JP6131679B2 - door - Google Patents

Description

  The present invention relates to a door provided at an entrance / exit of a toilet room or a living room, and more particularly to a door provided with a hollow portion for ventilation and a vent hole.

  Patent Documents 1 and 2 describe doors in which the interior of the door is a hollow portion, and ventilation functions are provided by providing vents on the front and back surfaces of the door, respectively. In Patent Documents 1 and 2, one of the front-side and back-side vents is provided in the upper part of the door, and the other is provided in the lower part of the door, so that the hollow part extends vertically. Further, a sound absorbing material is lined in the hollow portion to provide a soundproofing function. FIG. 3 of Patent Document 1 describes that one of the vents is provided along one side of the door and the other vent is provided along the other side.

JP-A-9-235960 JP2011-102467

  When the sound absorbing material is lined in the hollow portion as in Patent Documents 1 and 2, the dimension of the hollow portion in the door thickness direction is reduced, the air flow rate is reduced, and the ventilation function is lowered.

  An object of this invention is to provide the door excellent in the ventilation function and the soundproofing function.

  In Patent Documents 1 and 2, the inside of the door is a hollow portion, and the face material is not lined with the door frame in the vicinity of the vent, so the strength and rigidity of the face material in the vicinity of the vent are There are shortcomings such as shortage of face materials and easy vibration.

  In one aspect of the present invention, an object of the present invention is to provide a door having high strength and rigidity of a face member in the vicinity of the vent.

  In the door of the present invention, a hollow portion is provided inside the door, and a vent hole communicating with the hollow portion is provided on one side and the other side of the door, respectively. In the door which is arranged on one side and the other second vent is arranged on the other side of the door, the hollow portion in the vicinity of the first vent connects the first and second vents. The first narrow portion having a small width in the crossing direction and the hollow portion in the vicinity of the second vent is a second narrow portion having a small width in the crossing direction, A portion between the first narrow portion and the second narrow portion is a large portion having a width greater in the intersecting direction than the first and second narrow portions. It is.

  In the present invention, the vent may extend along one side of the door.

  In the door of the present invention, face members are provided on both sides of the door frame surrounding the hollow portion, and the vent holes are provided in the face members, respectively. It has a crosspiece and a horizontal crosspiece, and a plurality of auxiliary crosspieces along the vertical crosspiece or the horizontal crosspiece, the auxiliary crosspieces are arranged at intervals, and the narrow portion is formed between the auxiliary crosspieces. It may be.

  It is preferable that a portion in the vicinity of the vent hole in the face material is coupled to the auxiliary rail.

  A baffle that reduces the width of the hollow portion in the intersecting direction may be provided at a position between the first vent and the second vent in the hollow portion.

  In this case, it is preferable that a plurality of the baffles are arranged at intervals in the intersecting direction.

  The baffle may have a V-shape or a plate material having three or more leaves extending in a radial direction.

  In the door of the present invention, ventilation is performed through the vents provided in the face materials on the front side and the back side, and the hollow part in the door. In the present invention, the hollow portion is a narrow portion in the vicinity of the vent, and the space between the narrow portions is a large portion, and when the sound wave enters the wide portion from the small portion. The silencing action is achieved by the rapid expansion of the cross-sectional area of the hollow portion.

  In the door of the present invention, the strength and rigidity of the face material in the vicinity of the vent hole are increased by connecting and supporting the vicinity of the vent hole to the auxiliary frame of the door frame.

It is a perspective view of the front side of the door which concerns on embodiment. It is the perspective view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is a perspective view of the back side of the door concerning an embodiment. It is a front view of the door which concerns on embodiment. It is the VV line expanded sectional view of FIG. FIG. 6 is an enlarged sectional view taken along line VI-VI in FIG. 4. It is a front view of the door which concerns on another embodiment. It is the VIII-VIII sectional view taken on the line of FIG. It is the perspective view which abbreviate | omitted the face material of the front side of the door of FIG. It is a front view of the door which concerns on another embodiment. It is the XI-XI line expanded sectional view of FIG. It is the perspective view which abbreviate | omitted the face material of the front side of the door of FIG. It is a perspective view of the front side of the door which concerns on embodiment. It is the XIV-XIV sectional view taken on the line of FIG. It is the front view which abbreviate | omitted the face material of the front side of the door of FIG. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. (A) The figure is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment, (b) The figure is an enlarged view of the XXIB part of (a) figure. It is a front view of the door which concerns on embodiment. It is the perspective view which abbreviate | omitted the face material of the front side of the door of FIG. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is the front view which abbreviate | omitted the face material of the front side of the door which concerns on embodiment. It is an enlarged front view of the baffle of FIG. It is an enlarged front view of the baffle used for another embodiment. It is an enlarged front view of the baffle used for another embodiment. It is an enlarged front view of the baffle used for another embodiment. It is a front view of the door which concerns on different embodiment. Furthermore, it is a front view of the door which concerns on different embodiment. (A) The figure is a perspective view of the front side of the door which concerns on another embodiment, (b) A figure is the 40B-40B sectional view taken on the line of (a) figure. It is a graph which shows an experimental result. FIG. (A) A figure is a longitudinal cross-sectional view (43A-43A sectional view of (b) figure) of the test apparatus 100, (b) figure is a 43B-43B arrow line view of (a) figure. (A) The figure is a front view in which the face material on the front side of the door according to the experimental example is omitted, and (b) is a dimensional view of the baffle in (a). (A) The figure is a front view in which the face material and door frame on the front side of the door according to the experimental example are omitted, and (b) and (c) are the dimensional diagrams of the baffle in (a). (A) The figure is the front view which abbreviate | omitted the face material and door frame of the front side of the door which concern on an experiment example, (b)-(d) figure is a dimensional drawing of the baffle of (a) figure, respectively. (A) The figure is a front view in which the face material and door frame on the front side of the door according to the experimental example are omitted, and (b) and (c) are the dimensional diagrams of the baffle in (a). (A) The figure is a front view in which the face material and door frame on the front side of the door according to the experimental example are omitted, and (b) and (c) are the dimensional diagrams of the baffle in (a). (A) The figure is a front view in which the face material and door frame on the front side of the door according to the experimental example are omitted, and (b) and (c) are the dimensional diagrams of the baffle in (a). (A) The figure is a front view in which the face material and door frame on the front side of the door according to the experimental example are omitted, and (b) and (c) are the dimensional diagrams of the baffle in (a). (A) The figure is a front view in which the face material and the door frame on the front side of the door according to the experimental example are omitted, and (b) is a dimensional view of the baffle in (a). (A) The figure is a front view in which the face material and the door frame on the front side of the door according to the experimental example are omitted, and (b) is a dimensional view of the baffle in (a). (A) The figure is a front view in which the face material and the door frame on the front side of the door according to the experimental example are omitted, and (b) is a dimensional view of the baffle in (a).

