JPH104597A - Stationary speaker system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain powerful low frequency sound and a stereoscopic sound field with presence by providing a sound guide made of a multiple cylinder in the inside of an enclosure and placing an elbow horn with a main speaker and a tweeter provided at its top. SOLUTION: An enclosure 1 is a pipe formed of rigid polyvinylchloride and an opening 12 is provided to a lower end. A lower end of a lower cylinder formed from the pipe 2 is fixed to a bottom plate 4 and an upper end is fixed by a bolt 6. An upper cylinder 3 is formed from a pipe and its lower end is fixed to the bottom plate 4 and its upper end is fixed by an upper partition plate 5. A rectangular hole 13 is provided on a same circumference in the vicinity of the lower end of the upper cylinder 3 as a guide path of a sound wave. A sound absorbing material 9 is clad to both the upper and lower faces of the upper partition plate 5 and the bottom plate 4. A main speaker unit 21 is placed on the tip of the enclosure 1 and an elbow horn 7 with a tweeter unit 22 set thereon is placed. Thus, powerful low frequency sound and stereoscopic sound field with presence are obtained with a simple structure.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stationary high sound quality speaker system.

[0002]

2. Description of the Related Art In a direct-radiation cone-shaped speaker, when a diaphragm vibrates and emits sound waves, sound waves having opposite phases are radiated on the front and back sides of the diaphragm, and both cancel each other around the diaphragm. The sound output is weakened. It is known that the degree of such cancellation depends on the frequency and is remarkable at a low frequency, so that when the speaker unit is sounded in a bare state without an enclosure, the bass is hardly generated. Therefore, speaker systems in which speaker units are attached to various types of enclosures to prevent the above-described cancellation and obtain a balanced and rich bass have been developed, and are commercially available as high-quality speaker systems.

As an enclosure, for example, a closed type,
Various proposals have been made such as a bass reflex type, a drone cone type, a reflection type, a backloaded horn type, and an acoustic maze type.
What is common to these enclosures is that the enclosure is box-shaped, and one or a plurality of speaker units are attached to the front baffle with holes to form one system.

Among the various enclosures described above, a bass reflex type widely used has a simple structure, but is a method of enhancing only a specific frequency by using resonance at a port. There are inadequate aspects. On the other hand, the backloaded horn type and the sound maze type enhance the bass range over a fairly wide range, so the amount of bass obtained is rich and suitable for constructing a highly efficient high sound quality speaker system. Have been.

[0005] However, the backloaded horn type enclosure uses a horn to enlarge the sound path of the sound wave radiated from the back, and if the cut-off frequency is to be reduced for bass reproduction, the horn opening size is reduced. Become larger and inevitably become larger. In general, a complicated structure in which a sound path is zigzag bent using a shielding plate is employed for the purpose of preventing resonance, so that there is a disadvantage that mass production is difficult, and therefore, there is a disadvantage that it is expensive, and there are very few commercially available products.

On the other hand, the acoustic maze type is one in which sound waves radiated from the back of the speaker unit are emitted to the outside via a winding maze having a total length of 1.5 to 4 m. This cuts off the middle and high frequency sounds, shifts the phase of the low frequency sound, prevents the sound waves emitted from the front from canceling each other, and enables rich low frequency reproduction. Although the above acoustic maze type requires a relatively small installation area, it is similar to the backloaded horn type in that a complicated structure in which the sound path is bent zigzag using a shielding plate is usually adopted. However, there is a disadvantage that the cost is high, and thus the cost is high.

[0007] By the way, the sound that enters the listener's ear is divided into a direct sound radiated from the speaker unit and directly reaching the ear, and an indirect sound arriving after being reflected on a wall or a floor. A human can know the position of a sound source by a direct sound, and can sense a sense of presence or warmth by an indirect sound. Speaker systems usually used in homes tend to have a higher proportion of direct sound because the speaker units are arranged in a plane toward the front,
Realism is impaired. To solve such a problem, B
OSE has announced a reflective system, but has the drawback of using a plurality of speaker units, which inevitably results in a large and expensive system.

[0008]

SUMMARY OF THE INVENTION It is a first object of the present invention to provide a compact, relatively simple structure and mass-producing method while maintaining the above-mentioned sound quality advantages of the backloaded horn type and the acoustic maze type. An object of the present invention is to provide an inexpensive high-quality speaker system having excellent characteristics.

