KR20120100824A - Piezo-buzzer - Google Patents

Abstract

PURPOSE: A piezoelectric buzzer is provided to prevent a piezoelectric buzzer from being thick in a normal direction of a piezoelectric vibration plate on a surface of the piezoelectric vibration plate. CONSTITUTION: A piezoelectric vibration plate is fixed to a case body(11) in order to cover a resonance chamber(8). The piezoelectric vibration plate faces outside of the resonance chamber. A rear side of the piezoelectric vibration plate faces inside the resonator chamber. Terminals(3,4) perform electric connection with outside a case body and a register(7). The register is arranged in the resonance chamber.

Description

Piezoelectric Buzzer {PIEZO-BUZZER}

The present invention relates to a piezoelectric buzzer that electrically connects a piezoelectric diaphragm and a terminal and applies an alternating voltage to the piezoelectric diaphragm via the terminal to ring the piezoelectric diaphragm.

Conventionally, the piezoelectric buzzer is disclosed by patent documents 1-3. In the piezoelectric buzzers described in Patent Documents 1 to 3, the electrical connection with the outside is made, and the structure is fixed by soldering one end of the lead spring to the end of the terminal and soldering the other end to the piezoelectric diaphragm. I am doing it. A resonance chamber is formed inside the housing of the piezoelectric buzzer on the back side of the piezoelectric diaphragm, i.e., on the opposite side to the surface on which the lead spring is fixed, so that a sound of a desired frequency can be obtained by resonance in the resonance chamber.

The piezoelectric buzzer configured as described above sounds by ON-OFF of voltage application at the driving frequency, but the piezoelectric vibrating plate cannot be operated unless the electric charge charged in the piezoelectric ceramic is discharged at the time of OFF. Therefore, although a resistor as a discharge resistor for discharging the electric charge charged in the piezoelectric ceramics is required to be OFF, when the resistor is provided on the side of the piezoelectric buzzer control electronic control unit (ECU) provided separately from the piezoelectric buzzer, the discharge path becomes long. It may be affected by noise or function as an antenna. For this reason, in the piezoelectric buzzers described in Patent Documents 1 to 3, resistors are built in and resistors are arranged adjacent to the lead spring on the surface side of the piezoelectric discharge plate. In this way, a resistor is built in the piezoelectric buzzer to discharge the electric charges charged in the piezoelectric ceramics in the OFF state, to extinguish the electric charges generated by the piezoelectric diaphragm due to the impact of falling, and to prevent the failure of the piezoelectric diaphragm. The effect can be obtained.

[Patent Document 1] Japanese Unexamined Patent Publication No. 2007-256329 [Patent Document 2] Japanese Unexamined Patent Publication No. 2009-168845 [Patent Document 3] Japanese Unexamined Patent Publication No. 2010-237473

However, as shown in Patent Documents 1 to 3 above, the structure in which the resistor is built in the piezoelectric buzzer and the resistor is disposed on the surface side of the piezoelectric diaphragm increases the space for placing the piezoelectric resistor, which hinders the miniaturization of the piezoelectric buzzer.

In view of the above problems, an object of the present invention is to provide a piezoelectric buzzer which can be further miniaturized even if a resistor is incorporated.

In order to achieve the above object, in the first example of the present invention to cover the case main body and the resonance chamber having a bottom surface and a main wall and a soundproof hole for releasing the sound resonating in the resonance chamber at the same time to form a resonance chamber in the main wall A piezoelectric vibrating plate and a resistor constituting a discharge resistor for discharging the charge charged in the piezoelectric vibrating plate and the piezoelectric vibrating plate, which is fixed to the case body and whose surface faces the outside of the resonance chamber and whose back side faces the inside of the resonance chamber; A terminal having an electrical connection to the outside of the case body is provided, and a resistor is disposed in the resonance chamber.

In this way, when the resistor is placed inside the resonance chamber, the resistor is not disposed on the surface side of the piezoelectric diaphragm. For this reason, it is not necessary to consider the length equivalent of the thickness of a resistor in the normal direction of a piezoelectric diaphragm at the surface side of a piezoelectric diaphragm, and it can prevent that a piezoelectric buzzer becomes thick in that direction. Therefore, the piezoelectric buzzer can be miniaturized even if a resistor is incorporated.

For example, in the second example of the present invention, the resistor may be disposed overlapping with the piezoelectric diaphragm when viewed in the normal direction of the piezoelectric diaphragm.

