WO2020196900A1 - 音響障害防止等装置 - Google Patents
音響障害防止等装置 Download PDFInfo
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- WO2020196900A1 WO2020196900A1 PCT/JP2020/014393 JP2020014393W WO2020196900A1 WO 2020196900 A1 WO2020196900 A1 WO 2020196900A1 JP 2020014393 W JP2020014393 W JP 2020014393W WO 2020196900 A1 WO2020196900 A1 WO 2020196900A1
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- frame
- diffuser
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Classifications
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10K—SOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
- G10K11/00—Methods or devices for transmitting, conducting or directing sound in general; Methods or devices for protecting against, or for damping, noise or other acoustic waves in general
- G10K11/18—Methods or devices for transmitting, conducting or directing sound
- G10K11/20—Reflecting arrangements
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/99—Room acoustics, i.e. forms of, or arrangements in, rooms for influencing or directing sound
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/74—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
- E04B1/82—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to sound only
- E04B1/84—Sound-absorbing elements
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10K—SOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
- G10K11/00—Methods or devices for transmitting, conducting or directing sound in general; Methods or devices for protecting against, or for damping, noise or other acoustic waves in general
- G10K11/16—Methods or devices for protecting against, or for damping, noise or other acoustic waves in general
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10K—SOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
- G10K15/00—Acoustics not otherwise provided for
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10K—SOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
- G10K2210/00—Details of active noise control [ANC] covered by G10K11/178 but not provided for in any of its subgroups
- G10K2210/10—Applications
- G10K2210/12—Rooms, e.g. ANC inside a room, office, concert hall or automobile cabin
Definitions
- the present invention relates to a device for preventing acoustic disturbances, etc. for preventing acoustic disturbances or improving sound quality (hereinafter referred to as "acoustic disturbance prevention, etc.”). More specifically, the present invention relates to an acoustic obstacle prevention device including an acoustic diffuser arranged in a space or the like.
- acoustic obstacles such as flutter echo, long pass echo, and acoustic concentration.
- the sound quality may be improved according to the music genre and the taste of the musician.
- various acoustic diffusers such as the acoustic diffuser described in Patent Document 1 have been proposed as a method for individually adjusting the prevention of multiple reflections and the diffusion of sound. There is.
- the sound absorption and reflection directions are individually adjusted at the site by providing a rotating portion so that the angle of the panel can be changed.
- an object of the present invention is to provide a device for preventing acoustic disturbances, etc., which can prevent acoustic disturbances or improve sound quality simply by installing the device in a space.
- the feature of the device for preventing acoustic disturbances according to the present invention is that a plurality of units for acoustic diffusion, which are substantially similar figures or congruent to each other, are arranged close to each other in different directions. Are provided with an acoustic diffuser joined to each other and / or joined via a connecting body, and an installation portion for installing the acoustic diffuser in the facility is provided.
- a plurality of units U (n) and U (n-1) for sound diffusion are arranged close to each other, and they are oriented differently from each other. .. Then, since these units are joined to each other and / or joined via a connecting body to form an acoustic diffuser, the acoustic diffuser is such that the units are efficiently densely packed and have many surfaces having different orientations. It becomes.
- This acoustic diffuser is installed in the facility via the installation section. Therefore, for example, as shown in FIG. 1, even if the device O for preventing acoustic disturbance is installed in a part of the space, the sound is scattered and reflected to the surroundings, and the prevention of acoustic disturbance or the improvement of sound quality is efficiently performed. Will be heard.
- a first frame body surrounding one side of the acoustic diffuser may be provided as the installation portion.
- the units are joined to each other and / or joined via a connecting body to form an acoustic diffuser, so that they are structurally fragile, but according to the same configuration, acoustic diffusion Since the first frame body surrounding one side of the body is provided as the installation portion, it can be stably installed on a wall or the like.
- a second frame body that also surrounds one side of the other side of the acoustic diffuser is provided, and these first and second frame bodies can be connected to each other and hung on the wall on the frame body side of one of them. May be.