A second object of the present invention is to provide a speaker system capable of forming a realistic three-dimensional sound field by actively taking in not only direct sound but also indirect sound by a simple method. It is to be.

[0010]

The stationary speaker system according to the present invention comprises the following items. (1) A main speaker unit is installed upward on the top of an enclosure, and an elbow-shaped horn having a plurality of through holes formed in a wall is disposed on the speaker unit, and a multiple cylindrical body is provided inside the enclosure. A stationary speaker system characterized by incorporating a sound path having a length of 1.5 m or more and 4 m or less formed by the above-mentioned method.

(2) An upper cylinder composed of n (n = 1 to 4) sound paths and a lower cylinder composed of n or n-1 cylinders are engaged with each other. The stationary speaker system according to (1), wherein the stationary speaker system is formed by a multi-tubular body formed.

(3) The opening area of the elbow horn is set to 1
The stationary speaker system according to (1), wherein the sum of the opening areas of the through holes is a ratio of 5 to 100 as 00.

(4) The stationary speaker system according to (1), wherein a high-pitched speaker unit is installed inside the elbow horn.

(5) A stationary speaker system characterized in that a sound path having a length of 1.5 m or more and 4 m or less formed by a multiple cylindrical body is incorporated in the enclosure.

(6) An upper cylinder composed of n (n = 1 to 4) sound paths and a lower cylinder composed of n or n-1 cylinders are engaged with each other. The stationary speaker system according to (5), wherein the stationary speaker system is formed by the formed multiple cylindrical body.

(7) The stationary speaker system according to (5), wherein the enclosure comprises an external cylinder and an elbow attached to the top of the cylinder, and a main speaker unit is installed facing forward at the tip of the elbow. .

(8) The stationary speaker characterized in that the main speaker unit is installed upward on the top of the enclosure, and an elbow horn having a plurality of through holes formed in the wall is arranged on the speaker unit. Shaped speaker system.

(9) The opening surface area of the elbow horn is 1
The stationary speaker system according to (8), wherein the sum of the opening areas of the through holes is a ratio of 5 to 100 as 00.

(10) The stationary speaker system according to (8), wherein a loudspeaker unit is installed inside the elbow horn.

Hereinafter, the present invention will be described in detail.
1 to 6 show specific examples of the present invention. The present invention includes two new technical elements. That is, the first aspect relates to a method for processing a sound wave radiated from the front surface of the diaphragm, and the second relates to a method for processing a sound wave radiated from the rear surface of the diaphragm. FIGS. 1 and 6 include both of the above two technical elements, and FIGS. 2, 3, 4 and 5 show a combination of any one of them and the prior art.

The enclosure 1 is a part forming the main outer shape of the speaker system, and is defined as an outer box or cabinet that covers the back of the main speaker unit. The cross-sectional shape of the enclosure is not particularly limited, and a circle, an ellipse, a triangle, a polygon having five or more pentagons or the like as well as a normal square may be employed. The material of the enclosure and the elbow-shaped horn and the cylindrical body described later are not particularly limited, and are not limited to commonly used wood, but also various plastics, metal fibers, glass fibers, carbon fibers, Kevlar (trade names of DuPont products), and the like. Composite materials combining various liquid crystal fibers and various resins, composite materials composed of wood chips and resins, composite materials composed of plastics and various inorganic powders, metal powders and organic powders such as wood powder, and plastics and rubber or different types A polymer alloy made of plastic or the like can be used.

In the present invention, the main speaker unit refers to a full-range (full-range) speaker unit or a bass (woofer) speaker unit, and is usually a one-way speaker system using these main speaker units alone, or a main speaker unit. A two-way loudspeaker system in which a treble (tweeter) speaker unit is combined with the unit is adopted.

The elbow horn is a horn mounted on the main speaker unit. Its shape is 60 to 12 with respect to the center axis of the diaphragm of the main speaker unit.
A horn having an opening surface perpendicular to a direction forming an angle of 0 degrees or forming an angle of 60 to 120 degrees, and when viewed from the central axis direction of the diaphragm, 80% or more of the diaphragm area cannot be seen. It is defined as a horn having a size. The opening surface is a surface formed by the end of the opening wall surface.
It is desirable that the opening surface has an area at least equal to or larger than the diaphragm area of the main speaker unit. Explaining specifically with reference to the drawings, FIGS. 1, 5, and 6 in FIG. 6 are all examples of the elbow horn of the present invention, and the sectional shape and the like are not particularly limited.

