JP6443868B1 - Electronic cymbals - Google Patents

Abstract

The present invention provides an electronic cymbal that can prevent the occurrence of an excessive tapping sound due to a shoulder portion of a stick hitting a striking surface of a cymbal and improve the feeling of performance.
An electronic cymbal (100) includes a cymbal pad (101) supported by a stand (110). The cymbal pad 101 includes a base body 102, a pad 103, and a tapping sensor 104. The base body 102 includes a through attachment portion 102a, a planar annular portion 102b, and a curved portion 102c, and is formed in an annular shape in plan view. A tapping sensor 104 is provided on the planar annular portion 102b. The curved portion 102 c is configured by an inclined surface that is curved in an arc shape so that the outer edge portion side is positioned on the upper end portion side of the stand 110 with respect to the penetrating attachment portion 102 a supported by the stand 110. The pad 103 has a bow portion 103a that covers the curved portion 102c.
[Selection] Figure 2

Description

  The present invention relates to an electronic cymbal that electronically realizes an acoustic cymbal using an electronic circuit.

  Conventionally, an electronic cymbal that electronically realized an acoustic cymbal using an electronic circuit is a pad that is formed of an elastic body such as rubber on the outer surface of a frame formed of a hard material such as metal or resin. It is configured to cover with. For example, Patent Literature 1 below discloses an electronic cymbal in which the outer side of a hard resin disk-like frame that curves convexly upward is covered with a rubber cover.

JP 2002-062872 A

  However, in the electronic cymbal described in the above-mentioned Patent Document 1, the hitting surface hitting with the stick is formed in a shape that is convexly curved upward, so that, similarly to the acoustic cymbal, The shoulder surface may be struck by a line hitting with a certain shoulder portion, and the physical tapping sound between the stick and the surface to be avoided in the electronic cymbal is excessively generated, and the feeling of performance is remarkably increased. There was a problem of losing.

  The present invention has been made to address the above problems, and its purpose is to improve the feeling of performance by preventing the occurrence of excessive tapping sounds due to the shoulder portion of the stick hitting the striking surface of the cymbal. It is to provide an electronic cymbal that can be used.

In order to achieve the above object, a feature of the present invention includes a cymbal pad having a striking surface to be hit by a player, a tapping sensor for detecting tapping of the cymbal pad, and a stand that extends in a rod shape and supports the cymbal pad. In the electronic cymbal, the cymbal pad is formed in a concave shape with a bow portion having an inclined surface inclined upward from the side where the striking surface is supported by the stand toward the outer edge of the cymbal pad. The tapping sensor is formed in a sheet shape extending in an arc shape, and includes a pad that is configured by an elastic body and forms a striking surface, and a base body that supports the pad. Notches extending along the circumferential direction are intermittently provided in the portion and provided on the base body so as to face the pad, and the pad is provided on the inner surface facing the tapping sensor. In that it has an intermediate projection respectively between the pressing projection and these pressing projection for pressing each widthwise side portion relative-out portion.

According to the feature of the present invention configured as described above, the electronic cymbal has a bow portion formed of an inclined surface inclined upward from the side where the striking surface is supported by the stand toward the outer edge side of the cymbal pad. In other words, it is formed with an inclined surface so that the outer edge side of the cymbal pad is on the upper end side of the stand with respect to the side where the striking surface is supported by the stand. Since it is formed in a concave shape toward the surface, it can be prevented that the shoulder portion of the stick hits the line when it is hit with a stick, and the occurrence of an excessive tapping sound due to this line hit is prevented. Can improve performance. Further, according to the electronic cymbal according to the present invention, since the hitting surface is formed in a concave shape, the stick becomes difficult to slide in the circumferential direction with respect to the hitting point when hitting the hitting surface. It can also be stabilized.

Further, according to the feature of the present invention configured as described above, the electronic cymbal can prevent both of the pressing protrusions from simultaneously pressing the tapping sensor, and can prevent the output of an excessive tapping detection signal. be able to.

Another feature of the present invention is that, in the electronic cymbal, the cymbal pad has a flat outer edge portion extending outwardly along the outer edge portion of the inclined surface on the outer side of the bow portion.

According to another aspect of the invention configured as described above, the electronic cymbal has a planar outer edge portion in which the cymbal pad extends in a planar shape outwardly along the outer edge portion of the inclined surface outside the inclined surface. Therefore, it is possible to easily perform edge performance in which the outer edge portion of the cymbal pad is hit.