  Hereinafter, embodiments will be described with reference to the drawings.

[Doors in Figs. 1-6]
The door 1 of FIGS. 1-6 attaches the front side material 2 to one side of the door frame 10, and attaches the back side material 3 to the other side.

  As shown in FIG. 2, the door frame 10 has a rectangular frame shape, a pair of first vertical bars 11 and 12 along the vertical side of the door 1, and a second along the inner side of the first vertical bars 11 and 12. Vertical bars 13, 14, first horizontal bar 21 along the upper side of door 1, second horizontal bar 22 in the middle in the vertical direction of door 1, third horizontal bar 23, fourth horizontal bar along the lower side of door 1, respectively. A crosspiece 24 and a fifth horizontal crosspiece 25 are provided.

  The upper ends of the left vertical bars 11, 13 and the right vertical bars 12, 14 are connected by a horizontal bar 21, and the lower ends are connected by horizontal bars 23, 24, 25.

  Short auxiliary rails 31 to 39 are attached to the side surface of the vertical rail 13 on the inside of the door with an interval in the vertical direction. Short auxiliary bars 41, 42, and 43 are attached to the side surface of the vertical beam 14 inside the door at intervals in the vertical direction. In this embodiment, each of the supplementary bars 31 to 39 is aligned and attached to the vertical beam 13, and each of the auxiliary bars 41 to 43 is also aligned and attached to the vertical beam 14. .

  The horizontal beam 22 is installed between the auxiliary beam 35 and the auxiliary beam 42.

  The upper end surfaces of the uppermost auxiliary rails 31 and 41 are in contact with the lower surface of the horizontal rail 21. The lower end surfaces of the lowermost auxiliary bars 39 and 43 are in contact with the upper surface of the horizontal bar 23. The contact portions or overlapping portions of the vertical bars 11 to 14, the horizontal bars 21 to 25, and the auxiliary bars 31 to 39 and 41 to 43 are connected by connecting means such as a tucker, a nail, a screw, and an adhesive. When the vertical beam, the horizontal beam, and the auxiliary beam are made of a metal material, the connecting means may be welding.

  Further, the vertical beam, the horizontal beam, and the auxiliary beam may be cut out from one plate material, or resin, metal, and the like may be integrally formed and cast.

  Vents 50 to 57 are provided in the face material 2 on the front side. The vent 50 is located between the auxiliary bars 31 and 32. Similarly, the vents 51 to 57 are provided between the auxiliary bars 32 and 33, between the auxiliary bars 33 and 34, between the auxiliary bars 34 and 35, and the auxiliary bar 35. 36, between the auxiliary bars 36, 37, between the auxiliary bars 37, 38 and between the auxiliary bars 38, 39.

  The vertical dimension of the vent 50 matches the vertical dimension between the auxiliary bars 31 and 32. Similarly, the vertical dimension of the vent holes 51 to 57 is between the auxiliary bars 32 and 33, between the auxiliary bars 33 and 34, and the auxiliary bar 34. , 35, between the auxiliary bars 35, 36, between the auxiliary bars 36, 37, between the auxiliary bars 37, 38, and between the auxiliary bars 38, 39. The upper edge of the vent 50 matches the lower edge of the auxiliary bar 31, and the upper edge of the vents 51 to 57 matches the lower edge of the auxiliary bars 32 to 38 in the same manner. The lower edge of the vent hole 50 matches the upper edge of the auxiliary bar 32, and the lower edge of the vent holes 51 to 57 also matches the upper edge of the auxiliary bar 33 to 39.

  The left and right widths of the vent holes 50 to 57 are narrower than the width of the two auxiliary bars 31. The side of the vents 50 to 57 on the door side matches the side of the vertical rail 13 on the door center side.

  The vertical dimensions of the vent holes 58 and 59 coincide with the vertical dimension between the auxiliary bars 41 and 42 and between the auxiliary bars 42 and 43, respectively. The upper edges of the vent holes 58 and 59 coincide with the lower edges of the auxiliary bars 41 and 42. The lower edges of the vents 58 and 59 coincide with the upper edges of the auxiliary bars 42 and 43. The left and right widths of the vent holes 58 and 59 are narrower than the widths of the two auxiliary bars 41, 42, and 43. The sides of the vents 58 and 59 on the door side coincide with the side of the vertical rail 14 on the door center side.

  The face materials 2 and 3 are attached to the door frame 10 by adhering means such as adhesion and screwing.

  In the door 1 configured as described above, the hollow portion 4 or 5 (FIG. 2) surrounded by the face materials 2 and 3 and the door frame 10, the front side vent holes 50 to 57, and the rear side vent hole 58. 59, the front side and the back side of the door 1 communicate with each other and ventilation is performed. In this embodiment, the vent holes 50 to 57 and the vent holes 58 and 59 are provided in a vertical line along the door side, and the distance from the vent holes 50 to 57 to the vent holes 58 and 59 is short. Therefore, the ventilation resistance which passes the hollow parts 4 and 5 is small, and ventilation performance is favorable.

In this embodiment, between the auxiliary bars 31, 32, between the auxiliary bars 32, 33, between the auxiliary bars 33, 34, between the auxiliary bars 34, 35, between the auxiliary bars 35, 36, between the auxiliary bars 37, 38, the auxiliary bar 38 and 39 while it has a width small portion of the width dimension _{d 1.} Moreover, during lateral beam 21, 22 of the hollow portion 4 has a width most width dimension d _2, between the rungs 22 and 23 of the hollow portion 5 becomes the width most width dimension d _3. Therefore, sound waves enter the hollow portion 4 or 5 from the ventilation openings 50 to 57, be rapidly expanded cross-sectional area upon entering the width small portion in the width dimension d ₁ in the width most width dimension d ₂ or d ₃ The sound is muted.

The upper and lower width subsection between Ho桟41 dimension _{d 4} is smaller than the vertical dimension _{d 2} of the width voluminous hollow portion 4, the vertical dimension _{d 5} is hollow width subsection between Ho桟43 since part smaller than the vertical dimension d ₃ of the width voluminous 5, muffling of the sound waves entering through the ventilation openings 58, 59 into the hollow portion 4, 5 is carried out.

