dial plate is increased.

(Prior Art) A conventional technology is shown in FIGS. 5 and 6. In FIG. 5, a glass dial plate 6e on which a solar cell 7 is formed is bonded to a reinforcing plate 5e with double-sided tape 8, and the reinforcing plate 5e is roughly
e was joined to the frame 10e, and the frame 10e was arranged on the upper surface of the base plate 9e so that the pin formed on the frame 10e was engaged with the guide hole of the base plate 9e. And push up frame 4
was arranged so as to be in contact with the outer periphery of the lower surface of the base plate 9e, and the frame 10e and the push-up frame 4 were sandwiched between the side 1e and the back cover 3, so that the entire structure was fixed.

In FIG. 6, a glass dial plate 6f on which a solar cell 7 is formed and a reinforcing plate 5f on which a reinforcing material 20 is formed are assembled into a frame 10f having a U-shaped cross section. The reinforcing material is engaged while being fitted with the guide hole or the guide hole of the base plate 9f. The push-up frame 4 is arranged so as to be in contact with the outer periphery of the lower surface of the base plate 9r, and the frame 10f and the push-up frame 4 are sandwiched between the side 1f and the back cover 3, so that the whole is fixed.

(Problems to be Solved by the Invention) In the above-mentioned configuration shown in FIG. When the glass dial 9e is bent in the direction of the reinforcing plate 5e, an impact force is applied to the glass dial 6e through the reinforcing plate 5e, causing the dial 6e to break.

In addition, in the above-described configuration shown in FIG. 6, even if the gap 40 between the main plate 9f and the reinforcing plate 5f is small, the glass dial plate 6f on which the solar cell 7 is formed can be pushed up by the contact spring 11. Since a gap 50 is created due to the gap 50, even if an impact force is applied to the wristwatch,
The glass dial 6f is designed so that the impact force due to the deflection of the main plate 9f is not easily applied. However, the outer shape of the glass dial 6f must be rectangular for positioning in the circumferential direction, and the frame 10 must also be made into a rectangular shape. It has the drawbacks of considerably higher costs than processing it and is subject to design limitations.

(Means for Solving the Problems) In order to solve the above problems, in the present invention, a reinforcing plate to which a glass dial plate on which a solar cell is formed is directly placed on the main plate to provide reinforcement. Eliminate the gap between the board and the base plate,
When the main plate is deflected due to an impact force on the wristwatch, and the impact force from the main plate is applied to the reinforcing plate, the elastic body placed on the upper surface of the outer periphery of the reinforcing plate absorbs the impact force, and the glass dial plate This prevents cracking.

Further, by setting a guide pin on the main plate and installing a reinforcing plate on the main plate using the guide pin as a guide, the position of the glass dial joined to the reinforcing plate can be adjusted in the circumferential direction. , the outer shape of the glass dial plate could be made round.

(Function) According to the above structure, since the main plate is engaged with the side, even if an impact force is applied to the wristwatch, the main plate can be prevented from popping out in the direction of the glass dial, and the reinforcement Even if an impact force is applied to the plate, the rubber gasket absorbs the impact force and prevents the glass dial from breaking, and the guide pins guide the reinforcing plate to position the glass dial in the circumferential direction. By creating a flange-like protrusion on the upper side of the inner periphery of the elastic body and arranging the flange-shaped protrusion on the upper surface of the outer periphery of the glass dial, it was possible to prevent the glass dial from peeling off from the reinforcing plate. .

(Example) Examples of the present invention will be described below based on the drawings. 1st
In the figure, the main plate 9 is engaged with the side 1, the contact spring 11 is installed, the reinforcing plate 5 is bonded to the glass dial plate 6 on which the solar cell 7 is formed with double-sided tape 8, and the glass letters are placed on the main plate 9. A reinforcing plate 5 to which the plate 6 is joined is arranged, a rubber packing 16 is arranged as an elastic body on the outer peripheral surface of the reinforcing plate 5, and the rubber packing 16 is sandwiched between the side 1 and the reinforcing plate 5. Further, the rubber gasket 16 does not need to be made of rubber, and other suitable elastic materials can be selected. The push-up frame 4 is arranged so as to be in contact with the outer periphery of the lower surface of the main plate 9, and the back cover 3 is engaged with the side 1, thereby fixing the entire structure.

Next, the actions of each part when an impact is applied to the structure described above will be explained. When an impact force is applied from the two directions of the glass, the main plate 9 tends to be pushed up in the direction of the glass dial 6 due to the weight of the movement 13, but by engaging the side 1 and the main plate 9, the movement Most of the impact force caused by 13 can be stopped by the base plate 9. However, the main plate 9 is bent due to the impact force of the movement 13,
If some impact force is applied to the repair plate 5, the rubber gasket 1
6, the impulse γ force is absorbed.

Next, another embodiment will be explained with reference to FIG. The difference in configuration from Fig. 1 is that a guide pin 15b is placed on the base plate 9b to guide the reinforcing plate 5b, and a male screw with a flange is fastened to the guide pin 15b to prevent the reinforcing plate 5b from popping out. That is, I! from two directions of the glass! ! When force is applied, the main plate 9b tends to be pushed up in the direction of the glass dial 6b due to the weight of the boomment 13, but due to the engagement of the side 1b and the main plate 9b, the movement 13 Most of the ms force can be stopped by the ground plate 9b. However, if the main plate 9b is bent by the impact force of the movement 13 and some impact force is applied to the reinforcing plate 5b, the impact force is absorbed by the rubber packing 161). Next, the glass dial plate 6b on which the solar cell 7 is formed is joined to the reinforcing plate 5b with double-sided tape 8, and is always joined with double-sided tape 8 by contact spring 11. Since the glass dial plate 6b on which the solar cell is formed and the reinforcing plate 5b are subjected to the force of peeling off, a collar like a rubber gasket 16b is attached and placed on the outer peripheral surface of the glass dial plate 6b. This prevents the above-mentioned peeling.