In this manner, when the resistor is placed inside the resonance chamber and the piezoelectric diaphragm and the resistor overlap each other in the normal direction of the piezoelectric diaphragm, the longitudinal dimension of the piezoelectric buzzer can be shortened. Therefore, the piezoelectric buzzer can be further miniaturized.

Further, in the third example of the present invention, the terminal is insert molded to form a case main body, and the terminal is divided into a plurality of terminals, the first tip of which is connected to the outside and the second tip of the terminal exposed from the inside of the resonance chamber. A resistor can be connected to this exposed tip.

Further, in the fourth example of the present invention, the third leading end of the terminal is exposed at the case body on the surface side of the piezoelectric diaphragm, and at this exposure point, the terminal and the piezoelectric diaphragm can be connected via lead wires.

1 is a view showing a piezoelectric buzzer which is a first embodiment of the present invention, wherein (a) and (b) are perspective views of the piezoelectric buzzer viewed from different directions, and (c) is a front view of the piezoelectric buzzer. It is a left side view.
FIG. 2 is an exploded front view of the piezoelectric buzzer shown in FIG. 1.
3 is an exploded perspective view of the piezoelectric buzzer shown in FIG. 1.
Fig. 4 is a view showing a case main body in a state where insert molding a terminal and a resistor connected to a terminal, (a) is a perspective view, (b) is a front view, and (C) is a left side view.
5 is a view showing a terminal (a) is a perspective view, (b) is a front view, (C) is a left side view.

Hereinafter will be described based on the drawings of the embodiment of the present invention. In addition, in each of the following embodiments, the same or equivalent parts are denoted by the same reference numerals.

(Embodiment 1)

1 is a view showing a piezoelectric buzzer according to the present embodiment, (a), (b) is a perspective view when the piezoelectric buzzer is viewed from another direction, (C) is a front view of the piezoelectric buzzer, (d) is a piezoelectric buzzer left side It's a shave. 2 is an exploded front view of the piezoelectric buzzer illustrated in FIG. 1, and FIG. 3 is an exploded perspective view of the piezoelectric buzzer illustrated in FIG. 1. Hereinafter, the piezoelectric buzzer related to this embodiment will be described with reference to this drawing.

1 to 3, the piezoelectric buzzer has a structure for accommodating various components in the case 1. The case 1 consists of the case main body 11 and the cover 12, and is comprised by inserting the cover 12 into the case main body 11 in the state which assembled the components of the piezoelectric buzzer to the case main body 11. As shown in FIG. . The components of the piezoelectric buzzer include piezoelectric diaphragms 2, terminals 3 and 4, lead wires 5 and 6 and resistors (discharge resistors) 7, which are assembled to the case main body 11.

For example, the case main body 11 and the cover 12 are comprised with insulating materials, such as resin, and are substantially a rectangular parallelepiped shape. The case body 11 is formed by insert molding the terminals 3 and 4. Then, the resistor 7 is connected to the terminals 3 and 4 which are insert-molded in the case main body 11, and then the piezoelectric diaphragm 2 is fixed, and then the terminals 3 and 4 and the piezoelectric diaphragm 2 are read. The wires 5 and 6 are electrically and physically connected and covered with a cover 12 to form a piezoelectric buzzer in a state where each component is contained in the case 1.

FIG. 4 is a view showing a case main body 11 in a state where inserts are formed on terminals 3 and 4 and a resistor 7 is connected to terminals 3 and 4. (a) is a perspective view, (b) is a front view, (c) is a left side view. 5 is a view showing terminals 3 and 4, (a) is a perspective view, (b) is a front view, and (c) is a left side view.

Referring to FIG. 4, the case body 11 has a main wall 11b protruding in the vertical direction from the bottom face 11a and the bottom face 11a and a connector part 11c protruding in one direction from the main wall 11b. do.

The soundproof hole 11d is formed in the bottom face 11a of the case main body 11. The circumferential wall 11b has a cylindrical part surrounding the sound insulation hole 11d, and the resonance chamber 8 is comprised by the cylindrical part and the bottom face 11a in the circumferential wall 11b, and covers this resonance chamber 8, and so on. The piezoelectric diaphragm 2 is fixed. The sound resonantly amplified by the resonance phenomenon in the resonance chamber 8 is output through the soundproof hole 11d to cause the sound to go out.

