JP3556568B2 - Alarm Clock - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an alarm clock that outputs an alarm sound by, for example, causing a bell to be struck by a driving force of a motor or an electronic sound being generated by a speaker.
[0002]
[Prior art]
Generally, an alarm clock is known which has an alarm function of generating an alarm sound by, for example, striking a bell by a driving force of a motor, or an alarm function of outputting an electronic sound through a speaker to output an alarm sound. .
[0003]
In such an alarm clock, there is a movement in which an alarm function is compactly mounted on one receiving plate.
[0004]
For example, in an alarm clock provided with an alarm function of generating an alarm sound by hitting a bell by the driving force of a motor, a so-called clock driving unit, a bell, a DC motor, a circuit board, and a battery box are attached to one receiving plate. I have.
[0005]
In an alarm clock having an alarm function of outputting an electronic sound by a speaker and outputting an alarm sound, a clock driving unit, a speaker, a DC motor, a circuit board, and a battery box are mounted on one receiving plate.
[0006]
[Problems to be solved by the invention]
By the way, in recent years, in this type of alarm clock, it is necessary to reduce the size of the clock and reduce the power consumption of the driving current due to the need to improve performance.
[0007]
However, due to the reduction in power consumption, the timepiece driving unit including the rotor of the pointer driving motor is easily affected by an external magnetic field.
Therefore, as described above, in an alarm clock having a movement in which the alarm function is compactly mounted on one receiving plate, the malfunction of the alarm function due to the leakage magnetic flux of the DC motor or the speaker may be caused by the downsizing of the clock body. There is.
[0008]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide an alarm clock that can be reduced in size while suppressing occurrence of a malfunction even when power consumption is reduced.
[0009]
[Means for Solving the Problems]
To achieve the above object, the alarm clock of the present invention generates a predetermined magnetic field, an alarm sound drive unit for outputting an alarm sound, a clock drive unit for driving a pointer drive unit by magnetic action, The shield plate and the alarm sound drive unit can be housed so that at least a part of the alarm sound drive unit is close to the clock drive unit, and the clock drive of the alarm sound drive unit housed with the clock drive unit An accommodating portion having an accommodating space capable of accommodating the shield plate between a portion opposing the portion and an alarm sound driving portion engaged with a part of the alarm sound driving portion accommodated in the accommodating portion; And a locking piece for holding the shield plate at a predetermined position, wherein the locking piece communicates with the housing space of the housing portion to form a part of the housing space, and the housed shield plate is positioned at the predetermined position. The communication space that can be held is shaped It is.
[0010]
Further, in the present invention, in addition to the alarm sound drive unit, the shield plate, the timepiece drive unit, the housing unit, and the locking piece, the circuit board is collectively provided on one receiving plate, and each part of the receiving plate is attached. In the upper part of the surface, the circuit board is arranged below the shield plate.
[0011]
According to the present invention, in order to accommodate the shield plate and the alarm sound drive unit in the accommodation unit, first, the shield plate is inserted into the accommodation space of the accommodation unit.
Subsequently, a part of the shield plate is inserted into the communication space formed in the locking piece and held at a predetermined position.
Then, the alarm sound drive unit is housed in the housing unit. At this time, the locking piece is locked to a part of the alarm sound drive unit. As a result, the alarm sound drive section is prevented from coming off and the like, and is kept in a stable state.
The assembled shield plate is stably held at a predetermined position by being sandwiched between the inner surface of the communication space of the locking piece and the outer surface of the alarm sound drive unit.
[0012]
Further, by disposing the circuit board under the shield plate, the circuit board is prevented from coming off.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a plan view showing an embodiment of a movement section of the alarm clock according to the present invention.
[0014]
In the movement unit 10 of the alarm clock according to the present embodiment, the clock drive unit 20, the alarm function unit 30, and the battery box 40 are arranged in parallel on one receiving plate 11.
Specifically, the clock drive unit 20 is disposed at the center of the receiving plate 11, and the alarm function unit 30 is disposed adjacent to the clock drive unit 20 on the left side (lower side) in FIG. A battery box 40 is arranged on the right side (upper side) in FIG.
[0015]
In the case of a two-hand clock, for example, a minute hand and an hour hand, the timepiece driving unit 20 reduces the rotation speed of a drive motor (not shown) and the minute hand, hour hand and drive motor to a predetermined speed in the case body 201. It has an intermediate wheel to be transmitted to the vehicle, a wheel train including a minute wheel that reduces the rotation speed of the minute hand pipe to a predetermined speed and rotates the hour hand wheel, and a circuit board.
In the present embodiment, as shown in FIG. 2, the rotor 202 of the drive motor is arranged so as to be close to the alarm function unit 30.
[0016]
FIG. 3 is a simplified cross-sectional view of a main part of the alarm function unit 30 according to the present invention, and FIG. 4 is a diagram for explaining a housing part of the alarm function unit 30.