Another feature of the present invention is that, in the electronic cymbal, the cymbal pad has a convex conical surface outer edge portion extending in a conical shape downward along the outer edge portion of the inclined surface outside the bow portion. is there.

According to another feature of the present invention configured as described above, the electronic cymbal has a convex cone-shaped outer edge portion in which the cymbal pad extends in a conical shape downward along the outer edge portion of the inclined surface outside the inclined surface. Since it has, it can make it easy to perform the edge performance which strikes the outer edge part of a cymbal pad. In this case, the electronic cymbal may be formed with a convex conical surface outer edge portion directly outside the inclined surface of the cymbal pad, or may be formed outside the inclined surface of the cymbal pad via the planar outer edge portion. .

In the electronic cymbal, the tapping sensor may be formed in a sheet shape extending in an arc shape, and a notch portion extending in the circumferential direction may be provided intermittently in an intermediate portion in the width direction. According to this, in the electronic cymbal, the tapping sensor is formed in a sheet shape extending in an arc shape, and the notch portion extending along the circumferential direction is intermittently provided in the intermediate portion in the width direction. When the sensor is affixed to the installation surface, the sensor can be provided in a state in which bending or wrinkle generation is suppressed and the shape of the tapping sensor is maintained.

  Another feature of the present invention is that, in the electronic cymbal, the cymbal pad is formed with a concave curved surface.

  According to another aspect of the invention configured as described above, the electronic cymbal has a striking surface on the cymbal pad that is formed into a concave curved surface from the stand side to the outer edge portion. Compared to a straight line that does not curve when hung on the part, it can prevent hitting with a stick when hitting with a stick, preventing excessive hitting sound due to this hitting and improving performance Can be made.

  Another feature of the present invention is that, in the electronic cymbal, the cymbal pad has a cup portion protruding in a convex shape at a portion of the striking surface that is supported by the stand.

  According to another aspect of the present invention configured as described above, the electronic cymbal has an acoustic cymbal because the cymbal pad has a cup portion protruding in a convex shape at a portion of the striking surface supported by the stand. The performance of the cup can be reproduced.

It is a perspective view which shows the outline of the external appearance structure of the electronic cymbal which concerns on 1st Embodiment of this invention. It is sectional drawing which shows the outline of the internal structure of the electronic cymbal shown in FIG. FIG. 3 is a cutaway perspective view showing a state in which the cymbal pad fixture is divided in half to explain the appearance and internal configuration of the cymbal pad fixture in the electronic cymbal shown in FIG. 2. It is sectional drawing which shows the outline of the internal structure of the electronic cymbal which concerns on 2nd Embodiment of this invention. It is a perspective view which shows the outline of the external appearance structure of the electronic cymbal which concerns on 3rd Embodiment of this invention. It is sectional drawing which shows the outline of the internal structure of the electronic cymbal shown in FIG. It is a partial expanded sectional view which shows in detail the structure in the broken-line circle | round | yen 7 shown in FIG. It is a top view which shows the outline of the external appearance structure of the base body shown in FIG.

(First embodiment)
Embodiments of an electronic cymbal according to the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view schematically showing an outline of an external configuration of an electronic cymbal 100 according to the first embodiment of the present invention. FIG. 2 is a cross-sectional view schematically showing an outline of the internal configuration of the electronic cymbal 100 shown in FIG. The electronic cymbal 100 is an electronic percussion instrument that generates an electronic musical tone by detecting the impact of a hitting surface hit by a player (not shown) via a stick ST.

(Configuration of electronic cymbal 100)
The electronic cymbal 100 includes a cymbal pad 101. The cymbal pad 101 is a component that vibrates by a tapping operation by a player. The cymbal pad 101 is concavely curved upward and is formed of a circular plate-like body in plan view. The cymbal pad 101 mainly includes a base body 102, a pad 103, and a tapping sensor 104.

  The base body 102 is a component serving as a core material for forming the cymbal pad 101, and is formed by bending a resin material upward in a concave shape and forming an annular plate-like body in plan view. The base body 102 mainly includes a through attachment portion 102a, a planar annular portion 102b, and a curved portion 102c.

  The through attachment portion 102a is a portion where a through portion 111 and pressing tools 114a and 114b of a stand 110, which will be described later, are disposed, and a cymbal pad attachment device 106, which will be described later, is attached thereto. It is formed in a cylindrical shape extending in the vertical direction. The through attachment portion 102 a is formed as a through hole in the center portion of the base body 102 in a plan view. The planar annular portion 102b is a portion that supports a tapping sensor 104, which will be described later, and is formed in a flat annular shape extending in the horizontal direction outside the through attachment portion 102a.