- the first frame is hung on a wall, for example, the second frame connected to the first frame also surrounds one side of the acoustic diffuser, so that the acoustic diffuser is protected from damage due to contact or the like.
- the center since the center is open, the effect of preventing acoustic damage is maintained. Further, by releasing the front surface and the back surface of both frames and the space between the frames, the sound hitting the acoustic diffuser is also dissipated from between the frames to the periphery.
- the frame body is provided with a third frame body surrounding the acoustic diffuser as the installation portion, and is placed on the equipment at the lower part of the third frame body, or the upper part of the third frame body. It may be configured so that it can be hung from the equipment. According to the same configuration, it is possible to obtain the effect of preventing acoustic damage from both sides of the third frame while protecting the acoustic diffuser with the third frame.
- the frame body when the frame body is provided, the frame body has a rectangular shape surrounding the acoustic diffuser, and the acoustic diffuser has a first unit group in which the units are arranged in a spiral shape around a reference axis, and the sound diffuser.
- the second unit group may be provided with a second unit group composed of units arranged around another reference axis different from the reference axis, and the second unit group may be arranged at a rectangular corner of the frame body.
- a plurality of devices for preventing acoustic disturbances are arranged adjacent to each other, the other reference axis is commonly used for the adjacent devices for preventing acoustic disturbances, and the second unit group moves the units around the other reference axes. It may be arranged in a spiral shape so as to be separately supported by adjacent devices for preventing acoustic damage.
- first and second unit groups may be composed of separate members from each other. If it is a different member, it can be made of a different resin.
- the frontmost frame of the frame is formed into two front and rear parts, and the front part may have a different color from the rear part, and the second frame that can be seen in front may be, for example, woody. ..
- the acoustic diffuser may be configured by providing an installation stand to be installed in the equipment as the installation portion instead of the frame body and arranging the unit on the peripheral portion and the upper portion of the installation base. According to the same configuration, since the unit is arranged on the peripheral portion and the upper portion of the installation table, if it is placed on the floor, it exerts an effect of preventing acoustic damage to the upper and lower sides of the room, and it is the same even if it is hung from the ceiling. You may stick out from the wall.
- the above-mentioned acoustic diffuser may be created by a 3D printer.
- each unit has facets on its surface, and the units are arranged so that their angles are n ⁇ (n is a natural number), and surround the space between these facets or the space. It is advisable to prevent acoustic interference by reflection between the bare surface and these facets.
- each unit is arranged so that the mutual angle is n ⁇ (n is a natural number). That is, the angle between each unit is defined by the angle n ⁇ , which is a natural number n times the angle ⁇ (called the “golden angle”) defined by the so-called golden ratio (1: ⁇ ). Due to the nature of the golden angle (golden ratio), the same angle does not appear even after repeated rotations. Therefore, when the device is installed in the space, the plurality of facets do not become parallel or equal, and it is possible to effectively prevent the occurrence of acoustic disorders such as flutter echo due to multiple reflections.
- the rotation of each unit that defines the angle between the units includes the revolution of each unit in the world coordinate system and / or the rotation of each unit in the local coordinate system that defines the posture of each unit. It's a waste.
- Each unit in each acoustic diffuser is repeatedly generated with displacement in the world coordinate system, and the distance L between each unit, or the reference axis of each unit and the world coordinate system or the origin of the world coordinate system.
- the distance L may be specified by the same magnification, an arbitrary magnification, or n ⁇ times (n is a natural number).
- Each unit in each of the acoustic diffusers may be enlarged at the same magnification, an arbitrary magnification, or n ⁇ times (n is a natural number).
- Each unit can be designed as a polyhedron or a curved surface.
- acoustic scattering progresses in multiple directions starting from each surface of each polyhedron.
- the units rotate relative to each other around a reference axis or an axis parallel to the reference axis, and the reference is such that the orientations of the element faces of the element planes forming the unit in the reference axis direction are different from each other. It may have units that are rotationally arranged at different angles with respect to the axis. According to the same configuration, for example, as shown in FIG. 12, the sound incident along the Yw axis, which is the reference axis, is relative to the reference axis Yw so that the directions of the element planes Ce in the reference axis direction are different from each other.
