JP5972426B1 - Speaker unit - Google Patents

Abstract

A small and high-quality speaker unit is provided. A speaker unit (1) includes a vibrating body (20) having at least one opening (20a), a vibrating device (30) that makes contact with the vibrating body (20) and applies vibration, and a frame (10) that supports the vibrating body (20). The vibrating body 20 that is supported by the frame 10 and vibrates by being vibrated by the vibration device 30 has at least one opening 20a, so that many vibration modes are generated for the vibrating body 20 that does not have an opening, and the frequency The characteristic becomes gentle. Sound quality is improved. [Selection] Figure 1

Description

  The present invention relates to a speaker unit that generates sound by converting an electrical signal into physical vibration.

  The speaker unit amplifies an electric signal in which sound is recorded, supplies it to a vibration device, and vibrates the vibrating body, thereby generating an audible sound wave (also simply referred to as sound). In a conventional speaker unit, for example, as disclosed in Patent Document 1, a permanent magnet and a voice coil are frequently used as a vibration device. The speaker unit having such a configuration requires many parts and tends to increase in size and weight.

  In recent years, the use of small portable terminals such as cellular phones has increased, and there has been a demand for smaller and lighter speaker units. Therefore, a piezoelectric element has been adopted as a vibration device. However, the sound quality deteriorates because the vibration surface of the vibrating body is reduced. Patent Document 2 discloses a speaker unit in which a plurality of piezoelectric elements are supported in a cantilever shape and their vibration ends are connected to an edge of a vibrating body. As a result, a frequency characteristic with a generally high sound pressure level and no sharp peaks is obtained. However, the construction supporting the cantilever shape increases the production cost.

JP 2013-157972 A JP 2014-160915 A

  An object of the present invention is to provide a small and high-quality speaker unit.

The speaker unit of the present invention is
A vibrator having at least one opening;
A vibration device that abuts against the vibrating body and applies vibration;
A support member for supporting the vibrating body;
It is characterized by providing.

  According to this feature, the vibration body that is supported by the support member and vibrates when the vibration is applied by the vibration device has at least one opening, so that there are many fine vibration modes compared to a vibration body that does not have an opening. (Frequency amplified by resonance and frequency attenuated by anti-resonance) occur, and the frequency characteristics become gentle.

The speaker unit of the present invention is
The vibration device is a piezoelectric element attached to the vibration body, and has an opening at a position where the vibration body is in contact with the opening.

  According to this feature, the frequency characteristics of the vibrating body and the vibrating device as a whole become gentle without the fine vibration mode of the vibrating body being canceled out by the vibrating device.

The speaker unit of the present invention is
The vibrator has the opening at a position away from a center with respect to a portion supported by the support member.

  According to this feature, since the vibrating body has the opening at a position away from the center with respect to the portion supported by the support member, various vibration modes are generated, and the frequency characteristics are more gradual.

The speaker unit of the present invention is
The vibrating body has a circular region surrounded by a portion supported by the support member, and the distance from the center to each of a plurality of regions divided at equal angles in the circumferential direction by the circular region. The openings are provided at different positions.

  According to this, since there are a plurality of vibrating bodies at positions that are separated from the portion supported by the support member at different distances, a finer vibration mode is generated and the frequency characteristics are more gradual.

  In the speaker unit of the present invention, the vibrating body has a circular region surrounded by a portion supported by the support member, and each of the plurality of regions divided at equal angles in the circumferential direction by the circular region. It has an opening at a position where the distance from the center is different.

  According to this, the circular vibration body has a plurality of vibration modes designed by having openings at different positions from the center in each of a plurality of regions partitioned at equal angles in the circumferential direction. be able to.

  According to the speaker unit of the present invention, it is possible to make the frequency characteristics moderate and achieve high sound quality.

FIG. 1 is a diagram illustrating a schematic configuration, vibration mode, and frequency characteristics of a speaker unit. FIG. 2 is a block diagram illustrating a functional configuration of the control unit. FIG. 3 is a diagram illustrating vibration modes and frequency characteristics of a conventional speaker unit. FIG. 4 is a diagram illustrating an opening pattern of a vibrating body in a speaker unit according to a modification.

  Hereinafter, an embodiment of the present invention will be described.

  1A and 1B show schematic configurations of the speaker unit 1 in a top view and a side view, respectively. The speaker unit 1 is a device that generates sound by converting an electrical signal into physical vibration, and includes a frame 10, a vibrating body 20, and a vibrating device 30.