  The curved portion 102c is a portion that supports the pad 103, and is formed in an annular shape outside the planar annular portion 102b. The curved portion 102 c is configured by an inclined surface that is curved in an arc shape so that the outer edge portion side is positioned on the upper end portion side of the stand 110 with respect to the penetrating attachment portion 102 a supported by the stand 110. That is, the curved portion 102c is formed in a spherical shape that is concavely recessed with respect to the upper side by being bent upward from the center portion side to the outer edge portion side of the base body 102.

  The pad 103 is a portion that constitutes a striking surface on which a performer strikes using a stick ST or the like, and is formed by forming an elastic body made of a rubber material or a foamed resin material into an annular shape that covers the upper surface of the base body 102. ing. The pad 103 mainly includes a bow portion 103a and a cup portion 103c.

  The bow portion 103a is a portion that constitutes a part of the striking surface of the cymbal pad 101, and is formed in a spherical shape that is concavely curved upward along the upper surface of the curved portion 102c of the base body 102. That is, the bow portion 103a is curved in an arc shape so that the edge portion 103b side, which is the outer edge portion, is located on the upper end side of the stand 110 with respect to the cup portion 103c side supported by the stand 110, similarly to the curved portion 102c. It is composed of an inclined surface. The bow portion 103a and the edge portion 103b correspond to a bow (ride area) and an edge (crash area) that constitute the hitting surface of the acoustic cymbal. Therefore, the bow part 103a is configured with a radius of approximately 5 cm to 30 cm. Further, the entire inner side surface of the bow portion 103a is attached to the curved portion 102c with a double-sided tape or an adhesive (not shown).

  The cup portion 103c is a portion that forms another part of the striking surface of the cymbal pad 101 together with the bow portion 103a, and a spherical surface that protrudes in a convex shape from the inner end portion of the bow portion 103a toward the center portion of the pad 103. It is formed into a shape. In this case, the height of the cup portion 103c is formed to be lower than the height of the edge portion 103b. The cup portion 103c is formed in a shape that is sufficiently smaller than the bow portion 103a. For example, the cup portion 103c is formed with a size of 1/3 or less of the radius of the bow portion 103a. That is, the cup portion 103c corresponds to a cup that constitutes the hitting surface of the acoustic cymbal.

  In addition, the inner surface of the cup portion 103c facing the flat annular portion 102b is formed with a ring-like projection 103d spaced apart from the flat annular portion 102b. It is formed so as to be in temporary contact with the portion 102b. In addition, as for this cup part 103c, the whole inner surface may contact the plane annular part 102b.

  In this embodiment, the cymbal pad 101 is composed of two kinds of materials, that is, the base body 102 and the pad 103, but only one kind of material, for example, only a resin material or a fiber reinforced plastic containing a resin material. Can also be configured.

  The tapping sensor 104 is a detector that detects the vibration of the cymbal pad 101 due to the player's tapping, and outputs a tapping detection signal composed of an electric signal corresponding to the vibration of the base body 102 to a sound source (not shown) provided outside. In the present embodiment, the tapping sensor 104 is constituted by a piezoelectric element in which electrodes are arranged on both surfaces of a piezoelectric ceramic and a metal plate is arranged on one of these electrodes.

  Here, the sound source is constituted by a microcomputer provided separately from the electronic cymbal 100, and is an electronic circuit that outputs a musical sound signal based on the sum signal of the three hit detection signals output from the hit sensor 104. is there. This sound source is connected to an external speaker (not shown) directly or via an amplifier, and outputs a musical sound signal thereto.

As shown in FIG. 2 , three tapping sensors 104 are provided at equal intervals along the circumferential direction on the lower surface of the planar annular portion 102b of the base body 102 that constitutes the back surface of the cymbal pad 101. Only shown). In this case, each tapping sensor 104 is fixed to the planar annular portion 102b by a double-sided tape or an adhesive (not shown) via a plate-like elastic body. Of course, it is sufficient that at least one hitting sensor 104 is provided, and two or less or four or more hitting sensors 104 may be provided. These three tapping sensors 104 are connected to a phone terminal 105 for outputting a sum signal of each tapping detection signal via a wiring (not shown).