The guide pin 15b erected on the main plate 9b is connected to the reinforcing plate 5b.
The guide pin 15b serves as a guide in the plane direction of the
The flange portion of the flange-equipped male screw 14b and the reinforcing plate 5b, which are fastened to the
Leave a gap 60. By providing this gap 60, the contact spring 11 prevents the glass dial plate 6b from popping out when attempting to attach the pointer 18 before assembling the rubber gasket 16b when assembling the wristwatch.

Figure 3 shows the cross-sectional shape of the rubber packing as shown in 16G.
In this embodiment, it is possible to improve the stability of the rubber packing by making it into a T'' shape and fitting it into the inner circumferential groove of the decorative ring 17G.

FIG. 4 shows that the cross-sectional shape of the rubber seal is made into a horizontal II T 11 shape as shown in 166, so that it fits into the flange groove of the decorative ring 17d, thereby improving the stability of the rubber seal, and at the same time, improving the stability of the rubber seal 16d. An example will be shown in which the shrinkage of the rubber packing is adjusted by changing the length in the direction.

(Effect of the invention) Conventionally, in order to protect a glass dial that is vulnerable to impact forces,
By sufficiently separating the glass dial from other parts, the glass dial was protected from impact forces, but it had the disadvantage that the watch as a whole inevitably became thicker. According to the invention,
Even if the glass dial plate is in contact with other members, the glass dial plate can be sufficiently protected from impact force, and the conventional drawback of making the entire wristwatch thicker is eliminated. Roughly, by providing a reinforcing plate guide pin. It is also possible to position the glass dial in the horizontal direction, and there is no need to take measures such as making the shape of the glass dial rectangular to position it, so the shape of the glass dial can be safely circular, and the glass dial can be easily positioned. The processing cost of the plate can be significantly reduced, and design freedom P1 can be increased.

Next, in the past, due to the pushing force of the contact spring,
To prevent the glass dial from popping out during the assembly process,
Although it was necessary to set up a U-shaped frame as shown in Fig. 5, 10e, it is possible to prevent the glass dial from popping out using a simple member such as a male screw with a flange, as in the present invention. , which is advantageous in terms of cost, eliminates the need to assemble the glass dial and frame in separate processes, and uses a component stacking method.
Since the hands can be assembled, automatic line assembly of the movement part is also possible, which is extremely effective. or,
By making the elastic body that absorbs impact force in various shapes and made of various materials, as shown in the examples shown in Figures 3 and 4, the stability during assembly of the packing and the stability after assembly are improved. Increasing the stability of the vibration mode of impact force, resistant! It is also possible to increase the seasonality.

[Brief explanation of drawings]

FIGS. 1 and 2 are assembled sectional views showing an embodiment of the present invention. FIGS. 3 and 4 are partial assembled cross-sectional views showing examples of the shape of the elastic body according to the embodiment of the present invention. FIGS. 5 and 6 are assembled cross-sections showing an embodiment according to the prior art. 1, lb, 1e, 1f... side. 2...Glass. 3.
・Back lid. 4... Push-up frame. 5.5b, 5e, 5
f...Reinforcement plate. 6, 6b, 6e, 6f...Glass dial. 7...Solar battery. 8...Double-sided tape. 9,9b,9
e. 9f...Main plate. 10e, 10f...frame. 11...
Contact spring. 12...Circuit board. 13...Movement. 14b... Male screw with flange. 15b...Guide pin. 16, 16b, 16c, 16d...elastic body. 17b
, 17c. 17d... Cosmetic ring. 18...Guidelines. 20...
Reinforcement assumption. 30.40.50.60...Gap. Request ayu

Claims (4)

[Claims] (1) In a solar powered wristwatch in which a solar cell is formed on a glass dial plate, a reinforcing plate is joined to the main plate that engages on the side and the glass dial plate on which the solar cell is formed, and glass letters are placed on the main plate. A solar cell wristwatch comprising: a reinforcing plate to which plates are joined; an elastic body is disposed on the upper surface of the outer periphery of the reinforcing plate; and the elastic body is sandwiched between the side and the reinforcing plate. (2) In a solar-powered wristwatch in which a solar cell is formed on a glass dial, two or more guide pins are erected on the main plate, and the main plate with the guide pins erected is engaged with the side of the main plate on which the solar cell is formed. A reinforcing plate is bonded to the glass dial plate, the reinforcing plate to which the glass dial plate is bonded is placed on the base plate using the guide pin as a guide, an elastic body is placed on the upper surface of the outer periphery of the reinforcing plate, and A solar cell wristwatch comprising a side and a reinforcing plate sandwiching the elastic body. (3) The solar cell wristwatch as set forth in claim 2, wherein a screw hole is formed in the axial direction of the guide pin as set forth in claim 2, and a male thread with a flange is fastened to the guide pin. (4) In the elastic body according to claims 1 and 2, a flange-like bulge is provided on the upper side of the inner circumference of the elastic body. A solar cell wristwatch according to claims 1, 2, and 3, wherein a flange-like protrusion of the elastic body is arranged on the upper surface of the outer periphery of the glass dial.