The present invention relates to a drum, such as a snare drum, including a shell and a batter head.
In an instance where sound produced by striking a head of an acoustic drum, such as a snare drum, is sustained too long, the sound of the acoustic drum is mixed with sound produced by other percussion instruments and accordingly becomes difficult to listen to. For permitting the sound produced by the acoustic drum to easily listen to or for suppressing sound of unnecessary components, the head is provided with extraneous matter for vibration damping (muting). For instance, a mute ring is placed on the head or a tape or gel for muting is attached to the head. Further, felt is put on a back surface of the head from inside of the shell or on a front surface of the head from outside of the shell. As disclosed in the following Patent Literature 1, there is known a configuration in which a casing has a support portion for supporting a mute ring or the like.
In the conventional muting methods, the extraneous matter is held in contact with the head. In this case, vibration of the head is excessively damped, and even sound necessary for rich tone color is undesirably damped. In particular, rich harmonics and tonal brightness are sacrificed due to muting, and rise (attack) of sound tends to become dull. The tone color at the time of rise is very important for percussion instruments and has a great influence on overall tone color of struck sound of the drum. In the muting method in which the extraneous matter is attached to the head, it is sometimes not easy to remove the extraneous matter from the head.
A drum disclosed in the Patent Literature 2 includes plate-shaped resonators provided on an inner surface of a shell. In the disclosed drum, the resonators are provided not for vibration damping but for resonating with the head.
The present invention has been developed to solve the conventionally experienced problems described above. It is therefore an object to provide a drum capable of suppressing a high-frequency component of struck sound so as to improve tone color.
To attain the object indicated above, a drum according to the present invention includes: a shell (91); at least one head (101, 102); and a vibration damping portion (11, 21, 31, 41; S) including at least one of (a) an outer-surface facing surface (11a, 31a) which is disposed in substantially parallel with and is closely opposed to an outer surface (101a, 102a) of an outer peripheral portion of the at least one head without contacting the outer surface and (b) an inner-surface facing surface (21a, 41a; Sa) which is disposed in substantially parallel with and is closely opposed to an inner surface (101b, 102b) of the outer peripheral portion of the at least one head without contacting the inner surface.
Preferably, one of the at least one head is a batter head, and the vibration damping portion is provided for the outer peripheral portion of the batter head. Preferably, one of the at least one head is a resonance head, and the vibration damping portion is provided for the outer peripheral portion of the resonance head.
Preferably, the vibration damping portion includes the inner-surface facing surface (Sa) provided at a bent portion of the shell located at one end portion of the shell that defines an opening of the shell. Preferably, the vibration damping portion has a continuous or intermittent substantially annular shape in plan view.
Preferably, the drum further includes an attachment (94, 95) which is provided on the shell and to which a snare wire (97) is attached, and the vibration damping portion provided for the resonance head is located in a region of the resonance head in its circumferential direction, which region does not include a position of the snare wire in a state in which the snare wire is attached to the attachment. Preferably, the inner-surface facing surface (21a, 41a; S) of the vibration damping portion is opposed to the inner surface (101b, 102b) of the outer peripheral portion of the at least one head at a position located radially inward of a distal end of an opening portion of the shell that defines an opening of the shell.
The reference signs in the brackets are for illustrative purpose.
According to the drum constructed as described above, it is possible to suppress the high-frequency component of the struck sound so as to improve tone color.
The drum constructed as described above requires a reduced number of components and allows easy formation of the vibration damping portion. Further, the high-frequency component is efficiently suppressed, and an effect of suppressing the high-frequency component of the struck sound is enhanced. Moreover, it is possible to obtain sound by the snare wire while vibration of the resonance head is damped.
Referring to the drawings, there will be hereinafter explained one embodiment of the present invention.
The snare drum 100 includes a shell 91 having a cylindrical portion 91c. A batter head 101 and a resonance head 102 are respectively disposed at one and the other of opposite open ends of the cylindrical shell 91. When hereinafter referring to an up-down direction with respect to the snare drum 100, the up-down direction is defined with respect to a posture of the snare drum 100 in a state in which the batter head 101 is located above the resonance head 102. A front or upper surface of the batter head 101, i.e., an outer surface 101a of the batter head 101, is a striking surface. A plurality of lugs 96, each of which is formed in one piece, are fixed on an outer circumferential surface of the shell 91 so as to be equally spaced apart from one another. An annular hoop 92 is provided at the one of the opposite open ends of the shell 91 at which the batter head 101 is disposed, and an annular hoop 93 is provided at the other of the opposite open ends of the shell 91 at which the resonance head 102 is disposed.