The terminals 3 and 4 are built in the case main body 11 configured as described above, and the three distal ends of the terminals 3 and 4 branched into a plurality (here three) are respectively connected to the connector portion 11c and the piezoelectric vibrating plate. In the case body 11 on the front side and the back side of (2) (that is, the outside of the resonance chamber 8 and the inside of the resonance chamber 8 when the resonance chamber 8 is covered by the piezoelectric diaphragm 2). It is in a protruding state.

Referring to FIG. 3, the locking portion 11e is provided near the boundary position with the bottom face 11a inside the main wall 11b of the case body 11. The hook portion 12a is provided inside the cover 12 at a position corresponding to the locking portion 11e of the case body 11. When the cover 12 is fitted into the case body 11 by such a configuration, the hook portion 12a is in contact with the locking portion 11e and elastically deformed into the cover 12. The cover 12 is assembled with the case main body 11 so that each component may be covered by the cover 12 and caught by the locking portion 11e.

In addition, the connection piece 12b is provided in the outer wall of the cover 12, and the connection piece 12b is inserted into the connection blood (not shown) provided in the installation object, such as a vehicle body, and is fixedly connected to the installation object.

2 and 3, the piezoelectric diaphragm 2 is composed of a circular thin plate. Specifically, the piezoelectric diaphragm 2 has the structure which has the metal plate 2a which consists of circular thin plates, and the piezoelectric ceramic plate 2b which consists of a circular thin plate much smaller than the metal plate 2a which silver paste is baked on the front and back surfaces. The metal plate 2a and the piezoelectric ceramic plate 2b are electrically connected to each other via a conductive layer on the back side of the piezoelectric ceramic plate 2b. The piezoelectric diaphragm 2 has the piezoelectric ceramic plate 2b side on the surface and the metal plate 2a side on the back side, and constitutes a resonance chamber 8 inside the main wall 11b of the case body 11 on the back side. It is adhered to the part and fixed to the case body 11.

Referring to Fig. 5, the terminals 3 and 4 have a symmetrical structure and are divided into a plurality of branches as mentioned above, and each of the tips 3a to 3c and 4a to 4c is directed in a desired direction by bending. Lost

Referring to Fig. 4C, the first tip portions 3a and 4a are exposed in the case main body 11 inside the connector portion 11c and are used as connection terminals with the outside. The second tips 3b and 4b are exposed from the case body 11 on the surface side of the piezoelectric vibrating plate 2 and are used for electrical connection with the lead wires 5 and 6. The case main body 11 is divided by the piezoelectric diaphragm 2 to the inside of the resonance chamber 8 and the outer side opposite to the resonance chamber 8, but the tip portions 3b and 4b on the outer side of the resonance chamber 8 therein. Becomes a protruding state. These tip portions 3b and 4b are formed with slits. The third tips 3c and 4c are exposed to the inside of the resonance chamber 8 on the rear surface side of the piezoelectric diaphragm 2 and are used for electrical connection with the resistor 7. Slit is also provided in these front-end parts 3c and 4c.

The lead wire 5 makes an electrical connection between the terminal 3 and the piezoelectric ceramic plate 2b at the piezoelectric vibrating plate 2, and the lead wire 6 is connected to the metal plate at the terminal 4 and the piezoelectric vibrating plate 2. Make electrical connection with 2a). 2 and 3, one end of the lead wires 5 and 6 is connected to the tip portions 3b and 4b of the terminals 3 and 4, and the other end thereof is connected to the piezoelectric ceramic plate 2b or the metal plate 2a. . For example, the connection between the lead wires 5 and 6 and the tip portions 3b and 4b of the terminals 3 and 4 inserts the lead wires 5 and 6 into the slits of the tip portions 3b and 4b. 5,6) is made by soldering on the tip side. In addition, for example, the connection between the lead wires 5 and 6 and the piezoelectric ceramic plate 2b or the metal plate 2a is performed by connecting the other end of the lead wires 5 and 6 to the surface of the piezoelectric ceramic plate 2b or the metal plate 2a. It is made by soldering in a placed state.

Referring to Fig. 4, the register 7 is a device having terminals on both sides and is provided in the resonance chamber 8. The resistor 7 is electrically connected to the terminals 3 and 4 by soldering in a state in which both terminals are fitted in the slits formed at the tips 3c and 4c of the terminals 3 and 4, and the piezoelectric diaphragm 2 Is connected in parallel.