  The frame 10 is a support member that supports a vibrating body 20 described later. The frame 10 is formed into a cylindrical shape having a certain thickness using, for example, metal, resin, or the like. By fixing the edge of the vibrating body 20 inside the frame 10, the vibrating body 20 is supported by the frame 10 so as to be capable of vibrating. Note that the shape of the frame 10 is not limited to a cylindrical shape, and an arbitrary shape such as a rectangular tube may be employed according to the shape of the vibrating body 20 or the frequency characteristics. Moreover, you may employ | adopt the bottomed cylindrical shape which has a bottom in one side.

  The vibrating body 20 is a thin sheet-like member, and vibrates to emit sound. The vibrating body 20 is formed into a circular shape using a material having moderate elasticity such as metal or resin. Examples of the metal include phosphor bronze, stainless steel, magnesium, aluminum, titanium, beryllium, and alloys thereof. Examples of the resin include urethane, polypropylene, polyethylene, polystyrene, and polyamide.

  As an example, a circular opening 20a is formed in the vibrating body 20 at a position spaced from the center of the vibrating body 20 (that is, the circular center) to the left of the drawing. Thereby, the vibrating body 20 has a plurality of vibration modes (resonance frequencies). Details will be described later.

  The vibration device 30 is a device that applies vibration to the vibrating body 20. In the present embodiment, a piezoelectric element that converts voltage into force is employed as the vibration device 30. A piezoelectric element is comprised from ceramics, such as lead zirconate titanate (PZT), as an example. The vibration device 30 is formed in a disk shape having a slightly smaller diameter than the vibration body 20, and is attached to the vibration body 20 with one surface abutting against one surface (upper surface in the drawing).

  Note that the vibration device 30 has an opening 30a that is slightly larger than the opening 20a formed in the vibrating body 20, and forms one opening hole connected to the opening 20a.

  The speaker unit 1 functions according to a drive signal from the control unit 40. The control unit 40 processes an input signal (here, a digital signal) to generate a drive signal, and sends the drive signal to the vibration device 30. Thus, the speaker unit 1 is controlled. In this embodiment, the control part 40 is comprised using a microcomputer as an example, and expresses the function by making this execute a function program.

  FIG. 2 shows a functional configuration of the control unit 40. The control unit 40 includes a processing unit 42, a DA converter 44, and an amplifier 46. The processing unit 42 receives an input signal, an equalizer that corrects the sound quality by frequency-modulating the audio signal, a compressor that compresses the difference between maximum and minimum volume (ie, dynamics), ΔΣ modulation that shapes quantization noise, and amplitude Modulation processing such as modulation (AM modulation) and frequency modulation (FM modulation) is performed. The modulated input signal is sent to the DA converter 44. The DA converter 44 converts a signal (digital signal) received from the processing unit 42 into an analog signal. The signal converted into the analog signal is sent to the amplifier 46. The amplifier 46 amplifies the signal (analog signal) received from the DA converter 44. The amplified input signal is sent to the vibration device 30 as a drive signal.

  The vibration device 30 is driven in response to a drive signal from the control unit 40 (the amplifier 46 included therein), and applies vibration to the vibrating body 20.

  The vibration mode and frequency characteristics of the vibrating body 20 will be described.

  For comparison, FIGS. 3A and 3B show vibration modes and frequency characteristics in a conventional speaker unit 1 in which the vibrating body 20 does not have the opening 20a, respectively. However, the vibration mode indicates a mode for the reference line L shown in FIG.

  Since the vibrating body 20 has nodes at the edges fixed to the frame 10 at least, the vibration mode has a half wavelength m1 equal to the width of the vibrating body 20 with respect to the reference line L. Also, the frequency m2, which is twice the frequency m1, the frequency m3, which is three times the frequency m2,. . . Resonates at an odd multiple of m1 and anti-resonates at an even multiple. FIG. 3A shows m1, m2, and m3 as an example. In the frequency characteristics shown in FIG. 3B, resonances exhibiting the maximum sound pressure appear at m1 and m3, and appear as antiresonances exhibiting the minimum sound pressure at m2. Therefore, the vibrating body 20 that does not have the opening 20a has a characteristic that the sound pressure greatly fluctuates with respect to the frequency, and the sound quality is inferior.

  FIGS. 1C and 1D respectively show vibration modes and frequency characteristics in the speaker unit 1 of the present embodiment.

  1 has a half wavelength m1 equal to the width of the vibrating body 20 with respect to the reference line L, resonates at a frequency that is an odd multiple of m1, and anti-resonates at a frequency that is an even multiple. Further, since the vibrating body 20 has the opening 20a, a portion of the vibrating body 20 on the right side of the opening 20a in the drawing has a node between at least an edge fixed to the frame and an edge of the opening 20a. It has a half-wavelength m1a equal to the width of the portion, resonates at an odd-numbered frequency of m1a, and anti-resonates at an even-numbered frequency. Similarly, a portion of the vibrating body 20 on the left side of the opening 20a in the drawing has a node at least at an edge portion fixed to the frame and an edge portion of the opening 20a. It resonates at an odd multiple of m1b and anti-resonates at an even multiple.