  In this embodiment, since the upper and lower side portions of the vent holes 50 to 59 of the face materials 2 and 3 are supported by the auxiliary rails 31 to 39 and 41 to 43, respectively, the face material 2 in the vicinity of the vent holes 50 to 59 is provided. , 3 has high strength and rigidity. Therefore, damage to the face materials 2 and 3 is prevented and vibration of the face materials 2 and 3 is also suppressed.

  In this embodiment, as shown in the figure, the outer peripheries of the four sides of the door 1 are each in a straight line, and since there are no notches or the like, the gap generated between the door frame when the door is closed is small, Sound is prevented from leaking through the gap. Further, no object is caught in the notch-shaped part.

[Doors in Figs. 7-9]
In the present invention, the number of vents on the front and back sides of the door may be other than that shown in FIG. The door 1A in FIGS. 7 to 9 has six front vents and four rear vents. Supplementary bars 32, 33, 36, and 37 are disposed between the front-side vent holes 50 and 51, between the vent holes 51 and 52, between the vent holes 54 and 55, and between the vent holes 55 and 56, respectively. As the vents on the back side, vents 58A and 58B communicating with the upper hollow part 4 and vent holes 59A and 59B communicating with the lower hollow part 5 are provided. A supplementary bar 41A is disposed between the vent holes 58A and 58B, and a supplementary bar 41B is disposed between the vent holes 59A and 59B.

  The other structure of this door 1A is the same as that of the door 1, and the same code | symbol has shown the identical part. This door 1A has the same effect as the door 1. In addition, the supplementary bar 41A is disposed between the vent holes 58A and 58B, and the supplementary bar 41B is disposed between the vent holes 59A and 59B, and the strength and rigidity of the door 1A are improved by the supplementary bar. Although illustration is omitted, the number of front side vents and back side vents may be other than the doors 1 and 1A.

[Doors of FIGS. 10-12]
The door 1B shown in FIGS. 10 to 12 is provided with one auxiliary beam 31 to 34 and 36 to 39 in the door 1, and each auxiliary beam 31 to 34 and 36 to 39 is separated from the vertical beam 13. It is arranged along the vertical rail. Accordingly, a series of long space portions K (FIG. 11) extend vertically between the vertical beam 13 and the auxiliary beams 31 to 34 and between the vertical beam 13 and the auxiliary beams 36 to 39. Yes.

  In FIG. 11, the auxiliary bars 31 to 34 and 36 to 39 are separated from the vertical bar 13, but the auxiliary bars 31 and 39 are in contact with the vertical bar 13, and only the auxiliary bars 32 to 34 and 36 to 38 are vertical. It may be separated from the crosspiece 13.

  The other structure of this door 1B is the same as that of the door 1, and the same code | symbol has shown the identical part.

[Doors in FIGS. 13 to 15]
In the door 1C of FIGS. 13 to 15, the length in the door width direction of the auxiliary bars 31 to 33, 35 to 37 and 39 disposed on both sides of the front side vents 50 to 52 and 54 to 56 is the doors. It is larger than 1, 1A and 1B auxiliary bars. The vent holes 50 to 52 and 54 to 56 are arranged on the distal end side of the auxiliary rails 31 to 33, 35 to 37, 39, that is, the hollow portion 4 or 5 side. Thereby, the cavity parts 61-66 are formed in the door side side (vertical cross 13 side) rather than each vent hole 50-52, 54-56. The hollow portions 61 to 66 are surrounded on three sides by a pair of auxiliary rails and the vertical rail 13, and the other one is open toward the hollow portion 4 or 5.

  The depth E of the cavities 61 to 66, that is, the distance E from the door side edge of the vents 50 to 52 and 54 to 56 to the innermost part (vertical beam 13) of the cavities 61 to 66 is λ / 4. By doing so, it is possible to efficiently mute the sound having the wavelength λ.

  In this door 1C, three front side vents 50 to 52 and four back side vents 58a to 58d are provided in the upper hollow part 4, and three front sides are provided in the lower hollow part 5. Ventilation holes 54 to 56 and four back side ventilation holes 58e to 58h are provided. Supplementary piers 41a to 41c are arranged between the vents 58a and 58b, between the vents 58b and 58c, and between the vents 58c and 58d, respectively. The auxiliary rails 41d to 41f are respectively disposed between them. However, the number of vents is not limited to this. The other configuration of the door 1C is the same as that of the door 1, and the same reference numerals indicate the same parts.

[Each door in FIGS. 16-21]
FIGS. 16 to 21 show doors 1D to 1G, 1G ′, and 1H having different structures each having a hollow portion, and show a front view in a state in which the face material on the front side is removed.

  In the door 1D of FIG. 16, the protrusion 70 which protrudes in a cavity part from an auxiliary bar is provided. Each protrusion 70 is provided so as to narrow the vertical width on the inlet side of the cavities 61 to 66. In the cavities 61 to 63, the protrusions 70 are provided so as to project downward from the auxiliary bars 31 to 33 on the upper side of the cavities 61 to 63. In the cavities 64 to 66, the protrusions 70 project upward from the auxiliary bars 36, 37, and 39 below the cavities 64 to 66.

  Other configurations of the door 1D are the same as those of the door 1C, and the same reference numerals indicate the same parts.

  The door 1E in FIG. 17 is provided with a hollow portion 61a between the auxiliary rail 31 and the horizontal rail 21, and with a hollow portion 63a between the auxiliary rail 34 and the horizontal rail 22, and between the auxiliary rail 36 and the horizontal rail 22. A hollow portion 64 a is provided between them, and a hollow portion 66 a is provided between the auxiliary rail 39 and the horizontal rail 23.

  That is, in the door 1E, the supplementary bar 31 is arranged separately from the horizontal beam 21, the auxiliary beam 39 is arranged separately from the horizontal beam 23, and the spaces 61a and 66a are formed between them. Three auxiliary bars 32 to 34 and 36 to 38 are arranged between the auxiliary bars 31 and 35 and between the auxiliary bars 35 and 39 with a space therebetween in the vertical direction. , 33, between the auxiliary bars 33 and 34, between the auxiliary bars 36 and 37, between the auxiliary bars 37 and 38, and between the auxiliary bars 38 and 39, respectively, and between the vent holes 50 to 52 and 54 to 56, respectively. The side portions of the doors from the air vents 50 to 52 and 54 to 56 are hollow portions 61 to 66, respectively. The auxiliary bars 34 and 36 are in contact with the upper end and the lower end of the auxiliary bar 35, respectively. The front end surface of the supplementary bar 35 recedes on the door side side from the front end surfaces of the supplementary bars 34 and 36, and the auxiliary beam 34 and the side rail 22 on the hollow portion 4 or 5 side of the front end surface of the auxiliary bar 35 Cavities 63a and 64a are formed between the cross bar 22 and between the horizontal bar 22 and the auxiliary bar 36, respectively. The other structure of the door 1E is the same as that of the door 1C, and the same code | symbol has shown the identical part.