An outer circumferential edge of the batter head 101 is coupled to a flesh hoop 98 (
As shown in
The shell 91 is formed of a metal member. As shown in
The snare drum 100 of the present embodiment includes vibration damping portions as constituent components not known in the art. The vibration damping portion has a vibration damping function of moderately suppressing mainly a high-frequency component of sound produced by striking the head and is provided for enhancing tone color without sacrificing tone color at the time of rise too much. Referring mainly to
A vibration damping portion 11 is provided so as to correspond to the outer surface 101a of the batter head 101, and a vibration damping portion 21 is provided so as to correspond to a back surface of the batter head 101, i.e., an inner surface 101b of the batter head 101. A vibration damping portion 31 is provided so as to correspond to the outer surface 102a of the resonance head 102, and a vibration damping portion 41 is provided so as to correspond to a back surface of the resonance head 102, i.e., an inner surface 102b of the resonance head 102. Each of the vibration damping portions 11, 21, 31, 41 is a part of a corresponding one of a first member 10, a second member 20, a third member 30, and a fourth member 40.
As shown in
The second member 20 is fixed to the cylindrical portion 91c of the shell 91. A vertical attaching portion 23 of the second member 20 is attached to an inner circumferential surface of the cylindrical portion 91c by bonding, screwing or the like. An inclined portion 22 extends obliquely upward from an upper part of the attaching portion 23, and a horizontal portion that extends in the horizontal and radially inward direction from a distal end of the inclined portion 22 is folded back. The folded-back portion functions as the vibration damping portion 21. An upper surface of the vibration damping portion 21, i.e., an inner-surface facing surface 21a of the vibration damping portion 21, is disposed substantially parallel with and is closely opposed to the inner surface 101b of the outer peripheral portion of the batter head 101 without contacting the inner surface 101b, via the opening portion 91a. In other words, as shown in
The third member 30 and the fourth member 40 are similarly disposed in vertically symmetrical relation to the first member 10 and the second member 20. That is, as shown in
A preferable shape of the vibration damping portion will be explained taking the vibration damping portion 11 as a representative example. The vibration damping portion 11 is shaped like a plate. The vibration damping portion is configured to have the facing surface (the outer-surface facing surface 11a) that is opposed to the outer surface 101a of the outer peripheral portion of the batter head 101. In this respect, the outer-surface facing surface 11a is located as close as possible to the batter head 101 while being spaced therefrom such that the outer-surface facing surface 11a does not contact the batter head 101 both of when the batter head 101 is struck and when the batter head 101 is not struck. Further, a clearance is left between the outer-surface facing surface 11a and the outer surface 101a of the batter head 101 without any other member interposed therebetween. An appropriate distance between the outer-surface facing surface 11a and the outer surface 101a of the batter head 101 is held within a range from several millimeters (mm) to several centimeters (cm). For higher vibration damping effect, the distance is preferably equal to or smaller than 15 mm.
There will be explained a region in the radial direction of the batter head 101 in which the vibration damping portion 11 is disposed. The vibration damping portion 11 is disposed such that the outer-surface facing surface 11a is located in a region corresponding to the outer peripheral portion of the batter head 101. The outer-surface facing surface 11a may be formed so as to be opposed to the outer surface 101a of the batter head 101 to its radially outermost end. Where a position that is radially inward of the radially outermost end of the batter head 101 by several millimeters (mm) is defined as a limit position, a position of an outer edge of the annular outer-surface facing surface 11a is preferably located radially outward of the limit position. If the position of the outer edge of the outer-surface facing surface 11a is located radially inward of the limit position, there is a risk that the high-frequency component cannot be suppressed. A position of an inner edge of the annular outer-surface facing surface 11a is preferably located radially outward of a position corresponding to a distance of half the radius of the batter head 101. If the position of the inner edge is located radially inward of the position corresponding to the distance of half the radius of the batter head 101, not only the high-frequency component, but also the low-frequency component may be largely influenced. Consequently, the region in the radial direction of the batter head 101 in which the outer-surface facing surface 11a is disposed preferably has a width (i.e., a width in the radial dimension) smaller than half the radius of the batter head 101.
For each of other vibration damping portions 21, 31, 41, the distance with respect to the corresponding one of the inner surface 101b of the batter head 101 and the outer and inner surfaces 102a, 102b of the resonance head 102 and the region in the radial direction (including the width) are similar to those of the vibration damping portion 11.
The vibration damping portion is formed of metal, for instance. The vibration damping portion may be formed of resin, wood, felt, corrugated cardboard, sponge, or the like. As long as the vibration damping portion has the facing surface such as the outer-surface facing surface 11a, the vibration damping portion may have a large thickness in the up-down direction, and portions thereof other than the facing surface may have any shape. In the configuration of the vibration damping portion (such as selection of the material and the shape, design of the distance with respect to the corresponding head, and design of the region in the radial direction in which the damping portion is disposed), it is essential that the vibration damping portion exhibit the function of damping the vibration of the head. A configuration in which the damping portion resonates with the vibration of the head is excluded.