A plurality of through holes are formed in the wall forming the elbow-shaped horn, and a part of the sound wave radiated from the front surface of the main speaker unit passes through the through holes, and
It goes to the back, left and right, etc., reflects off walls and reaches the listener's ear as indirect sound. On the other hand, the remaining part of the emitted sound wave reaches the listener's ear as sound directly through the opening surface. The number, shape, position, and size of the through holes are not limited, but the sum of the areas of the through holes is preferably 5 to 100 with the area of the opening surface of the elbow horn being 100. If it is less than 5, the ratio of the indirect sound to the direct sound is small, and the sense of presence is impaired. Also, 1
If it exceeds 00, the localization of the sound image may be deteriorated.

The elbow 7 shown in FIGS. 2, 3 and 4 is a part of the enclosure and has an opening surface perpendicular to a direction at an angle of 90 degrees with respect to a central axis of a multiple cylinder described later. It is defined as a portion where the main speaker unit is attached to the opening surface. Similarly, the outer cylinder 1 is also a cylinder that is integral with the elbow 7 and forms a part of the enclosure.

Next, the multiple cylinder used in the present invention will be described. The tubular body is a tubular / pipe or duct-shaped hollow body having a straight central axis. Its cross-sectional shape is not limited, and may be circular, elliptical, triangular, square,
It may be any shape such as a polygon having more than a square. The length of the cylinder in the axial direction (hereinafter, simply referred to as the length) is not limited, but usually refers to a length that is equal to or greater than the maximum outer diameter of the cross section.

[0027] A multiple cylinder is a cylinder having a large diameter.
Refers to a small-diameter cylinder inserted. The positions of the central axes of the respective cylinders may be the same or different. Further, the cross-sectional shapes of the respective cylinders may be similar to each other or different from each other.

The upper cylinder refers to a group of cylinders attached to the upper partition plate 5 in close contact. For example, the cylindrical body 3 of FIGS. 1, 2 and 6, and the cylindrical bodies 3 and 3A of FIGS. 3 and 4,
The sound wave descends along its inner surface, changes its direction near the bottom plate 4, and rises along the outer surface. A sound wave path is formed between the vicinity of the lower end of the upper cylindrical body and the bottom plate 4. The number of upper cylinders is n (n = 1 to 4). Here, the enclosure is not included in the number n of the cylindrical bodies. When n is 5 or more, the structure is too complicated, and mass productivity is impaired.

The lower cylinder refers to a group of cylinders attached to the bottom plate 4 in close contact. For example, the cylindrical body 2 in FIGS. 1, 2 and 6, the cylindrical body 2 in FIG. 3, the cylindrical body 2A, and the cylindrical body 2 in FIG. The sound waves change direction and descend along the outer surface. A sound wave path is formed between the vicinity of the upper end of the lower cylinder and the upper partition plate 5. The number of lower cylinders is n or n-1. FIGS. 1, 2, 3 and 6 show n cases, in which an opening 12 which is a sound wave outlet is provided near the lower end of the enclosure. FIG. 4 shows the case of n-1 lines, and an opening 12 which is an outlet for sound waves is provided near the upper end of the enclosure. When n = 1, the lower cylinder may not exist, but such a case is also included in the present invention. The position of the opening 12 may be at the rear of the enclosure as shown in FIGS. 1 to 4 or at the front.

The upper cylinder and the lower cylinder are alternately meshed with each other to form a multiple cylinder, which is housed in an enclosure to form a folded sound path. The length of the sound path is defined as the length from the magnet rear end of the main speaker unit to the center of the opening 12 provided in the enclosure wall via the center of the sound path. While the sound wave radiated from the back of the main speaker unit passes through the sound path, the middle and high frequency components are attenuated, and the low frequency components are emitted to the outside through the opening 12. The length of the sound path is 1.5 m or more and 4 m or less. If the length of the sound path is less than 1.5 m, high sound quality cannot be obtained because the volume of the low sound range is insufficient. If the length of the sound path exceeds 4 m, the time delay until the sound wave reaches the listening position cannot be ignored, and the sound quality deteriorates.