- the installation portion Since they are rotationally arranged at different angles from each other, they are scattered and reflected around the reference axis (for example, with components in the Xw and Zw directions) through the same element plane. Therefore, if the installation portion is oriented with the reference axis oriented toward the target sound source, the device for preventing acoustic damage can be efficiently arranged.
- the device for preventing acoustic disturbances According to the above-mentioned characteristics of the device for preventing acoustic disturbances according to the present invention, it has become possible to efficiently prevent acoustic disturbances only by installing the device in a part of the space.
- FIG. 5 It is a top view which shows another example of arrangement of the unit which constitutes an acoustic diffuser (there is no revolution in the world coordinate system, rotation is every ⁇ , linear movement L is ⁇ times, and the scale is the same).
- An example is shown in which the growth rules of FIG. 5 are applied to each growth center point in a state where a plurality of growth center points exist in a three-dimensional shape, and (a) is an icosahedron in which each vertex is a growth center point.
- (B) is a diagram showing an acoustic diffuser in which each vertex of (a) is a growth center point.
- FIG. 2 and the like and a normal room
- FIG. 2 and the like is a case of a room provided with an acoustic diffuser by the method of FIG. 2 and the like.
- This is a comparative example showing the difference in acoustic diffusion between a room provided with an acoustic diffuser by the method shown in FIG. 2 and the like, and is a case of a room provided with an acoustic diffuser by a normal method.
- It is a rear perspective view which shows the acoustic obstacle prevention apparatus which provided only the 1st frame body to an acoustic diffuser.
- FIG. 1 It is a perspective view of the 1st outer frame fitted in the front surface of the 1st frame body in the acoustic obstacle prevention apparatus which provided only the 1st frame body in an acoustic diffuser.
- a device for preventing acoustic obstacles, etc., in which the first and second frames are provided on the acoustic diffuser is shown, (a) is a front perspective view, and (b) is a rear perspective view.
- a device for preventing acoustic obstacles, which is provided with first and second frames in the acoustic diffuser and a second unit group including an arc-shaped unit, is shown, (a) is a front perspective view, and (b) is a rear perspective view. Is.
- FIG. 14 is a plan view of FIG. It is a front view of FIG. It is a right side view of FIG. It is a left side view of FIG. It is a bottom view of FIG. It is a rear view of FIG. It is a perspective view of FIG. It is a top view which showed the acoustic diffuser of FIG. 14 by a virtual line.
- FIG. 1 An example of combining the second frame as a separate member is shown, (a) is a commonly used second frame, (b) is a part having only the first unit group, and (c) is the first and second units. It is a perspective view which shows the part which provided both sides of a group. It is a perspective view which shows the device such as acoustic obstacle prevention provided in a radio booth and the like.
- a device for preventing acoustic obstacles in which a diffuser unit is arranged at the apex of the polyhedron is shown, (a) is a perspective view of a state where the diffuser unit is placed on the floor, and (b) is a bottom view.
- a device for preventing acoustic obstacles to be inserted into a hole such as a wall surface is shown, (a) is a front perspective view, and (b) is a rear perspective view.
- FIG. A device for preventing acoustic disturbances, etc., provided with a mounting portion on the back surface is shown, (a) is a front perspective view, and (b) is a rear perspective view.
- An example of arranging the second unit group is shown, and this is an example in which one spiral is divided and arranged at four corners.
- An example of arranging the second unit group is shown, and it is an example of dividing the spiral between adjacent devices such as acoustic obstacle prevention.
- An example of arranging the second unit group is shown, and a reference axis is provided at each corner to form a spiral, and a part of the spiral is used.
- An example of arranging the second unit group is shown, which is an example of displacing the reference axis of the spiral.
