JPS6344879Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a sounding device that is easy to assemble.

Conventionally, a sounding device as shown in FIG. 1 has been known. This sounding device has a case consisting of a synthetic resin cylindrical case body 1 and a synthetic resin resonance lid 2 which is covered with the case.The inside of this case A is located between the case 1 and the resonance lid 2. A resonance chamber 4 and a storage chamber 8 are defined by the diaphragm 3 held by the diaphragm 3 . A movable piece 5 is attached to the diaphragm 3. At the bottom of the synthetic resin cylindrical case 1,
The yoke 6 and the terminal board 7 are inserted and fixed from below. Synthetic resin cylindrical case 1
A storage chamber 8 consisting of a diaphragm 3 and a yoke 6 accommodates a permanent magnet 9, a coil 10, and an iron core 11, and the coil 10 is connected to an oscillation circuit (not shown) via a terminal 12. , while iron core 11
is opposed to the movable piece 5 with a predetermined gap therebetween in order to move the movable piece 5. This conventional sound generating device generates sound by energizing the coil 10 by causing the oscillation circuit to oscillate, and its sound frequency characteristic f is determined by the following equation.

Here, each parameter contributing to the sound frequency characteristic f will be explained based on FIG. 2. Symbol V indicates the volume of the resonance chamber, l indicates the hole depth, and D indicates the hole diameter. Note that the symbol C is the speed of sound, and π is the constant of pi.

This conventional sound generating device has the following drawbacks.

(1) Since the diaphragm is installed from the top of the synthetic resin cylindrical case 1, and the yoke 6 and the terminal board 7 are installed from the bottom of the synthetic resin cylindrical case 1, assembly is troublesome.

(2) Since the case 1 and the resonance lid 2 are made of synthetic resin, they expand and contract rapidly due to temperature changes, and the volume of the resonance chamber changes accordingly. It is difficult to obtain a sounding device having a frequency of 2 to 2 kilohertz, or in other words, a sounding device having a frequency in the so-called melody performance band.

(3) Generally, in order to obtain a sounding device having a frequency in the melody performance band, the diameter of the diaphragm 3 must be
Although it is required to be 20 mm or more, if configured in this way, the sounding device will be large and there will be a waste of space.

The present invention was devised in view of the drawbacks of the prior art described above, and an object of the present invention is to provide a sounding device that is easy to assemble and suitable for melody performance.

The features of this invention are that the case is made of metal material in the shape of a cylinder with a bottom, and two stepped sections are formed on the inner surface of the case.A diaphragm and a metal resonance cover are attached to each stepped section, respectively. By attaching the components to this case, the assembly of the sounding device is simplified, and the volume of the resonance chamber is kept as much as possible from changing due to temperature changes, so that the melody performance can be performed as stably as possible. It is in.

Embodiments of the present invention will be described below with reference to the drawings.

In FIG. 3, reference numeral 13 denotes a metal cylindrical case with a bottom, which is made of a magnetic metal material to also serve as a yoke. This bottomed cylindrical case 13
Two stepped portions 14 and 15 are formed on the inner surface of the holder 14 and 15 at a predetermined distance apart in the height direction. An iron core 16 is attached to the center of the bottom of the bottomed cylindrical case 13, and a movable piece 17 facing the iron core 16 with a gap G in the stepped portion 14 on the side closer to the bottom of the bottomed cylindrical case 13. Phosphor bronze diaphragm 1 integrally equipped with
8 is placed. The iron core 16 is a cylindrical coil 1
A permanent magnet 20 is provided around the cylindrical coil 19 , and both the cylindrical coil 19 and the permanent magnet 20 are fixed to the bottom of the bottomed cylindrical case 13 . Bottomed cylindrical case 13 and iron core 1
6, the movable piece 17, and the permanent magnet 21 constitute a magnetic circuit 21 as shown in the figure, and the diaphragm 18
When the movable piece 17 is attracted to the permanent magnet 21, it is pressed against the stepped portion 14, and the diaphragm 18
The stiffness of itself and the permanent magnet 21
It is at rest in equilibrium with the attractive force of. Here, the diaphragm 18 has a diameter of approximately 40 to 50 mm in order to ensure a sound pressure of 25 octaves and a frequency band of 400 hertz to 2 kilohertz to enable melodic performance. The diameter of the bottom cylindrical case 13 is also made to correspond to this. The space defined by the bottomed cylindrical case 13 and the diaphragm 18 is
It serves as a storage chamber 23 for the electromagnetic block 22. The electromagnetic block 22 is composed of a ring-shaped terminal board 24 and a circuit element 25 installed thereon, and the terminal board 24 and the circuit element 25 are arranged to form an oscillation circuit.