As shown in FIGS. 1 and 3, the alarm function unit 30 includes a DC motor 301 as an alarm sound drive unit, a DC motor storage unit 302, a locking piece 303, a bell 304, a striking bell 305, and a shield plate 306. have.
[0017]
As shown in FIGS. 3 and 4, the DC motor 301 has a cylindrical shape and is formed in a two-stage shape including an upper portion 301 a and a lower portion 301 b having a smaller diameter on the upper side, and an upper surface portion of the upper portion 301 a. The rotation shaft 301c protrudes from.
Further, lead wires LDL connected to a circuit board (not shown) of the timepiece driving section 20 are provided from the lower surface side of the lower section 301b.
Then, as shown in FIG. 4B, when the DC motor 301 is housed in the housing portion 302, the locking claws 303a of the locking pieces 303 are provided on the step surface 301d between the upper portion 301a and the lower portion 301b. Locked.
[0018]
The accommodating portion 302 is capable of accommodating a part of the DC motor 301 so as to be close to the timepiece drive portion 20, and is provided between the timepiece drive portion 20 and a portion of the accommodated DC motor 301 facing the side of the timepiece drive portion 20. There is a cylindrical housing space 302a that can house the shield plate 306 between them.
The height (depth) of the housing space 302a is formed to be substantially the same as or slightly higher than the thickness of the timepiece drive unit 20.
An opening 302b for allowing the lead wire LDL of the DC motor 301 to escape to the outside of the housing space 302a is formed in the bottom of the housing 302.
[0019]
Actually, as shown in FIGS. 1 and 4A, the locking pieces 303 are provided at three places on the outer peripheral portion of the housing portion 302.
Specifically, a first locking piece 3031 is provided in the vicinity of the side of the timepiece driving section 20, and the second and third engagement pieces are rotated at 120 degrees with respect to the first locking piece 3031. Stop pieces 3032 and 3033 are provided.
These locking pieces 3031, 3032, and 3033 have elasticity, and upper portions 301 a and lower portions 301 b of the DC motor 301 housed in the housing portion 302 are provided on the upper portions thereof, as shown in FIG. A locking claw 303a for locking the stepped surface 301d of the DC motor 301 to prevent the DC motor 301 from coming off or the like and to maintain the DC motor 301 in a stable state is formed.
Therefore, when the DC motor 301 is accommodated in the accommodating portion 302, the locking pieces 3031, 3032, and 3033 are expanded in the radial direction of the cylindrical accommodating space, and the DC motor 301 is accommodated in a predetermined position of the accommodating portion 302. Then, it returns to the original position by elasticity, and the locking claw 303a is locked to the step surface 301d of the DC motor 301.
[0020]
The shield plate 306, which is part of the housing space 302a in communication with the housing space 302a of the housing part 302, is formed in a portion of the first locking piece 3031 lower than the thickness of the timepiece drive unit 20, and A communication space (recess) 303b that can be held at a predetermined position is formed.
The width (depth) of the communication space 303b is substantially the same as or slightly larger than the thickness of the shield plate 306.
Therefore, the shield plate 306 after assembly is stably held at a predetermined position while being sandwiched between the inner surface of the communication space 303b of the first locking piece 3031 and the outer surface of the DC motor 301.
[0021]
The bell 304 is formed, for example, in a mortar shape, and its central portion is fixed with screws.
At this time, as shown in FIGS. 1 and 3, the upper part of the outer side surface is fixed so as to be located on the upper part of the housing part 302.
[0022]
As shown in FIG. 3, the striking portion 305 has a long plate portion 305a having a central portion fixed to the rotating shaft 301c of the DC motor 301, and mounting shafts 305b and 305c formed at both ends of the long plate portion 305a. And a metal disk-shaped striking body 305d, 305e rotatably mounted on the mounting shafts 305b, 305c.
When the DC motor 301 is driven at the alarm set time and the rotating shaft 301c rotates, the striking portion 305 rotates the long plate portion 305a, whereby the striking bodies 305d and 305e have a phase difference of 180 degrees. Hit the bell 304.
[0023]
The shield plate 306 is formed in an arc shape and, as described above, is housed in the communication space 303b of the locking piece 3031 and the housing space 302a of the housing portion 302, and the leakage magnetic flux generated when the DC motor 301 is driven and the leakage magnetic flux generated when the DC motor 301 is not driven The magnetic flux leakage from the permanent magnet of the DC motor 301 is shielded from being transmitted to the timepiece drive unit 20.
[0024]
In the battery box 40, for example, one C-cell is set.
That is, the driving power of the alarm clock according to the present embodiment is 1.5V.
[0025]
In such a configuration, in order to house the shield plate 306 and the DC motor 301 in the housing portion 302, first, the arc-shaped shield plate 306 is inserted into the housing space 302a of the housing portion 302.