- the device for preventing acoustic damage of the present invention has, for example, a shape as shown in FIGS. 1, 2, 9, 10, 12 to 22, the design principle thereof is shown in FIGS. 3 to 8, and the effect is shown in FIG. ..
- a plurality of acoustic interference prevention devices O (O1 to O4) are attached to the pillar P.
- FIG. 2 is an enlarged display of each acoustic disturbance prevention device O, and includes an acoustic diffuser D including a plurality of units U and a frame F for holding the acoustic diffuser D on one side.
- each unit U which is a rectangular parallelepiped, revolves around the Yw axis of the world coordinate system as a reference axis. Further, as can be seen by comparing a certain unit Un with the unit U (n-1) generated immediately before, each unit U includes both a reference axis and the like (reference axis Yw and world coordinate origin Ow). ) Is increased and the dimensions are also increased, and it rotates around each axis of local coordinates.
- Each unit U is connected to each other to form the acoustic diffuser D, and is fixed on the frame F.
- the surface of each unit U is an element surface Ce, Ce, and the set of the element surface Ce of each of these units U is referred to as a facet Cs.
- the degree of proximity of each unit varies depending on the size of the entire device such as acoustic interference prevention, and may be appropriately determined in consideration of the efficiency of acoustic scattering to the surroundings.
- the rectangular frame F is used, but the shape of the frame may be determined according to the acoustic diffuser, and may take various shapes such as a circle, an ellipse, and a polygon in addition to the rectangle. Further, if the rectangle, equilateral triangle, regular hexagon, etc. have the same vertical and horizontal dimensions, a plurality of them can be arranged side by side as described later.
- FIGS. 3 to 6 show an example in which a regular octahedron is used as each unit U.
- the remaining two vertices of the octahedron are located on the front side and the back side of the paper surface on the axis Yw.
- the edges between these two vertices and the four vertices displayed in each figure are not displayed.
- the local coordinate system of each unit Ul is displayed by Xl, Yl, Zl, and the local coordinate origin or unit generation point is displayed by Gl (in unit U1, it is X1, Y1, Z1, G1).
- FIG. 3 is a plan view showing an arrangement example of the units U constituting the acoustic diffuser.
- the revolution around the world reference axis Yw and the rotation around each unit reference axis Yl are every ⁇
- the scale of each unit is ⁇ times
- the distance L from the center of each unit is expanded ⁇ times. This is an example.
- FIG. 4 shows the revolution around the world reference axis Yw and the rotation around each unit reference axis Yl are every ⁇ .
- the scale of each unit is the same, and the distance L from the center of each unit is fixed and does not expand.
- FIG. 5 shows the state in which the rotation around the reference axis Yl of each unit is eliminated from the state of FIG.
- FIG. 6 shows the state of FIG. 3 with the rotation around the reference axis Yl of each unit set to 2 ⁇ .
- each ⁇ has the same effect as those described in FIGS. 1 to 3 above in that parallel sides to the sound reflecting surface do not appear. Further, as shown in FIG. 5, even when there is no rotation, the position where the element surface Ce of each unit appears is determined by the angle ⁇ using the golden ratio, and reflected sounds having different phase differences are generated from these vertices. The same effect can be obtained.
- the same reference numerals are given to the same members as those in the above embodiments.
- each unit U is a rectangular parallelepiped, and it is an example in which only rotation around the local coordinate axis is performed without revolving.
- each unit rotates every ⁇ around a local reference axis parallel to the world reference axis Zw.
- each unit shifts in the Yw axis direction by a distance L
- each unit shifts by ⁇ times the distance L in the Yw axis direction.
- the two units may be combined and created, and the same applies to all the above examples.
- FIG. 9 shows an example in which the growth rule of FIG. 2 is applied to each growth center point in a state where a plurality of growth center points exist in the three-dimensional shape.
- FIG. 9A shows an icosahedron in which each vertex is a growth center point
- FIG. 9B shows an acoustic diffuser in which each vertex in FIG. 9A is a growth center point.
- a plurality of growth centers of each acoustic diffuser can be provided at arbitrary positions.