Cavity 61a, the depth _{E 1} of 66a is greater than the depth E of the cavity 61 to 66. The depth E ₂ of the cavities 63a and 64a satisfies the relationship E <E ₂ <E ₁ . Thus, by providing the cavity portions 61a and 66a and the cavity portions 63a and 64a having different depths from the cavity portions 61 to 66, the frequency range of sound that can be silenced is expanded.

  A door 1F shown in FIG. 18 is obtained by providing protrusions 70 on the auxiliary bars 31 to 33 and 37 to 39 in the door 1E shown in FIG. The installation form of the protrusion 70 is the same as that of the door 1D of FIG.

  The door 1G in FIG. 19 is configured such that the auxiliary bars 31 to 34 and 36 to 39 are installed obliquely, and the depths of the hollow portions 61 to 66 are increased. The other structure of the door 1G is the same as that of the door 1E, and the same code | symbol has shown the identical part.

  The door 1G 'in FIG. 20 is obtained by omitting the cavities 61a, 63a, 64a, and 66a from the door 1G in FIG.

  Specifically, in this door 1G ′, four auxiliary rails 31 to 34 and 36 to 39 are disposed with a vertical space between the horizontal rails 21 and 22 and between the horizontal rails 22 and 23, respectively. The upper end of the auxiliary beam 31 is in contact with the lower surface of the horizontal beam 21, the lower end of the auxiliary beam 34 is in contact with the upper surface of the horizontal beam 22, and the upper end of the auxiliary beam 36 is in contact with the lower surface of the horizontal beam 22. The lower end of the supplementary bar 39 is in contact with the upper surface of the horizontal bar 23. In this door 1G ′, the auxiliary beam 35 is omitted, and the horizontal beam 22 is installed between the vertical beam 13 and the auxiliary beam 42. The lower surface of the auxiliary beam 31 and the upper surface of the auxiliary beam 34 are inclined so as to be higher on the door side side, and the auxiliary beams 32 and 33 are connected to the lower surface of the auxiliary beam 31 and the upper surface of the auxiliary beam 34, respectively. It is installed diagonally in parallel. The lower surface of the auxiliary beam 36 and the upper surface of the auxiliary beam 39 are inclined so as to be lower on the door side side, and the auxiliary beams 37 and 38 are connected to the lower surface of the auxiliary beam 36 and the upper surface of the auxiliary beam 39, respectively. It is installed diagonally in parallel. Ventilation holes 50 to 52, 54 between the auxiliary bars 31, 32, between the auxiliary bars 32, 33, between the auxiliary bars 33, 34, between the auxiliary bars 36, 37, between the auxiliary bars 37, 38, and between the auxiliary bars 38, 39, respectively. -56 are provided, and the door side side is the cavity parts 61-66 rather than the vent holes 50-52 and 54-56 between these, respectively. The other configuration of the door 1G 'is the same as that of the door 1G, and the same reference numerals denote the same parts.

  A door 1H in FIG. 21 is obtained by installing Helmholtz resonators 72 in the cavities 61a, 63a, 64a, and 66a in the door 1E in FIG. As shown in an enlarged view in FIG. 21B, the Helmholtz resonator 72 is formed between the horizontal beam 21 and the auxiliary beam 31, between the auxiliary beam 34 and the horizontal beam 22, and between the horizontal beam 22 and the auxiliary beam 36. There is no direct communication with the hollow portion 4 or 5 provided between the auxiliary beam 39 and the horizontal beam 23 (in FIG. 21B, only between the auxiliary beam 39 and the horizontal beam 23). It consists of an enlarged cavity portion 72a, a duct-like neck portion 72b in which each enlarged cavity portion 72a and the adjacent cavity portions 61, 63, 64, 66 communicate with each other. The inner diameter of each neck 72b is smaller than the left and right width of each enlarged cavity 72a. In this embodiment, each of the enlarged cavities 72 a is formed between the tip of the auxiliary rail 31 and the horizontal rail 21, between the tip of the auxiliary rail 34 and the horizontal rail 22, and between the tip of the auxiliary rail 36 and the horizontal rail 22. A vertical auxiliary beam 73 is installed between each of the gaps 39 and between the tip of the auxiliary beam 39 and the horizontal beam 23, and the hollow part 4 or 5 side of each cavity 61 a, 63 a, 64 a, 66 a is sealed. However, the method of forming the enlarged cavity 72a is not limited to this. In this embodiment, each neck 72b is formed by providing a through hole, a vertical groove or the like penetrating each of the supplementary bars 31, 34, 36, 39 in the vertical direction. The method is not limited to this. The other structure of the door 1H is the same as that of the door 1E, and the same code | symbol has shown the identical part. In the door 1H with the Helmholtz resonator 72, the volume (cross-sectional area × length) of the neck 72b of each Helmholtz resonator 72 and the volume of the enlarged cavity 72a are adjusted as appropriate. By adjusting the resonance frequency to a frequency at which the sound deadening performance is lowered in the cavities 61 to 66, sound waves near the resonance frequency are absorbed, and an effect of further preventing the sound deadening performance from being lowered can be obtained. A resonator other than the Helmholtz resonator may be provided on the door.

[Doors in FIGS. 22 and 23]
The door 1I of FIGS. 22 and 23 is a door 1 in which a plurality of baffles 81 are provided in the hollow portions 4 and 5, respectively. Each baffle 81 is a member having a four-leaf plate piece extending in the four radial directions and having an X-shape in front view. Each plate piece extends in a direction of 40 to 50 °, preferably about 45 ° with respect to the horizontal direction. Each baffle 81 is fixed to the face materials 2 and 3 by adhesion or the like. The baffles 81 are arranged in a line at intervals in the vertical direction. There is a space between the uppermost and lowermost baffles 81 in the hollow portion 4 and the horizontal rails 21, 22, and the uppermost and lowermost baffles 81 in the hollow portion 5 and the horizontal rails 22, 23 are separated. There are also gaps in between.

  The other structure of this door 1I is the same as that of the door 1, and the same code | symbol has shown the identical part.