[0031]

Next, the speaker system of the present invention will be specifically described with reference to the drawings. FIG. 1 is a longitudinal sectional view showing a schematic configuration of an example of the present invention. In FIG. 1, the enclosure 1 has a circular cross section,
It is obtained by cutting a JIS standard pipe (VP150) made of hard polyvinyl chloride with an inner diameter of 150 mm into a length of 850 mm. The enclosure, elbow-shaped horn, cylindrical body and blind cap used in the specific examples shown in FIG. 1 and FIG. 2 described later are all machined by cutting, grinding, drilling, etc. into rigid polyvinyl chloride JIS standard products. It was produced by applying

The lower cylinder 2 has an inner diameter of 100 mm (VP10
0), a 670 mm long pipe with a bottom plate 4
(A blind cap made of JIS standard hard polyvinyl chloride) and fixed by a blind cap, and the upper end is fixed by a bolt 6. In the specific example shown in FIG. 1 and FIG. 2 described later, an epoxy elastic adhesive is used as the adhesive.

The upper cylinder 3 has an inner diameter of 50 mm (VP50),
The pipe is a pipe having a length of 730 mm. The lower end is fixed by an adhesive blind cap, and the upper end is fixed by an upper partition plate 5. In the vicinity of the lower end portion of the upper cylindrical body 3, four rectangular holes having a length of 80 mm and a width of 20 mm are provided on the same circumference to form a sound wave passage.

The central axes of the enclosure, upper and lower cylinders are the same.

A sound absorbing material 9 is attached to both the upper and lower surfaces of the upper partition plate 5 and the upper surface of the bottom plate 4 in order to prevent reflection of sound waves.

The main speaker unit 21 is a 16 cm full-range type (Technics EA, manufactured by Matsushita Electric Industrial Co., Ltd.).
S-16F20), a part of the frame is cut off to have a maximum outer diameter of 163 mm, and the frame is placed upward on the top of the enclosure 1 and fixed with an adhesive.

An opening 12 serving as a sound wave outlet is provided at the rear of the enclosure 1 and near the lower end. Opening 1
Reference numeral 2 denotes a hole having a shape close to a circle having a diameter of 100 mm.

The length of the sound path formed by the above configuration is 2.0 m. The sound path has two 180 ° bends, and the cross section of the sound path is enlarged after each bend.

On the main speaker unit 21, an elbow horn 7 having a plurality of through holes 11 formed in a wall is arranged. The plurality of through holes 11 include seven circular holes having a diameter of 12 mm drilled at the lower end of the side wall of the curved tube portion, and 157 circular holes having a diameter of 6.5 mm drilled at substantially equal intervals over the entire surface of the curved tube portion. It consists of pieces. The sum of the opening areas of the through holes is 60 cm ² , and the area of the opening surface of the elbow horn 7 is 117 cm ² when the area occupied by the treble speaker unit 22 is 60 cm ² . Therefore, if the area of the opening surface of the elbow horn 7 is 100, the sum of the opening areas of the through holes is 51. A speaker grill 8 is fitted into the opening of the elbow horn 7.

On the inner side wall of the elbow-shaped horn 7, a treble speaker unit 22 (FT17, FT17)
H) is fixed by an aluminum stopper.

The treble speaker unit 22 has a size of 1.0 μm.
No coils, attenuators, and capacitors are used except for coupling to a network (not shown) incorporated in the speaker system via the F capacitor. Therefore, sound quality deterioration due to the network is small.

Next, FIGS. 2 to 6 will be described. In FIGS. 1 to 6, the directions in which sound waves are emitted are indicated by arrows. FIG. 2 is a longitudinal sectional view showing a schematic configuration of an example of the present invention. 1 and 2 have substantially the same overall outer shape. In the case of FIG. 2, the enclosure is constituted by a straight tubular outer cylinder 1 and an elbow 7. The main speaker unit is a 16 cm full-range type (FE168 # manufactured by Fostex), which is installed at the tip of the elbow 7 facing forward. The same multiple tubular body as in FIG. 1 is incorporated in the straight tubular outer tubular body 1, and a sound path having substantially the same length is formed.

FIGS. 3 to 6 are schematic vertical sectional views, and details are omitted.

FIGS. 3 and 4 show examples of a box-shaped speaker system having a sound path formed by a multi-tubular body.
As described above, FIG. 3 shows the case where the number of the lower cylinders is n, and FIG. 4 shows the case where the number of the lower cylinders is n-1. However, the other points are the same. In other words, the main speaker unit 21 is attached to a hole formed in the baffle surface in a forward direction, which is the same as that of the related art. It differs from the prior art in that the formed sound path of 1.5 m or more and 4 m or less is incorporated. By incorporating the above-mentioned sound path, a rich bass sound is obtained, and the structure of the speaker system is relatively simple, so that mass production is excellent.