- FIG. 10 is a plan view showing another example of the arrangement of the units constituting the acoustic diffuser, and the axes are not shown in the figure, but in accordance with the above-mentioned rules, a rectangular parallelepiped shape is formed at a constant pitch in the Zw axis direction (not shown).
- An example is shown in which the units are linearly transferred and the scales are the same.
- the rotation is performed at an angle ⁇ around the rotation axis parallel to the Zw axis, and (a) does not revolve and the local coordinate origin O1 or the unit of each unit is rotated from Zw. This is the case where the distance L to the generation point G is zero.
- FIG. 10 is a plan view showing another example of the arrangement of the units constituting the acoustic diffuser, and the axes are not shown in the figure, but in accordance with the above-mentioned rules, a rectangular parallelepiped shape is formed at a constant pitch in the Zw axis direction (not shown
- FIG. 3B shows a case where the distance L from Zw to O1 and the like is constant and revolves at an angle ⁇ .
- FIG. 3C shows a case where the distance L from Zw to O1 and the like is further expanded in addition to (b).
- (d) is a case where each unit is rotated by an angle ⁇ on all of the local coordinate axes Xl, Yl, and Zl axes.
- FIG. 11A shows a state in which an acoustic diffuser designed by the methods of FIGS. 1 to 10 is arranged in a space, and a large number of small spheres collide with the acoustic diffuser and are reflected from the front surface of the acoustic diffuser. The globules are scattered, and it can be seen that acoustic damage is prevented.
- FIG. 11B shows a similar test using an acoustic diffuser composed of irregularities having only parallel surfaces. The balls are reflected in parallel, and it is expected that acoustic problems such as flutter echo will occur.
- the above-mentioned acoustic disturbance prevention device O may be directly produced by a 3D printer, a 3D router, or the like, in addition to molding using a mold.
- Materials include, for example, ABS, ASA, nylon, acrylic, polypropylene, polycarbonate, PLA (polylactic acid), resin mixed with carbon fiber or Glyce fiber, gypsum, metal material, wood. Etc. can be used.
- a plurality of configurations that are easy to create with a 3D printer or the like will be illustrated (of course, other methods may be used).
- the first unit Ua which is a similar figure of a rectangular parallelepiped, is connected by a plurality of intricately connected bodies and a connected body S formed in a grid pattern to form an acoustic diffuser D as a first unit group G1.
- the outer peripheral portion of the spiral of the first unit Ua uses a cube
- the inner peripheral portion of the spiral uses a rectangular parallelepiped. As seen in the following pattern, cubes having different shapes may be combined. good.
- Each unit U (Ua) rotates relative to each other around the reference axis Yw or an axis parallel to the reference axis Yw due to the above-mentioned revolution or rotation, and among the element planes Ce forming the unit, the element plane Ce in the direction of the reference axis Yw.
- the acoustic diffuser D is formed by being rotationally arranged at different angles with respect to the reference axis Yw so that the directions of the two are different from each other. Further, in this example, the units U are arranged in a spiral shape from the center, and the size of each unit U is gradually increased.
- the notation of the following embodiments is also based on the fact that each unit U has the same arrangement with respect to the reference axis Yw.
- the sound incident on the acoustic diffuser D from the front open window Hf is scattered by the above configuration and the element surface Ce.
- FIG. 12C is a first outer frame f1a forming a part of the first frame body f1, which has a rectangular shape as a whole and has locking portions f14 at two diagonal positions.
- the first inner frame f1b forms a part of the first frame body f1
- the first outer frame f1a is fitted in front of the first inner frame f1b and fixed by adhesion or the like.
- the first frame f1 is formed as a frame F.
- the first outer frame f1a and the first inner frame f1b can be composed of different materials or materials of the same material but different colors.
- the frame can be formed.
- the outer shapes of the first outer frame f1a and the first inner frame f1b may have various forms as described above, in addition to being rectangular.