In the door 1I, than the vertical dimension _d 2, _{d 3} of the width most intervals hollow portion 4, 5 of the spacing and rungs 21, 22, 23 and the nearest baffle 81 between the adjacent baffles 81 Therefore, a silencing effect is produced when sound waves pass through this small interval portion. Further, since the face materials 2 and 3 are connected to each other by the baffle 81, the strength and rigidity of the face materials 2 and 3 are high.

[Each door in FIGS. 24 to 30]
In the door 1I, one vent 58 is provided in each of the hollow portions 4 and 5, but a plurality of vents may be provided as in the doors of FIGS.

  In the door 1J of FIG. 24, four vent holes 58a to 58d are provided in the hollow portion 4, and in the door 1K of FIG. 25, three vent holes 58a to 58c are provided. 24 and 25, the supplementary bars 41a, 41b or 41a to 41c between the vent holes are located at the height between the baffles 81. However, the vertical position of the auxiliary rail is not limited to this.

  In the door 1I, four baffles 81 are provided in each of the hollow portions 4 and 5, but two, three, or five or more may be provided. In the door 1K of FIG. 25, three baffles 81 are installed.

  The shape and size of the X-shaped baffle may be the same or different. In the doors 1I to 1K, each baffle has the same shape and the same size. However, in the door 1L in FIG. 26, the baffle 81 having the same radial length of each plate piece and the radial length of each plate piece. Different baffles 82 are used together, a baffle 81 is arranged in the middle in the vertical direction, and a baffle 82 is arranged above and below the baffle 81. In the upper baffle 82, a plate piece having a short radial length (hereinafter sometimes referred to as a short piece) is directed upward, and in the lower baffle 82, the short piece is directed downward, but these may be reversed.

  In the door 1M of FIG. 27, the short piece of the baffle 82 is directed to the vertical rails 11 and 13, and in the door 1N of FIG. 28, the short piece of the baffle 82 is directed to the vertical rails 12 and 14.

  In each of the doors 1I to 1N, the left and right positions of the baffles are the same and the baffles are arranged in a line in the vertical direction, but the left and right positions of the baffles may be different. For example, the baffle 81 may be arranged in a zigzag shape like the door 1P of FIG. Also in this case, the size of each baffle may be varied as in the door 1Q of FIG. In the door 1Q, relatively large baffles 84, 85, and 86 are arranged in three upper and lower stages, and a relatively small baffle 87 is disposed between them. The baffle 87 is arranged on the side of the vertical bars 12 and 14 with respect to the baffles 84, 85 and 86. The baffles 84, 85, and 86 have short pieces, but are not limited thereto.

[Door in Fig. 31]
The door 1R shown in FIG. 31 has two X-shaped baffles 81, an inverted V-shaped baffle 90, and a V-shaped baffle 91 arranged in the upper and lower hollow portions 4 and 5, respectively. As described above, the baffle 81 has an equal-length four-leaf plate piece, and two baffles 81 are arranged vertically in each of the hollow portions 4 and 5. The inverted V-shaped baffle 90 is arranged at the upper part in each hollow part 4, 5, and the V-shaped baffle 91 is arranged at the lower part in each hollow part 4, 5. The baffle 90 of the hollow portion 4 is separated from the horizontal beam 21, and the baffle 91 is separated from the horizontal beam 22. The baffle 90 of the hollow portion 5 is separated from the horizontal beam 22, and the baffle 91 is separated from the horizontal beam 23.

  Other configurations of the door 1R are the same as those of the door 1I, and the same reference numerals indicate the same parts.

[Door in Fig. 32]
In the door 1 </ b> S of FIG. 32A, the V-shaped baffle 91 is arranged at the upper part in each hollow part 4, 5, and the inverted V-shaped baffle 90 is arranged at the lower part in each hollow part 4, 5.

  In the door 1T of FIG. 32B, instead of the baffles 90 and 91, split two-leaf type baffles 90 'and 91' separated near the bent portion of the V-shape are installed.

  The other configurations of the doors 1S and 1T are the same as those of the door 1R, and the same reference numerals indicate the same parts.

[Doors and baffles in FIGS. 33 to 37]
In the present invention, the corner edges of the baffles and the auxiliary bars may be rounded or cut into a chamfered shape. If it does in this way, ventilation resistance will decrease and ventilation performance will improve.

  In the door 1U of FIG. 33, the baffle 81 'and the corner edges of the auxiliary bars 31 to 33, 35 to 37, 39, 41 to 43, and 41a to 41f are rounded. FIG. 34 is an enlarged front view of the baffle 81 '.

  When the width in the direction orthogonal to the extending direction of each plate piece of the baffle is W, the radius of curvature r of the rounded corner edge is about 1 mm to W / 2 mm, particularly about 2 mm to W / 2 mm (see FIG. 34). Is preferred.

  The baffle 81 ″ in FIG. 35 has a corner edge portion cut obliquely.

  In the present invention, as shown in FIG. 36, two V-shaped baffle pieces 88a may be brought close to each other to form one substantially X-shaped baffle 88 by a pair of baffle pieces 88a. In addition, as shown in FIG. 37, a substantially X-shaped baffle 89 may be configured by arranging four pieces of linear pieces 89a in a star shape.

[Each door in FIGS. 38 and 39]
Each of the doors 1V and 1W in FIGS. 38 and 39 is provided with a rhombus baffle 92 or a square baffle 93 instead of the X-shaped baffle 81, and the other configurations are the same as those of the door 1I. The same part is shown.

[Door in FIG. 40]
The door 1X of FIG. 40 is provided with elongated vents 95 and 96 in the vertical direction instead of the vents 50 to 53 and the vents 54 to 57. The other structure of this door 1X is the same as that of the door 1, and the same code | symbol has shown the identical part.

[Still another embodiment]
Any of the above baffles may be provided even in a door that does not have the baffle illustrated.

  The shape of the baffle is an example, and baffles having other shapes may be provided.

  The material of the vertical beam, the horizontal beam, the auxiliary beam, the baffle, and the face material may be any of wood, synthetic resin, metal, and the like. The baffle may be made of a sound absorbing material.

  Obviously, the number of supplementary bars may be other than illustrated.

  In the present invention, vents may be provided at the upper and lower portions of the door.

  In the present invention, a thin sound absorbing material may be stretched on the inner surface of the hollow portion.

  In the door of the present invention, the front side may be an indoor side such as a toilet room or a living room, or may be an outdoor side, but it may be better to use a face material with a larger number of vents as the outdoor side.