The piezoelectric buzzer which concerns on a present Example is comprised by the above structures. In such a piezoelectric buzzer, the resistor 7 is provided in the inside of the resonance chamber 8. Therefore, since the register 7 does not need to be disposed on the surface side of the piezoelectric vibrating plate 2, the piezoelectric buzzer can be miniaturized.

That is, in the case where the register 7 is disposed outside the resonance chamber 8 as in the prior art, the register 7 is located at the surface side of the piezoelectric diaphragm 2 adjacent to the lead wires 5, 6. The lead wires 5, 6 are arranged on the opposite side of the piezoelectric diaphragm 2 with the tip portions 3b, 4b of the terminals 3, 4 connected thereto. In this case, on the surface side of the piezoelectric diaphragm 2, the length corresponding to the thickness of the resistor 7 in the normal direction of the piezoelectric diaphragm 2 should be considered, and the piezoelectric buzzer becomes thick in this direction. In addition, since the resistor 7 and the lead wires 5 and 6 must be arranged side by side, the longitudinal length of the piezoelectric buzzer becomes long. Therefore, the piezoelectric buzzer cannot be miniaturized sufficiently.

On the other hand, if the resistor 7 is arranged inside the resonance chamber 8 as in the present embodiment, the resistor 7 is not arranged on the surface side of the piezoelectric diaphragm 2. Therefore, it is not necessary to consider the length equivalent of the thickness of the resistor 7 in the normal direction of the piezoelectric diaphragm 2 on the surface side of the piezoelectric diaphragm 2, and can prevent thickening of a piezoelectric buzzer in the said direction. In addition, since the resistor 7 and the lead wires 5 and 6 are not arranged side by side, the longitudinal length of the piezoelectric buzzer can be reduced. In particular, when the resistor 7 is placed inside the resonance chamber 8 and viewed from the normal direction of the piezoelectric diaphragm 2, the piezoelectric diaphragm 2 and the resistor 7 overlap each other, so that the longitudinal length of the piezoelectric buzzer is more than that. Can be reduced. Therefore, even if the resistor 7 is incorporated, the piezoelectric buzzer can be sufficiently miniaturized.

Moreover, although the volume or dimension of the resonance chamber 8 is determined so that the sound of a desired frequency can be obtained, the sound of a desired frequency can be obtained even if the register 7 is provided. Therefore, the register 7 can be arranged inside the resonance chamber 8 to obtain a sound of a desired frequency, and the piezoelectric buzzer can be miniaturized.

(Another embodiment)

The shape of the piezoelectric buzzer shown in the above embodiment, for example, the shape of the case 1 or the shape of the resonance chamber 8 is merely a simple example and can be appropriately changed in design. For example, although the main wall 11b of the case main body 11 which comprises the resonance chamber 8 is made into the cylindrical shape (the inner wall surface is substantially cross-sectional circular shape), the resonance phenomenon basically has the frequency which resonates according to a volume. Since it is decided, it does not necessarily need to make a cylindrical shape, for example, you may set it as a polygonal cylinder shape or an elliptic cylinder shape.

Moreover, although the case main body 11 was made into the structure where the terminals 3 and 4 were insert-molded, you may assemble the terminal 3 and 4 with respect to the case main body 11 by press injection.

Claims (4)

A case main body having a bottom surface and a main wall and having a soundproof hole constituting a resonance chamber on the main wall and emitting sound resonated in the resonance chamber on the bottom surface;
A piezoelectric vibrating plate which is fixed to the case body to cover the resonance chamber, the surface of which faces toward the outside of the resonance chamber and the rear surface of which faces the resonance chamber;
A resistor constituting a discharge resistor for discharging the charge charged in the piezoelectric vibrating plate; And
And a piezoelectric diaphragm and a terminal for electrically connecting the resistor to the outside of the case body, wherein the resistor is disposed in the resonance chamber. The piezoelectric buzzer according to claim 1, wherein the register is disposed to overlap with the piezoelectric diaphragm when viewed in a normal direction of the piezoelectric diaphragm. 3. The case body according to claim 1 or 2, wherein the case body is made of an insulating material insert-molded the terminal, the terminal is divided into a plurality of parts, wherein the first end portion is a connection terminal to the outside, and the second end portion is a portion of the resonance chamber. A piezoelectric buzzer that is exposed from the inside and is connected to the exposed tip portion thereof. The piezoelectric buzzer according to claim 3, wherein the third tip portion of the terminal is exposed from the case body on the surface side of the piezoelectric diaphragm, and at this exposed portion, the terminal and the piezoelectric diaphragm are connected through a lead wire.

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