JPH01233997A - Nondirectional speaker device - Google Patents

Abstract

PURPOSE:To reproduce a rich low frequency sound with small size by fitting a speaker unit and a passive radiator of a convex cone to a continuous cabinet while being opposed to each other in a nondirective speaker device. CONSTITUTION:A sound wave from the front face of a speaker unit 20 is radiated partly to an external space directly. Then the intermediate and high frequency sound wave is reflected in a convex diaphragm 31 of a passive radiator 30 and radiated nearly uniformly in nearly horizontal direction. At low sound frequency sound rang, at the rear sound of the speaker unit 20 is propagated from the lower side cabinet 11 to the upper side cabinet 12 through a communicating tube 13. Then the total volume of the cabinets 11, 12 of the speaker unit 20 is used for the passive radiator. Thus, the uniform reproducing range of a low frequency sound is expanded toward a frequency considerably lower than the lower resonance frequency f0 of the speaker 20 and an excellent low frequency sound is obtained.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to an omnidirectional speaker device.

[Essentials of invention]

The present invention provides an omnidirectional speaker device in which a speaker unit with a convex cone and a passive radiator are mounted in a cabinet that faces each other and communicates with each other. It can be used as
In the bass range, the speaker unit and the convex cone of the passive radiator can be used as reflectors, making it possible to reproduce rich bass sounds despite the small size.

[Conventional technology]

Generally, the directivity of sound reproduced by a speaker is wide in the low frequency region, and becomes narrower as the frequency becomes higher. For this reason, the more the listening position shifts from the front of the speaker, the lower the level of the high frequency range becomes, and the quality of the reproduced sound deteriorates.

Conventionally, to solve this problem, as shown in Fig. 2, a treble speaker (7) is installed on the upper surface of a cabinet L-(1) with a bass speaker (7) mounted on the front.
2) and a reflective cone (4) with an apex angle perpendicular to the cross section.
) is made to face the speaker (2), making it omnidirectional in the horizontal plane (for example,
(Refer to Publication No.-2304).

Although not shown in the drawings, a small omnidirectional speaker device in which a single full-range speaker unit and a conical reflector are opposed to each other is also known.

[Problem to be solved by the invention]

However, in a small omnidirectional speaker device, there is a problem in that the cabinet y is limited to a negative value, which is disadvantageous for bass reproduction.

Generally, the low-frequency resonance frequency [0 of a speaker increases in inverse proportion to the aperture, so the smaller the speaker is, the higher the bass reproduction limit becomes. Furthermore, the miniaturization of cabinets also acts in a direction that promotes this.

In order to lower the RO of a speaker, it is effective to minimize the stiffness of the edges and dampers, that is, to increase the compliance, but hyphen-brance speakers have the problem of being expensive.

On the other hand, in order to extend the old low range by lowering the limit frequency r while keeping the internal volume of the cabinet constant,
It is widely practiced to use a phase inversion type (bass reflex type) as the cap.

As is well known, a bass reflex type cabinet gives the sound waves emitted behind the speaker diaphragm an appropriate phase change so that they are emitted in phase with the sound waves emitted from the front of the speaker. It is. The change in phase can be achieved by providing an acoustic tube (port) on the speaker mounting surface. It is given by the tf-value radiation and the stiffness exhibited by the air inside the cabinet. In this case, the Q of the vibration system of the speaker is preferably about 0.5.

Also known as a modification of this bass reflex type is one in which the boat is shortened to the extreme, and a cone without a magnetic circuit called a drone cone or passive radiator is attached to an opening with approximately the same area as the speaker.

In either case of this passive radiator or bass reflex type, the -like reproduction range is set to the fo of the speaker unit.
can be expanded to about 80%. Also, bass re/
Under the condition that the i range is constant, the volume of the cabinet is only about 60% of that of a closed type.

However, when trying to use the passive radiator method in a small omnidirectional speaker device, if the height of the cabinet is small, a passive radiator must be installed on the bottom of the cabinet, but in this case, the reproduction source is placed on the floor or on the mounting stand. The problem arises that it is easy to be influenced.

In view of this, an object of the present invention is to provide a compact and inexpensive omnidirectional speaker device that can produce rich bass sounds.