  In the present invention, a key may be provided on the door, and a shutter that closes when locked and opens when unlocked may be provided at the vent in conjunction with locking and unlocking of the key.

  An experiment for demonstrating the effect of the present invention was performed using the test bodies 1 and 2 shown in FIG. 42A and 42B are plan views of the test bodies 1 and 2, and FIGS. 42C and 42D are cross-sectional views of the test bodies 1 and 2.

[Experiment 1 (silence test 1)]
42 (a) and 42 (c) provided with a silencing cavity, and FIGS. 42 (b) and 42 (d) having the same structure as the specimen 1 except that the silencing cavity is not provided. The sound transmission loss was measured for the specimen 2 shown. The results are shown in FIG. As shown in FIG. 41, the test body 1 having a silencing cavity has excellent silencing characteristics at 1/4 wavelength and 3/4 wavelength of the depth (120 mm) of the silencing cavity.

[Experiment 2 (Aeration measurement test)]
Ventilation was performed to the hollow portion 4 of the door shown in FIGS. The height of the hollow portion 4 (distance between the horizontal bars 21, 22) is 918 mm, the width (distance between the auxiliary bars 31 to 35 and the auxiliary bars 41, 41a, 41b, 42) is 167 mm, and the thickness (face material 2). , 3) is 26 mm.

  The maximum length of the X-shaped baffle 81 (the length from the upper left end to the lower right end) is 231 mm. The length of one side of the V-shaped baffles 90, 91 (the length from the apex to the tip of the V-shape) is 100 mm.

  The results are shown in Table 1. In Table 1, “No R processing” means that the corner edges of the supplementary bar and baffle are right angles, “R processing” means rounded as shown in FIG. 34, and “C cut” means that it is cut obliquely as shown in FIG. It is.

As shown in Table 1, ventilation performance (ventilation performance) is improved by applying R processing or C-cut. The effective opening area is the order of the vents 50 to 52, the hollow portion 4 and the vents 58a to 58c in this order or vice versa when the pressure difference between the upstream side and the downstream side of the door in the venting direction is 9.8 Pa. The air volume passing in the direction (unit: m ³ / hr) was obtained by multiplying by 0.7.

[Experiment 3 (silence test 2)]
Using the test apparatus 100 shown in FIG. 43, the silencing performance of the door of the present invention was verified.

<Test apparatus 100>
The test apparatus 100 is provided with a chamber 101 having walls 102a to 102d erected on all sides, closed upward by a ceiling 102e, and provided with an entrance 102f on the front wall 102a, and the chamber 101. A speaker 103, a microphone 104 installed outside the room 101, and the like. The room 101 has the same specifications as a toilet room provided in a general detached house. The height Fa from the ground Gr to the floor of the room is 170 mm, the ceiling height Ha of the room is 2100 mm, and the left and right width Wa. Is 850 mm and the depth Da is 1250 mm. The height Hb of the doorway 102f is 2000 mm, and the left-right width Wb is 600 mm. The center in the left-right direction of the doorway 102f matches the center in the left-right direction in the room.

  Doors 200, 200A to 200I (FIGS. 44 to 53) according to Examples 1 to 10 and doors (not shown) according to Comparative Example 1 were installed at the doorway 102f so as to be openable and closable.

  The speaker 103 was arranged at a height of 400 mm from the floor surface of the chamber 101 (almost the same height as the seat surface of a general Western-style toilet) along the inner wall 102b in the chamber 101. The microphone 104 was placed at a height of 1.2 m from the ground Gr with a distance of 1 m from the center in the left-right direction of the outdoor side surface of the closed door in a direction orthogonal to this surface (horizontal direction).

[Examples 1 to 10]
With reference to FIGS. 44-53, the structure of the doors 200 and 200A-200I which concern on Examples 1-10 is demonstrated. 44 to 53 are front views in which the face materials on the front side of the doors 200 and 200A to 200I are omitted, respectively. 44 to 53, the lower half side of the doors 200, 200A to 200H is omitted. In FIGS. 45 to 53, the door frame is also omitted.

<Door 200 according to Embodiment 1>
The basic configuration of the door 200 in FIG. 44 is the same as that of the door 1K in FIG. That is, in the door 200, like the door 1K, the hollow portion 4 is provided with three front side vent holes 50 to 52 and three rear side vent holes 58a to 58c, and a width therebetween. Three X-shaped baffles 81 are provided in the majority. Although not shown in detail, the hollow portion 5 is also provided with three front-side vents 54 to 56 and three back-side vents 58e to 58g, and in the wide portion between them. Three X-shaped baffles 81 are provided. In FIG. 44, the same reference numerals as those of the door 1K indicate the same parts. The front and rear vents 50 to 52 and 54 to 56 have a vertical width of 167 mm and a horizontal width of 50 mm. The rear side vent holes 58a to 58c and 58e to 58g have a vertical width of 167 mm and a horizontal width of 50 mm. The distance from the lower surface of the horizontal beam 21 to the lower end of the auxiliary beam 31 is 178 mm, the vertical widths of the auxiliary beams 32 and 33 are each 30 mm, and the distance from the upper end of the auxiliary beam 35 to the upper surface of the horizontal beam 22 is 178 mm. is there. The distance from the lower surface of the horizontal beam 22 to the lower end of the auxiliary beam 35 is 178 mm, the vertical widths of the auxiliary beams 36 and 37 are each 30 mm, and the distance from the upper end of the auxiliary beam 39 to the upper surface of the horizontal beam 23 is 178 mm. is there. The distance from the lower surface of the horizontal beam 21 to the lower end of the auxiliary beam 41 is 178 mm, the vertical width of each of the auxiliary beams 41a and 41b is 30 mm, and the distance from the upper end of the auxiliary beam 42 to the upper surface of the horizontal beam 22 is 178 mm. is there. The distance from the lower surface of the horizontal beam 22 to the lower end of the auxiliary beam 42 is 178 mm, the vertical widths of the auxiliary beams 41d and 41e are 30 mm, respectively, and the distance from the upper end of the auxiliary beam 43 to the upper surface of the horizontal beam 23 is 178 mm. is there. Other dimensions (unit: mm; the same applies to FIGS. 45 to 53) are as shown in FIGS. 44 (a) and 44 (b).