- FIG. 13 shows a second frame body f2 and a connecting frame fj provided as a frame F with respect to the forms of FIGS. 2 and 12. Since the above-mentioned acoustic diffuser D is composed of the unit U intricately, it is liable to be fragile. Therefore, a second frame f2 is provided on the front side to protect the acoustic diffuser so that it will not be damaged by a person or the like. are doing. Further, the side release window Hs and the back release window Hb are formed so that the sound incident on the acoustic diffuser D can be reflected and transmitted not only to the front side but also to the upper and lower side surfaces and the back surface.
- the second unit group G2 is provided in this corner to improve the effect of preventing acoustic damage.
- the second unit Ub has a spherical (arc-shaped) curved surface, and a plurality of the second unit Ub are connected by a connecting body S to form a second unit group G2.
- the revolution axis of the second unit group G2 has an axis parallel to the reference axis Yw set in the vicinity of each corner and arranged around the axis according to the above-mentioned rule.
- four legs Fs are provided, and the same applies to FIGS. 13 to 17, but the legs can be placed on the floor.
- FIGS. 13 and 14 can be configured by rearranging the parts shown in FIG.
- the protrusion f11 formed in the first frame f1 is fitted into the fitting hole f10 formed at the tip of the connecting frame fj. 13 forms are completed.
- the parts E2, E3, and E4 of FIGS. 15B, 15C, and 15D are used, the auxiliary frame that supports the second unit group G2 in the fitting hole f12 formed in the second frame body f2.
- FIG. 17 A six-view view and a perspective view of the form of FIG. 14 are shown in FIG. Further, in FIG. 17, the acoustic diffuser D of FIG. 16 is drawn with a broken line to show a partial design of the previous frame. This drawing also includes a partial design that expresses only the acoustic diffuser by interpreting the broken line and the practice interchangeably.
- FIG. 18 shows an example of division formation different from the above when creating the device O for preventing acoustic obstacles.
- the second frame body f2 is formed as the component E7 and is commonly used.
- the component E8 of FIG. 18B only the first unit Ua is used as the acoustic diffuser by fitting the protrusion f16 formed in the connecting frame fj into the fitting hole f15 formed in the second frame f2. The including form is completed.
- the component E9 of FIG. 18C the first unit as an acoustic diffuser is formed by fitting the protrusion f17 formed in the connecting frame fj into the fitting hole f15 formed in the second inner frame f2b.
- each of the parts E7 to 9 is formed by a 3D printer or the like, and only the part E7 is formed in a wood color, for example, and the other parts are made in different colors, thereby producing a design effect as if it is in the frame. Can be granted.
- the acoustic disturbance prevention device O of FIG. 19 shows a case where the third frame body f3 is used as a frame.
- the front opening window Hf side and the back opening window Hb side are configured so that the appearance of the acoustic diffuser D is substantially similar to each other, and the effect of preventing acoustic interference from both directions is exhibited.
- it is arranged in a place where a person is on both the front opening window Hf side and the back opening window Hb side, and is arranged on a table or floor on the lower surface of the frame F, as well as on the upper surface indicated by the arrow Q1 of the frame F. It may be suspended and fixed (two or more places) by using the upper side surface indicated by the arrow Q2.
- the apex of the polygon shown in FIG. 9 is used as the growth starting point, the reference axes Yw are arranged radially, and the first to third devices having different shapes according to the above rules are spirally arranged. Units Ua to Uc are arranged.
- the central reference axis Yw formed on the installation table f4 is illustrated.
- the installation table f4 is arranged sideways so that the surfaces of the axes Xw and Zw are oriented vertically along the wall surface and placed on the wall. It may be attached. Further, for example, the bottom of the installation table f4 may be oriented upward, and the surfaces of the axes Xw and Zw may be hung from the ceiling along the ceiling surface.
- the acoustic disturbance prevention device O shown in FIG. 21 is inserted into a hole formed in a wall, floor, ceiling, etc. and fixed by using a shaft f5 protruding to the back side.
- the acoustic obstacle prevention device O shown in FIG. 22 is fixed in the same manner as in the example of FIG. 21 by penetrating a bolt B, a nail, a screw, or the like through a through hole f6a formed in the mounting frame f6.