A metal resonance lid 27 that cooperates with the diaphragm 18 to form a resonance chamber 26 is fixed to the stepped portion 15 on the side far from the bottom of the bottomed cylindrical case 13 by resistance welding, press fitting, or the like. . The metal resonance lid 27 has a sounding hole 28 at its center, and the top surface of the raised portion 29 of the metal lid 27 is prevented from protruding outside from the bottomed cylindrical case 13, so that the sounding device can Even if it falls and receives an impact, the resonance lid 27 is prevented from being deformed and the volume of the resonance chamber 26 is prevented from changing. In addition, code 2
9 is a lead wire for supplying current to the oscillation circuit.

When the oscillation circuit of this sounding device is energized, the alternating magnetic field generated by the coil is superimposed on the magnetic field of the permanent magnet 21, causing the diaphragm 18 to vibrate, thereby causing the sounding device to produce a melody sound.

According to the sounding device having this configuration, the electromagnetic block 2
2. The diaphragm 18 and the resonance lid 27 are placed in the bottomed cylindrical case 1.
Since the sounding device can be assembled by inserting the sounding device into the device 3 from above, the sounding device can be assembled more easily than in the past. Since the bottomed cylindrical case 13 and the resonance lid 27 are made of metal, the volume of the resonance chamber 26 remains constant regardless of changes in temperature and humidity compared to those made of synthetic resin. This means that a stable melody sound can be played. In addition, in order to make melody performance possible, the diameter of the bottomed cylindrical case 13 was increased, and the electromagnetic block 22 was built into the increased space, and the oscillation circuit was built inside the sounding device. The entire sound generating device can be made smaller and its handling becomes easier.

Further, when the resonance frequency characteristic is B for the vibration frequency characteristic A of the diaphragm 18 shown in FIG. 4, the overall frequency characteristic C becomes the one shown in FIG. 5, and when the volume of the resonance chamber 26 changes, This will change the quality of the melody sound, but since the top surface of the resonant lid 27 does not protrude from the bottomed cylindrical case 13, it is difficult to drop the sound generating device. Since the volume of the resonance chamber 26 does not change even if a shock is applied to the melody, the quality of the melody tone does not change due to the shock.

In the above embodiment, the electromagnetic block 22 is provided at the bottom of the bottomed cylindrical case 13, but the structure is not limited to this as long as it is placed in the storage chamber 23. Furthermore, the configuration of the resonance lid 27 is not limited to this. In addition, in the embodiment, in order to widen the frequency band as much as possible, a diaphragm 18 is provided on the stepped portion 14.
Although the diaphragm 18 is only placed on the stepped portion 14, the diaphragm 18 may be fixed to the stepped portion 14. In this case, the frequency band becomes narrow, but it can be used for buzzers, etc.

Since the present invention is configured as explained above,
This makes it possible to provide a sounding device that is easy to assemble and suitable for playing melody sounds, and its effects will be explained in more detail as follows.

(1) The sound generating device can be assembled by sequentially incorporating the electromagnetic block, diaphragm, and resonant lid into the bottomed cylindrical case, which also helps in automation.

(2) Since the bottomed cylindrical case and the resonance lid are made of metal, the volume change of the resonance chamber due to temperature and humidity is small, and the melody sound can be played stably. is protected, making it less susceptible to internal damage.

(3) Since the electromagnetic block is incorporated inside the sounding device, the sounding device can be easily handled.

(4) Since the bottomed cylindrical case also serves as a yoke, the number of parts is small.

(5) Since the resonance lid is located inside the bottomed cylindrical case, it will not deform even if the sounding device is dropped.
Therefore, the volume of the resonance chamber does not change.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view of a conventional sound generating device. FIG. 2 is a model diagram for explaining parameters contributing to sound frequency characteristics. FIG. 3 is a longitudinal sectional view of the sounding device according to the present invention. Figures 4 and 5 are frequency characteristic diagrams. 13... Bottomed cylindrical case, 14, 15... Step portion, 18... Vibration plate, 22... Electromagnetic block, 2
6... Resonance chamber, 27... Resonance lid.

Claims (1)

[Claims for Utility Model Registration] A bottomed cylindrical case that also serves as a yoke and is made of a magnetic material, and two stepped portions formed at a predetermined distance in the height direction on the inner surface of the bottomed cylindrical case. , an electromagnetic block provided on the bottom surface of the bottomed cylindrical case and provided with each element constituting a part of an oscillation circuit; a diaphragm that forms a magnetic circuit by maintaining a predetermined gap with the electromagnetic block; and a diaphragm that is fixed to a stepped portion of the bottomed cylindrical case on the side far from the bottom, and whose upper surface is an opening of the bottomed cylindrical case. and a metal resonance lid located inwardly from the diaphragm and forming a resonance chamber in cooperation with the diaphragm.