Subsequently, a part of the shield plate 306 is inserted into the communication space 303b formed in the first locking piece 3031 and held at a predetermined position.
Then, the DC motor 301 is housed in the housing section 302. At this time, the locking pieces 3031, 3032, and 3033 are expanded in the radial direction of the cylindrical housing space, and when the DC motor 301 is housed at a predetermined position of the housing section 302, the locking pieces 3031, 3032. 3033 is returned to the original position by elasticity, and the locking claw 303a is locked to the step surface 301d of the DC motor 301.
As a result, the DC motor 301 is kept in a stable state without being disconnected.
In addition, the assembled shield plate 306 is stably held at a predetermined position while being sandwiched between the inner surface of the communication space 303b of the first locking piece 3031 and the outer surface of the DC motor 301.
[0026]
As described above, according to the present embodiment, the alarm function DC motor 301, the clock drive unit 20 that drives the pointer drive unit by magnetic action, the shield plate 306, and a part of the DC motor 301 are used. A cylindrical shape that can be housed close to the timepiece drive unit 20 and that can house the shield plate 306 between the timepiece drive unit 20 and a part of the DC motor 301 that is housed and faces the side of the timepiece drive unit 20. An accommodating portion 302 having an accommodating space 302a and an elastic portion having an elastic portion provided thereon are engaged with a step surface 301d between an upper portion 301a and a lower portion 301b of the DC motor 301 accommodated in the accommodating portion 302, so that the DC Locking pieces 3031, 3032, and 3033 are formed with locking claws 303 a for preventing the motor 301 from coming off or the like and holding the motor 301 in a stable state. Since the communication space portion 303b is formed so as to communicate with the accommodation space 302a of No. 02 and form a part of the accommodation space and to hold the shield plate 306 to be accommodated at a predetermined position, the clock drive unit 20 and the DC motor 301 are formed. Can be reduced.
As a result, there is an advantage that even if the power consumption is reduced, the size can be reduced while suppressing the occurrence of a malfunction.
[0027]
In the present embodiment, an alarm clock having an alarm function of generating an alarm sound by hitting a bell by the driving force of a motor has been described as an example, but the present invention is not limited to this. It goes without saying that the present invention is also applicable to an alarm clock having an alarm function of outputting an alarm sound by sounding through a speaker.
In this case, instead of the DC motor, the speaker is accommodated in the accommodating portion, and a part of the shield plate is accommodated in the communication space formed in the engaging piece so that the inner surface of the engaging piece and the outer surface of the speaker are separated. It is configured so that the shield plate can be sandwiched between and held stably.
[0028]
Note that by disposing the circuit board so as to be positioned below the shield plate 306, the shield plate can be used as a tool for preventing the circuit board from coming off.
In particular, when a heavy DC motor or speaker is directly mounted on the circuit board, the circuit board can be received by the shield plate, so that the influence of vibration, drop, and the like can be reduced.
[0029]
【The invention's effect】
As described above, according to the present invention, there is an advantage that the power consumption can be reduced and the size can be reduced while suppressing the occurrence of a malfunction.
[Brief description of the drawings]
FIG. 1 is a plan view showing an embodiment of a movement section of an alarm clock according to the present invention.
FIG. 2 is a view for explaining an arrangement position of a drive motor rotor in the timepiece drive unit of FIG. 1;
FIG. 3 is a simplified sectional view of a main part of the alarm function unit according to the present invention.
FIG. 4 is a diagram for explaining a housing section of the alarm function section according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Movement part 11 ... Receiving plate 20 ... Clock drive part 202 ... Rotor 30 ... Alarm function part 301 ... DC motor 302 ... Housing part 302a ... Housing space 303 (3031-3033) ... Locking piece 303a ... Locking claw 303b ... Communication space portion 304 Bell 305 Taping portion 305a Long plates 305d and 305e Tapping body 306 Shield plate 40 Battery box

Claims (2)

An alarm sound drive unit for generating a predetermined magnetic field and outputting an alarm sound;
A clock drive that drives the pointer drive by magnetic action,
A shield plate,
The alarm sound drive unit can be housed such that at least a part of the alarm sound drive unit is close to the timepiece drive unit, and faces the timepiece drive unit of the alarm sound drive unit housed with the timepiece drive unit. A housing portion having a housing space capable of housing the shield plate between the portions,
A locking piece that is locked to a part of the alarm sound drive unit housed in the housing unit and holds the alarm sound drive unit at a predetermined position;
An alarm clock, wherein the locking piece is provided with a communication space portion that communicates with the accommodation space of the accommodation portion to form a part of the accommodation space and that can hold the accommodated shield plate at a predetermined position. The circuit board in addition to the alarm sound drive unit, the shield plate, the clock drive unit, the housing unit, and the locking piece is provided collectively on one receiving plate,
2. The alarm clock according to claim 1, wherein the circuit board is disposed below a shield plate above the mounting surface of each part of the receiving plate.

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