  Each of the vertical beam, the horizontal beam, and each auxiliary beam constituting the door frame of the door 200 has a width (a dimension in a direction orthogonal to each longitudinal direction and a direction parallel to the extending direction of the face material) of 30 mm and a thickness (each It is made of LVL (Laminated Veneer Lumber: single plate laminate) made of square-bar-shaped poplar with a dimension of 26 mm perpendicular to both the longitudinal direction and the width direction. 4mm sheet-bonded MDF (Medium Density Fiberboard: medium fiberboard) surface is made of a sheet of waterproof sheet, and baffle 81 is made of LVL made of square bar-shaped poplar with a width of 21mm and a thickness of 26mm. The door 200 was constructed by joining with a tacker and / or an adhesive (CX50 manufactured by Konishi Co., Ltd.).

<Door 200A according to Embodiment 2>
In the door 200A of FIG. 45, X-shaped baffles 81a smaller than the baffles 81 of the doors 200 are respectively arranged in the upper and lower three stages in the wide portions of the hollow portions 4 and 5, and between the baffles 81a between them. Each of the smaller X-shaped baffles 81b is arranged. The baffle 81a is disposed so that the central portion (portion where the plate pieces intersect) is located near the middle in the left-right direction of the hollow portions 4 and 5, and the baffle 81b is closer to the vertical rails 12 and 14 than the baffle 81a. Has been placed. The other configuration of the door 200A is the same as that of the door 200, and the same reference numerals indicate the same parts. In Figure 45, two-dot chain line _{L 1} represents the line segment connecting the front end surface (the surface of the hollow portion 4, 5 side) each other Ho桟31～33,35, two-dot chain line _{L 2} is Ho桟41, 41a, 41b, 42 of indicate the line segment connecting the tip faces, the two-dot chain line _{L 3} indicates the lower surface of the rung 21, two-dot chain line _{L 4} are shows a top of the rung 22. The dimensions of the main parts of the door 200 </ b> A other than those shown in FIG. 45 and the constituent materials of the parts are the same as those of the door 200.

<Door 200B according to Embodiment 3>
In the door 200B shown in FIG. 46, an X-shaped baffle 81c (FIG. 30) in which the radial length of one leaf plate is longer than the radial length of the other three leaf plates in the wide portion of the hollow portions 4 and 5. 26) and an X-shaped baffle 81d in which the radial length of adjacent two leaf pieces is longer than the radial length of the other two leaf pieces (the baffle 82 in FIG. 26). A plate having the same shape) and a relatively small X-shaped baffle 81b (having the same shape as that used in the door 200A) are provided side by side. In the hollow portions 4 and 5, a baffle 81c, a baffle 81b, a baffle 81d, a baffle 81b, and a baffle 81c are arranged in this order from the top. The uppermost baffle 81c in each of the hollow portions 4 and 5 is disposed with a long radial piece (hereinafter, also referred to as a long piece) facing the vertical rails 11 and 13 and downward. The middle baffle 81d is arranged with both long pieces facing the vertical rails 11 and 13, and the lowermost baffle 81c is arranged with the long pieces facing the vertical rails 11 and 13 and upward. The baffles 81c and 81d are respectively disposed so that the center portions are located in the vicinity of the middle in the left-right direction of the hollow portions 4 and 5, and the baffles 81b are disposed closer to the vertical rails 12 and 14 than the baffles 81c and 81d. ing. The other structure of this door 200B is the same as the door 200, and the same code | symbol has shown the identical part. The dimensions of the main portions of the door 200B other than those shown in FIG.

<Door 200C according to Embodiment 4>
In the door 200C of FIG. 47, each X-shaped baffle 81e having a radial direction length equal to each plate piece and larger than the baffle 81 of the door 200 is provided in the large width portions of the hollow portions 4 and 5. Two X-shaped baffles 81d having the same shape as that used in the door 200B are arranged in three upper and lower stages. A baffle 81e is disposed at the center in the vertical direction in each of the hollow portions 4 and 5, and a baffle 81d is disposed above and below the baffle 81d. The upper baffle 81d in each of the hollow portions 4 and 5 is disposed with both long pieces facing downward, and the lower baffle 81d is disposed with both long pieces facing upward. The other structure of this door 200C is the same as that of the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200 </ b> C other than those shown in FIG. 47 and the constituent materials of the parts are the same as those of the door 200.

<Door 200D according to Embodiment 5>
In the door 200D of FIG. 48, the X-shaped baffle 81 having the same shape as that used in the door 200 and the same shape as that used in the door 200C are respectively provided in the wide portions of the hollow portions 4 and 5. Two X-shaped baffles 81e are arranged in three upper and lower stages. A baffle 81 is disposed in the center of each of the hollow portions 4 and 5 in the vertical direction, and a baffle 81e is disposed above and below the baffle 81e. The other structure of this door 200D is the same as that of the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200D other than those shown in FIG. 48 and the constituent materials of the parts are the same as those of the door 200.

<Door 200E according to Embodiment 6>
In the door 200E of FIG. 49, the radial lengths of the adjacent two-leaf plate pieces are longer than the radial lengths of the other two-leaf plate pieces in the wide portions of the hollow portions 4 and 5, respectively. Two X-shaped baffles 81f smaller than the baffles 81d of the door 200B and two X-shaped baffles 81 having the same shape as those used in the door 200 are arranged in four stages. In the hollow parts 4 and 5, a baffle 81f, a baffle 81, a baffle 81, and a baffle 81f are arranged in this order from the top. The uppermost baffle 81f in each of the hollow portions 4 and 5 is disposed with both long pieces facing downward, and the lowermost baffle 81f is disposed with both long pieces facing upward. The other structure of this door 200E is the same as that of the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200E other than those shown in FIG. 49 and the constituent materials of the parts are the same as those of the door 200.

<Door 200F according to Embodiment 7>
In the door 200F of FIG. 50, two X-shaped baffles 81e having the same shape as that used in the door 200C, and one inverted V-shaped baffle 90 are disposed in the large width portions of the hollow portions 4 and 5, respectively. One V-shaped baffle 91 is arranged in four upper and lower stages. The inverted V-shaped baffle 90 and the V-shaped baffle 91 are the same as those used in the door 1R of FIG. In the hollow portions 4 and 5, a baffle 90, a baffle 81e, a baffle 81e, and a baffle 91 are arranged in this order from the top. The other structure of this door 200F is the same as the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200F other than those shown in FIG. 50 and the constituent materials of the parts are also the same as those of the door 200.

<Door 200G according to Embodiment 8>
In the door 200G of FIG. 51, three X-shaped baffles 81d having the same shape as that used in the door 200B are arranged in three upper and lower stages in the wide portions of the hollow portions 4 and 5, respectively. Each baffle 81d is arranged with both long pieces facing the vertical rails 11 and 13, respectively. The other structure of this door 200G is the same as that of the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200G other than those shown in FIG. 51 and the constituent materials of the parts are the same as those of the door 200.