- a shaft f5 or a through hole f6a is formed along the reference shaft Yw.
- the acoustic interference prevention device O shown in FIG. 23 forms a mounting frame f7 by projecting a mounting portion f7b having a through hole f7c from three locations of a frame portion f7a provided on the back side of the acoustic diffuser D.
- a string may be passed through the through hole f7c of the mounting portion f7b and hung from the wall, or a string may be hung on each of the three mounting portions f7b and hung from the ceiling in a balanced manner.
- FIGS. 24A to 24D an arrangement example of the second unit group G2 described above will be described with reference to FIGS. 24A to 24D.
- the unit group represented by the reference numerals G1 and G2 in each figure shows only the arrangement locus of each unit arranged in a spiral shape, and the display of each unit is omitted. Further, it is assumed that the reference axis, which is the center of forming the spiral in each example, is arranged in the direction orthogonal to the paper surface.
- FIG. 24A is an example in which one of the spirals constituting the second unit group G2 is divided and arranged at four corners. When the small second unit groups G2a to d are combined, they form one spiral.
- FIG. 24B is an example of dividing the spiral between adjacent devices for preventing acoustic damage.
- a plurality of acoustic interference prevention devices O1 to 4 are arranged side by side, a spiral is arranged at each boundary portion, this is divided at each boundary portion, and each small second unit group G2a to d is distributed to each device. is there.
- reference axes are provided at each corner to form four spirals, and the portions partitioned in the frame F are incorporated into the apparatus as the small second unit groups G2a to d.
- the reference axis of the spiral may be displaced along the paper surface direction.
- Each of the above units U may be a polyhedron, a curved surface such as a Mobius strip, or a plate-shaped unit.
- Each unit belonging to the first to third units may have a shape different from each other or a shape similar to each other. It is desirable that the angle of the facet with respect to the sound scattering direction is changed by the above revolution or rotation, but since acoustic scattering occurs at each facet and corner, the relationship between the shape of each unit and the sound scattering direction. Gender does not matter.
- the golden ratio is one aspect of the noble metal ratio. Therefore, in each of the above embodiments, instead of the golden ratio and the golden angle, an irrational number ratio such as a noble metal ratio other than the golden ratio and an angle defined by the same ratio may be used.