In the examples shown in FIGS. 3 and 4, if necessary, a two-way system can be provided by attaching a treble speaker unit (not shown) to the baffle surface.

In the example of FIG. 5, the enclosure 1
Is similar to a normal bass reflex type in that it has a port 14 and has a port 14, but a main speaker unit 21 is installed facing upward, and a plurality of through holes 11 are formed in the wall above the speaker unit. This is different from a normal bass-reflex type in that an elbow-shaped horn 7 with a hole is arranged. By such a simple method, there is provided a speaker system capable of forming a realistic three-dimensional sound field by actively incorporating not only direct sound but also indirect sound.

FIG. 6 has the same basic structure as that of FIG. 1 as described above, except that the cross-sectional shape of the enclosure 1 is rectangular, and the main speaker unit 21 is supported by the horizontal baffle 15. It differs from FIG. If necessary in FIGS. 5 and 6, a two-way system can be provided by mounting the treble speaker unit 22 in an elbow horn as shown.

[0048]

The stationary speaker system of the present invention is excellent in the following points. 1) A rich enclosure can be obtained with a small enclosure. 2) A realistic three-dimensional sound field can be formed by a simple method. 3) Compared with the conventional backloaded horn type or acoustic maze type, the structure is simple, excellent in mass productivity, and inexpensive.

[Brief description of the drawings]

FIG. 1 is a schematic vertical sectional view showing an example of a stationary speaker system according to the present invention.

FIG. 2 is a schematic vertical sectional view showing an example of a stationary speaker system of the present invention.

FIG. 3 is a schematic vertical sectional view showing an example of a stationary speaker system of the present invention.

FIG. 4 is a schematic longitudinal sectional view showing an example of a stationary speaker system of the present invention.

FIG. 5 is a schematic longitudinal sectional view showing an example of a stationary speaker system of the present invention.

FIG. 6 is a schematic vertical sectional view showing an example of the stationary speaker system of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Enclosure (external cylinder) 2 Lower cylinder 2A Lower cylinder 3 Upper cylinder 3A Upper cylinder 4 Bottom plate 5 Upper partition plate 6 Bolt 7 Elbow horn (Elbow) 8 Speaker grill 9 Sound absorbing material 11 Through hole 12 Sound path 13 Opening near lower end of upper cylinder 14 Port 15 Horizontal baffle 21 Main speaker unit 22 Speaker unit for treble

Claims (10)

[Claims] A main speaker unit is installed upward on the top of an enclosure, and an elbow horn having a plurality of through holes formed in a wall is arranged on the speaker unit, and multiplexed inside the enclosure. A stationary speaker system, wherein a sound path having a length of 1.5 m or more and 4 m or less formed by a cylindrical body is incorporated. 2. A sound path is formed by engaging an upper cylinder composed of n (n = 1 to 4) cylinders and a lower cylinder composed of n or n-1 cylinders. 2. The stationary speaker system according to claim 1, wherein the stationary speaker system is formed by a multi-tubular body. 3. The stationary speaker system according to claim 1, wherein the sum of the opening areas of the through holes is 5 to 100, where 100 is the opening area of the elbow horn. 4. The stationary speaker system according to claim 1, wherein a treble speaker unit is installed inside the elbow horn. 5. A stationary speaker system characterized in that a sound path having a length of 1.5 m or more and 4 m or less formed by a multi-tubular body is incorporated in an enclosure. 6. A sound path is formed by engaging an upper cylinder composed of n (n = 1 to 4) cylinders with a lower cylinder composed of n or n-1 cylinders. 6. The stationary speaker system according to claim 5, wherein the stationary speaker system is formed by a multi-tubular body. 7. The stationary speaker system according to claim 5, wherein the enclosure comprises an outer cylindrical body and an elbow attached to a top of the cylindrical body, and a main speaker unit is installed facing forward at an end of the elbow. 8. A stationary type wherein a main speaker unit is installed upward on the top of an enclosure, and an elbow horn having a plurality of through holes formed in a wall is arranged on the speaker unit. Speaker system. 9. The stationary speaker system according to claim 8, wherein the sum of the opening areas of the through holes is 5 to 100, where 100 is the opening surface area of the elbow horn. 10. The stationary speaker system according to claim 8, wherein a treble speaker unit is installed inside the elbow horn.