<Door 200H according to Embodiment 9>
In the door 200H of FIG. 52, four X-shaped baffles 81 having the same shape as that used in the door 200 are arranged in four upper and lower stages in the wide portions of the hollow portions 4 and 5, respectively. The other structure of this door 200H is the same as that of the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200 </ b> H other than those shown in FIG. 52 and the constituent materials of the parts are the same as those of the door 200.

<Door 200I according to Example 10>
In the door 200I of FIG. 53, five laterally-shaped V-shaped baffles 92 are arranged in a zigzag shape in the large width portions of the hollow portions 4 and 5, respectively. Specifically, in the hollow portions 4 and 5, three baffles 92 are arranged in three upper and lower stages on the side of the vertical rails 11 and 13 from the middle in the left-right direction of the hollow portions 4 and 5. , 14 side, two baffles 92 are arranged in two upper and lower stages. Each baffle 92 on the vertical beam 12, 14 side is near the middle between the upper baffle 92 and the middle baffle 92 on the vertical beam 11, 13 side, and the middle baffle 92 and the lower baffle on the vertical beam 11, 13 side. 92, respectively. The middle baffle 92 on the side of the vertical rails 11 and 13 is disposed slightly closer to the vertical rails 11 and 13 than the upper and lower baffles 92 on the vertical rails 11 and 13 side. Each baffle 92 is disposed with the V-shaped bent portion facing the vertical rails 12 and 14. The other structure of this door 200I is the same as that of the door 200, and the same code | symbol has shown the identical part. The dimensions of the main parts of the door 200I other than those shown in FIG. 53 and the constituent materials of the parts are the same as those of the door 200.

[Comparative Example 1]
As Comparative Example 1, a popular product door in which an undercut was provided so as to leave a 13 mm gap between the lower end of the door and the floor in the chamber 101 when the door was closed was used.

<Test method>
In each of the doors according to Examples 1 to 10 and Comparative Example 1, in a state where the door is closed and a state where the door is opened, the toilet drainage sound recorded in advance from the speaker 103 at a volume equivalent to the actual volume. The maximum noise level (Lamax) and the equivalent noise level (Laep) outside the chamber 101 were measured by the microphone 104.

  For each door according to Examples 1 to 10 and Comparative Example 1, the difference between the maximum noise level when the door is opened and the maximum noise level when the door is closed (hereinafter simply referred to as the maximum noise level difference), and The difference between the equivalent noise level with the door opened and the equivalent noise level with the door closed (hereinafter simply referred to as the equivalent noise level difference) was calculated. The results are shown in Tables 2 and 3.

  As shown in Tables 2 and 3, the interior of the door is provided with a hollow portion, and the front side and the back side of the door are each provided with a front side vent and a rear side vent that communicate with the hollow portion. The opening and the rear side vent are arranged on the door side opposite to each other, and the hollow portions in the vicinity of the front side vent and in the vicinity of the rear side vent are defined as small portions having a small vertical width, and the hollow portion therebetween A high silencing effect is exhibited by the doors of Examples 1 to 10 in which the upper and lower widths are large and the baffles are provided in the wide portions. In particular, Example 7 in which inverted V-shaped and V-shaped baffles 90 and 91 and two X-shaped baffles 81e are provided, and four X-shaped baffles 81 having the same shape are equally arranged in four upper and lower stages. In Example 9 and Example 10 in which five lateral V-shaped baffles 92 were arranged in a zigzag shape, a higher noise reduction effect was exhibited.

1,1A-1N, 1P-1X, 200,200A-200I Door 2,3 Face material 4,5 Hollow part 10 Door frame 11-14 Vertical beam 21-25 Horizontal beam 31-39, 41-43 Supplementary beam 50- 59, 58A, 58B, 59A, 59B, 58a-58h Vent 81, 81 ', 81'', 81a-81f, 82, 84-92, 90', 91 'Baffle 95, 96 Vent 100 Test apparatus 101 Chamber 102a to 102d Wall 102e Ceiling 102f Doorway 103 Speaker 104 Microphone

Claims (11)

A hollow portion is provided inside the door, and vents communicating with the hollow portion are provided on one side and the other side of the door,
One of the first vents is disposed on one side of the door, and the other second vent is disposed on the other side of the door.
The hollow portion in the vicinity of the first vent is a first narrow portion having a small width in the direction intersecting the direction connecting the first and second vents,
The hollow portion in the vicinity of the second vent is a second small width portion having a small width in the intersecting direction,
Between the first small width portion and the second small width portion is a large width portion whose width in the intersecting direction is larger than that of the first and second small width portions ,
A baffle for reducing the width of the hollow portion in the intersecting direction is provided at a position between the first vent and the second vent in the hollow portion.
A door characterized in that the hollow portion surrounds the entire circumference of each baffle .   The vent according to claim 1, wherein the vent extends along one side of the door, and the width in the one side direction of the small width portion is smaller than the width in the one side direction of the large width portion. And door. In Claim 1 or 2, the door is provided with face materials on both sides of the door frame surrounding the hollow portion, respectively.
Each of the face materials is provided with the vents,
The door frame has a vertical beam and a horizontal beam along the peripheral edge of the door, and a plurality of auxiliary bars along the vertical beam or the horizontal beam,
A door characterized in that the auxiliary bars are arranged with a space therebetween, and the narrow portion is formed between the auxiliary bars.   4. The door according to claim 3, wherein the narrow portion is recessed in a direction away from the hollow portion with respect to the vent, thereby forming a silencing cavity.   The door according to claim 3 or 4, wherein a corner edge of the auxiliary rail is rounded or cut into a chamfered shape.   The door according to any one of claims 3 to 5, wherein a portion of the face member in the vicinity of the vent hole is coupled to the auxiliary rail. The door according to any one of claims 3 to 6, wherein the hollow portion is separated from the vertical beam, the horizontal beam, and the auxiliary beam .   8. The door according to claim 7, wherein a plurality of the baffles are arranged at intervals in the intersecting direction.   9. The door according to claim 8, wherein the baffle has a V shape or a star shape having three or more leaf plates extending in a radial direction.   10. The door according to claim 7, wherein a substantially X-shaped baffle and a V-shaped baffle are provided in at least one hollow portion as the baffle.   The door according to any one of claims 7 to 9, wherein a corner edge of the baffle is rounded or cut into a chamfered shape.

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