- n ⁇ times or an arbitrary magnification may be used instead of the above ⁇ times. If the above n ⁇ or n ⁇ is used for either the dimension or the angle, acoustic interference is prevented.
- the present invention is installed in, for example, a concert hall, a music classroom, a music studio, a DJ booth, a gymnasium, an outdoor music facility, etc., and is used as a device for preventing acoustic interference or improving sound quality and a design method thereof. can do.
Abstract
Description
φ=(1+sqrt(5))/2
α=360°*1/(1+φ)
本発明の音響障害防止等装置は、例えば、図1,2,9,10,12~22に示すような形状を呈し、その設計原理は図3~8、効果は図11に示されている。
図1には複数の音響障害防止等装置O(O1~O4)が柱Pに取り付けられている。図2は各音響障害防止等装置Oを拡大表示したもので、複数のユニットUを含む音響拡散体Dと、この音響拡散体Dを一側で保持するフレームFとを備えている。音響拡散体Dでは、ワールド座標系のYw軸を基準軸とし、直方体である各ユニットUが公転している。また、あるユニットUnと一つ前に生成されるユニットU(n-1)を比較してわかるように、各ユニットUは、基準軸等(基準軸Yw及びワールド座標原点Owの双方を含む。)からの距離を拡大させると共に寸法も拡大し、ローカル座標の各軸周りで自転している。各ユニットUは相互に連結されて上記音響拡散体Dをなし、フレームF上に固定されている。各ユニットUの表面は要素面Ce、Ceであり、これらの各ユニットUの要素面Ceの集合を小面Csと称する。
Claims (17)
- 互いに略相似形または合同である複数の音響拡散のためのユニットを互いの向きを異ならせて近接配置し、これらユニットを相互に接合し、及び/又は、連結体を介して接合してある音響拡散体を設け、この音響拡散体を施設に設置する設置部を備えている、音響障害を防止し、または、音質の改善を行うための音響障害防止等装置。
- 前記音響拡散体の片側を囲む第一枠体を前記設置部として備えている請求項1記載の音響障害防止等装置。
- 前記音響拡散体他方の片側も囲む第二枠体を備え、これら第一、第二枠体は互いに連結されると共にこれらのうち一方の枠体側で壁に掛けることの可能な請求項2記載の音響障害防止等装置。
- 前記両枠体の前面及び背面並びに両枠体の間が解放されている請求項3記載の音響障害防止等装置。
- 前記音響拡散体の周囲を囲む第三枠体を前記設置部として備え、第三枠体の下辺で設備に載置し、または、第三枠体の横又は上辺で設備から吊すことの可能な請求項1記載の音響障害防止等装置。
- 前記枠体は前記音響拡散体の周囲を囲む矩形を呈し、前記音響拡散体は、前記ユニットを基準軸周りで渦巻状に配置した第一ユニット群と、前記基準軸とは異なる他の基準軸周りで配置したユニットよりなる第二ユニット群とを備え、前記枠体の矩形の隅部に前記第二ユニット群を配置してある請求項2~5のいずれかに記載の音響障害防止等装置。
- 複数の音響障害防止装置を隣接配置するものであり、前記他の基準軸は隣接する音響障害防止装置に共通して用いられ、前記第二ユニット群はユニットをこの他の基準軸周りで渦巻状に配置し、隣接する音響障害防止装置にそれぞれ分割して支持されるものである請求項6記載の音響障害防止装置。
- 前記第一、第二ユニット群は互いに別部材で構成されている請求項6または7記載の音響障害防止等装置。
- 前記枠体のうち最前面となる枠体は前後に2分割形成され、前方分割体が後方分割体とは異なる色彩である請求項2~8のいずれかに記載の音響障害防止等装置。
- 前記設置部として設備に設置する設置台を備え、この設置台の周部及び上部に前記ユニットを配置して前記音響拡散体を構成してある請求項1記載の音響障害防止等装置。
- 前記音響拡散体は3Dプリンターにより作成されるものである請求項1~10のいずれかに記載の音響障害防止設備。
- 前記各ユニットは表面に小面を有し、
前記各ユニットは、相互の角度がnα(nは自然数)となるように配置され、
これらの小面の間または前記空間を囲む素面及びこれらの小面の間の反射で音響障害が防止される請求項1~11のいずれかに記載の音響障害防止等装置。
φ=(1+sqrt(5))/2
α=360°*1/(1+φ) - 前記各ユニット相互の角度を規定する各ユニット相互の回転は、ワールド座標系における各ユニットの公転、及び/または、各ユニットの姿勢を規定するローカル座標系における各ユニットの自転を含むものである請求項12に記載の音響障害防止等装置。
- 前記各音響拡散体における各ユニットがワールド座標系において変位を伴い繰り返し生成されたものであり、各ユニット間の距離L、または、各ユニットとワールド座標系の基準軸若しくはワールド座標系の原点との距離Lが等倍、任意の倍率、または、nφ倍(nは自然数)で規定される請求項12または13に記載の音響障害防止等装置。
- 前記各音響拡散体における各ユニットが等倍、任意の倍率、または、nφ倍(nは自然数)で拡大するものである請求項12~14のいずれかに記載の音響障害防止等装置。
- 前記各ユニットは基準軸またはこれに平行な軸周りで相互に相対回転し、前記ユニットをなす要素面のうちこの基準軸方向視の要素面の向きが互いに異なるように、前記基準軸に対して互いに異なる角度に回転配置されたユニットを有する請求項1~15のいずれかに記載の音響障害防止等装置。
- 前記設置部が前記基準軸を目的となる音源側に配向するものである請求項16記載の音響障害防止等装置。
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