  FIG. 1C shows m1, m2, m1a, m2a, m1b, and m2b as an example. In this way, in addition to the vibration modes m1 and m2, the fine vibration modes m1a, m2a, m1b, and m2b are generated. As shown in FIG. It has a gentle characteristic as a whole and excellent sound quality. Actually, a vibration mode is generated not only in the diameter direction of the vibrating body 20 passing through the opening 20a shown in FIG. 1C, but also between the opening 20a and the entire periphery of the vibrating body 20, and the frequency characteristic is This is considered to be more gradual than in FIG.

  It is desirable that the opening 20 a be provided at a position other than the center of the circular shape of the vibrating body 20, that is, the center of the portion supported by the frame 10. By providing the opening 20a at a position away from the center, vibration modes with different frequencies are generated in the right part and the left part of the vibrating body 20 as described above, so that the frequency characteristics change more finely. Overall.

  Moreover, it is good also as providing not only one opening 20a but multiple. As a result, a finer vibration mode is generated, and the frequency characteristics become more gradual.

  As described in detail above, the speaker unit 1 of the present embodiment includes the vibrating body 20 having at least one opening 20a, the vibrating device 30 that abuts against the vibrating body 20 and applies vibrations, and the frame that supports the vibrating body 20 10 is comprised. Since the vibrating body 20 that is supported by the frame 10 and vibrates by being vibrated by the vibration device 30 has at least one opening 20a, a fine vibration mode is generated with respect to the vibrating body 20 that does not have an opening. The characteristic becomes gentle. In other words, the frequency characteristics are improved with less structure, and the sound quality is improved.

  In FIG. 4, an example of the opening pattern of the vibrating body 20 in the speaker unit 1 which concerns on a modification is shown. The vibrating body 20 has a circular region surrounded by a portion supported by the frame 10 in a top view, and the circular region is partitioned into a plurality of regions at equal angles in the circumferential direction. Here, as an example, it is divided into three regions 301, 302, and 303. In each of these regions, one opening 20a1, 20a2, 20a3 is formed at a position where the distance from the center of the vibrating body 20 is different. Each of the openings 20a1, 20a2, and 20a3 has an arc shape of about 120 degrees, the opening 20a1 is farthest from the center of the vibrating body 20, and the opening 20a3 is closest to the center of the vibrating body 20. Thereby, a plurality of basic vibration modes are efficiently generated, and the frequency characteristics are more gradual.

  In the speaker unit 1 according to the present embodiment, the vibrating body 20 is formed in a circular shape, but the shape is not limited to a circular shape, and an arbitrary shape such as a rectangular shape or an elliptical shape may be adopted. The shape, size, and number of the openings 20a may be any shape, size, and number so that a desired frequency characteristic can be obtained.

  In the speaker unit 1 according to the present embodiment, a piezoelectric element that converts voltage into force is employed as the vibration device 30. Instead of this, for example, a permanent magnet that applies vibration to the vibrating body by electromagnetic force and a voice coil are used. An element to be used may be adopted.

  The speaker unit 1 of the present embodiment is suitable as a speaker unit in a particularly small terminal such as a mobile phone, a smartphone, a laptop computer, a tablet computer, a personal digital assistant (PDA), a game console, a digital camera, or the like.

  The speaker unit of the present invention realizes high sound quality due to gentle frequency characteristics. It can be used in many audio devices, particularly earphones.

DESCRIPTION OF SYMBOLS 1 Speaker unit 10 Frame 20 Vibrating body 20a Opening 30 Vibrating device 30a Opening 40 Control part 42 Processing part 44 DA converter 46 Amplifier

Claims (4)

A vibrator having at least one opening;
A vibration device that abuts against the vibrating body and applies vibration;
A support member for supporting the vibrating body;
With
The vibration device is a piezoelectric element attached to the vibration body, and has an opening at a position where the vibration body is in contact with the opening . The speaker unit according to claim 1 , wherein the vibrating body has the opening at a position away from a center with respect to a portion supported by the support member. 2. The speaker unit according to claim 1 , wherein the vibrating body includes a plurality of the openings at positions separated from the portion supported by the support member at different distances. The vibrating body has a circular region surrounded by a portion supported by the support member, and the distance from the center to each of a plurality of regions divided at equal angles in the circumferential direction by the circular region. The speaker unit according to claim 3 , wherein the openings are provided at different positions.