[Means to solve the problem]

The present invention provides a convex conical diaphragm (21) and a conical diaphragm (21), respectively.
A subica unit I-(20) and a passive radiator (30) having a sub-board (31) are attached to the first and second cabinets (11) and (12), respectively, and are arranged to face each other. 13) is provided to communicate the first and second cabinets.

[Effect]

According to this configuration, the convex passive radiator acts as a reflector in the mid-to-treble range, and the convex speaker cone and passive radiator mutually act as reflectors in the bass range, making the reproduced sound omnidirectional and compact. However, rich bass is reproduced.

(Embodiment) Hereinafter, an embodiment of the omnidirectional speaker device according to the present invention will be described with reference to FIG.

FIG. 1 shows the configuration of an embodiment of the present invention.

In FIG. 1, (11) and (12) are cabinets with the same shape in horizontal cross section, and whose volume ratio is, for example, 3.
:1, and the upper plate (l) of the lower cabinet 1-(11)
lu) and the lower plate (12) of the upper cabinet (12).
#) and are supported by a plurality of communication pipes (13) that respectively pass through the pipes and face each other at a predetermined interval. This communication tube (13) is made of ABS resin, for example, and has an inner diameter of 2.5 cm.

Cabinet 7) (11) above & (llu), for example 12
Full range speaker unit with a diameter of cm 7h (20
) is attached facing upward. This speaker Uni-No+
- (20) is different from the usual one, with a convex conical diaphragm (
21) and a magnetic circuit section (22).

(30) is a passive radiator having the same diameter as the speaker unit, and its diaphragm (31) has a convex conical shape like the speaker unit (20).

The passive radiator (30) is mounted below the cabinet (12) so that the top (31a) of the diaphragm (31) closely faces the top (21a) of the diaphragm (21) of the speaker unit (20). (121).

Further, as the diaphragms (21) and (3I), materials having a high reflectivity for sound waves, such as mica epoxy cone, carbon fiber cone, or aluminum, are used.

As a result, a part of the sound waves from the front of the speaker unit (20) is directly radiated to the outside space over the entire sound range from the gap between the cabinets (11) and (12), and at the same time, in the mid-to-high range, the sound waves are radiated directly to the outside space. Radiator (30)
It is reflected by the convex diaphragm (31) and radiated almost uniformly in the horizontal direction.

This expands the vertical directivity of the middle 111 neck region.

In addition, in the low range, the main sound of the speaker unit (20) flows through the communication pipe (13) from the -G side cabinet head (11) to the upper cabinet (12), and is emitted from the speaker. The unit (20) can utilize the entire volume of the cabinets (11) and (12) as a passive radiator type.

The sound waves from the front of the speaker unit (20) and the passive radiator (30) are reflected by the convex conical diaphragms (31) and (21) on the other side, and are radiated in a nearly horizontal direction. .

As a result, the uniform reproduction range of bass sounds is extended to a frequency much lower than the low resonance frequency r.] of the speaker (20), and deep bass sounds are obtained.

Note that the sliding plates (21) and (31) of the speaker unisol (20) and the passive radiator (30) do not necessarily have to have a right-angled cross section. It is also possible to change the vertical directivity of the radiated sound by appropriately curving the cross section.

[Effects of the Invention] As described in detail above, according to the present invention, the convex cone speaker unit and the passive radiator are mounted in a communicating cabinet so as to face each other. In this case, the convex cone of the passive radiator can be used as a reflector, and
In the bass region, the speaker unit and the convex cone of the passive radiator can be used as reflectors, resulting in an inexpensive omnidirectional speaker device that is small but can reproduce rich bass sounds.

[Brief explanation of the drawing]

FIG. 1 is a vertical sectional view showing the configuration of an embodiment of an omnidirectional speaker device according to the present invention, and FIG. 2 is a vertical sectional view showing an example of the configuration of a conventional omnidirectional speaker device. (11) and (12) are cabinet parts, (13) is a communication pipe, (20) is a speaker unit, (30) is a pansy radiator, and (21) and (31) are diaphragms. Anmori Matsukuma, figure 1, and figure 2, attached to the glaze.

Claims (1)

[Scope of Claims] A speaker unit and a passive radiator each having a convex conical diaphragm are respectively attached to the first and second cabinets and arranged to face each other, and a communication pipe is provided. An omnidirectional speaker device characterized in that the first and second cabinets are communicated with each other.