A vibration mode differs depending upon the way to view nodal lines of vibration. The nodal lines of vibration include a nodal line 71 in the circumferential direction (circumferential nodal line 71) and a nodal line 72 in the diametrical direction (diametrical nodal line 72). A plurality of circumferential nodal lines 71 constitute concentric circles. For instance, as shown in
Here, a vibration mode (n, m) is defined as (the number n of diametrical nodal lines 72, the number m of circumferential nodal lines 71). The example of
Each of
In
Each of
As apparent from
The effects exhibited by the vibration damping portion 11 are explained as a representative example. When the batter head 101 vibrates, air existing between the outer-surface facing surface 11a of the vibration damping portion 11 and the batter head 101 acts as a damper, so that the vibration damping effect is exhibited. As described above, the outer-surface facing surface 11a is located in the region corresponding to the outer peripheral portion of the batter head 101. As explained above with respect to
That is, the existence of the vibration damping portion 11, etc., prevents or reduces the so-called coupled vibration in which the batter head 101 and the resonance head 102 synchronously vibrate. In particular, discordant harmonic components attenuate early, so that tone color is improved. As the side benefit, unnecessary reverberations of membranes (the heads 101, 102) do not last, sound of the snare wire 97 attenuates early, so that crisp sound is obtained. The outer-surface facing surface 11a is not in contact with the batter head 101. Consequently, vibration is excited at the time of rise (attack) of the struck sound as it was conventionally excited, so that the sound at the time of rise does not become dull. It is thus possible to obtain rich harmonics at the time of rise without sacrificing the component that is the base of rich tone color.
According to the present embodiment, the high-frequency component of the struck sound is suppressed and the tone color is improved owing to provision of the vibration damping portions 11, 21 that are opposed to the batter head 101 and the vibration damping portions 31, 41 that are opposed to the resonance head 102, so that tone color is improved.
In the illustrated embodiment, the vibration damping portion is attached to the inner circumferential surfaces of the hoops 92, 93 and the inner circumferential surface of the cylindrical portion 91c of the shell 91. The vibration damping portion may be attached to any position as long as the vibration damping portion does not contact the surfaces of the batter head 101 and the resonance head 102. The vibration damping portion may be fixed by screwing or the like to component(s) disposed inside or outside the cylindrical portion 91c. For instance, the first member 10 having the vibration damping portion 11 may be attached to the lugs 96 or the tuning bolts of the lugs 96. Further, the vibration damping portion may be formed integrally with the cylindrical portion 91c or may be formed integrally with component(s) disposed inside or outside of the cylindrical portion 91c.
Referring to
As shown in
Each of the vibration damping portions described above need not necessarily have a continuous annular shape in plan view. As shown in
The vibration damping portion need not be shaped like a plate, but may be thick in the up-down direction as follows. As shown in
As shown in
As shown in
In the configurations explained above, the vibration damping portions are provided at four positions, i.e., the front and the back of the batter head 101 and the front and the back of the resonance head 102, for enhancing the effect of suppressing the high-frequency component of the struck sound. The vibration damping portion may be provided at least one of the four positions. For instance, the vibration damping portions may be provided at the front and the back of the batter head 101, and no vibration damping portion may be provided for the resonance head 102. Provision of the vibration damping portions for the batter head 101 ensures a higher effect than provision of the vibration damping portions for the resonance head 102. However, only the vibration damping portions for the resonance head 102 may be provided.
It is noted that the principle of the present invention is applicable to not only the snare drum, but also various drums such as a tom-tom, a bass drum, a concert bass drum, and a timpani. In a drum not having the resonance head, the vibration damping portion for the batter head is provided. The present invention is applicable to a drum having a striking surface on the back side of the batter head, namely, a drum in which an inner surface of the batter head is a striking surface.
While the preferred embodiments of the present invention have been described in detail, it is to be understood that the present invention is not limited to the details of the embodiments and that various forms within the scope of the invention are included in the present invention. The modifications may be partly combined.
10: first member 20: second member 30: third member 40: fourth member 11, 21, 31, 41, S: vibration damping portion 11a, 31a: outer-surface facing surface 21a, 41a, Sa: inner-surface facing surface 91: shell 91b: bent portion 91c: cylindrical portion 94, 95: snare wire attachment 97: snare wire 101: batter head 101a, 102a: outer surface 101b, 102b: inner surface 102: resonance head
Number | Date | Country | Kind |
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2014-187723 | Sep 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/075294 | 9/7/2015 | WO | 00 |