  The phone terminal 105 is a component for outputting a sum signal of three tapping detection signals to an external device such as a sound source (not shown), and a signal cable (not shown) electrically connected to the sound source is detachable. This is a jack-type interface connected to the. The phone terminal 105 is provided in the lower surface cover 115 with the connection portion exposed.

  As shown in FIG. 3, the cymbal pad attaching device 106 is a component for attaching the cymbal pad 101 to the stand 110 in a slidable and detachable state, and an elastic body made of a rubber material or a foamed resin material is used. It is formed in an annular shape in plan view. More specifically, the cymbal pad mounting tool 106 mainly includes a holding portion 106a and a connecting portion 106b.

  The holding portion 106a is a portion that is elastically deformed in a direction orthogonal to the pressing direction, that is, in a radial direction by being pressed by the pressing tools 114a and 114b, and is formed in an annular shape in a plan view. In this case, the holding | maintenance part 106a is formed in the cylindrical shape along the circumferential direction, and the inside is formed in hollow. The holding portion 106 a has an outer diameter smaller than that of the through attachment portion 102 a and an inner diameter larger than that of the through portion 111 in the stand 110. In FIG. 2, the stand 110, the penetrating part 111, the support sleeve 112, the receiving flange part 112 a, and the pressing tools 114 a and 114 b are indicated by two-dot chain lines.

  The connecting portion 106b is a portion for attaching the holding portion 106a to the upper end portion of the through attachment portion 102a on the back surface side of the cymbal pad 101, and has an annular flat plate shape in a plan view protruding from the outer peripheral portion of the holding portion 106a in a flange shape. Is formed. In this case, the connecting portion 106b is configured by arranging two flat ring bodies facing each other in the vertical direction.

  The holding portion 106a and the connecting portion 106b are integrally formed by using compression molding, transfer molding, injection molding, extrusion molding, or the like to integrally form the cymbal pad attachment 106. The cymbal pad attachment 106 is fixedly attached to the upper end portion of the through attachment portion 102a of the base body 102 with a bolt. In this case, in the cymbal pad attachment 106, the holding portion 106a is attached to a concentric position with respect to the through attachment portion 102a.

  The stand 110 is a component for supporting the cymbal pad 101 at a height position desired by the performer, and is configured by movably connecting a plurality of metal rods extending upward with respect to the floor surface. Yes. The stand 110 has a penetrating portion 111 formed at the upper end portion of the rod-like body connected to the cymbal pad 101, and a tripod (not shown) on the lower end portion side of the rod-like body on the installation surface side of the electronic cymbal 100. The electronic cymbal 100 is configured to stand on its installation surface.

  The penetrating portion 111 is a shaft-shaped portion that passes through the inside of the penetrating mounting portion 102 a of the cymbal pad 101 and the holding portion 106 a of the cymbal pad mounting tool 106 and supports the cymbal pad 101 via the cymbal pad mounting tool 106. is there. A male screw is formed on the outer peripheral portion of the shaft-like body in the through-hole 111, and a support sleeve 112 is slidably fitted to the outer peripheral portion of the male screw and the support sleeve 112 is A tightening nut 113 is screwed into the upper male screw portion. Note that the stand 110 only needs to hold the cymbal pad 101 at a position where the performer performs, and for example, the stand 110 may be configured by a single rod that stands up from the installation surface.

  The support sleeve 112 is a component for preventing the cymbal pad mounting tool 106 and the pressing tools 114a and 114b from coming into direct contact with the penetrating portion 111, and is configured by forming a resin material into a cylindrical shape. The outer peripheral portion of the support sleeve 112 is formed to have an outer diameter equal to or smaller than a size (for example, an outer diameter that is the same as or slightly larger than the inner diameter of the holding portion 106a) to which the holding portion 106a of the cymbal pad attachment 106 is fitted. ing. In the present embodiment, the outer diameter of the support sleeve 112 is smaller than the inner diameter of the holding portion 106a.

  In addition, a receiving flange portion 112a is formed at one end (downward in the drawing) of both end portions in the outer peripheral portion of the support sleeve 112 in a state of protruding radially outward in a flange shape, and this receiving flange portion 112a. Thus, the pressing tool 114a is formed to be supported from below in the figure. On the other hand, the inner periphery of the support sleeve 112 is formed so as to be slidable with respect to the through portion 111.

  The support sleeve 112 is configured such that the portion of the cymbal pad attachment 106 where the holding portion 106a is fitted is elastically deformed radially inward by compression due to elastic deformation of the holding portion 106a. The tightening nut 113 is a part that is screw-fitted to a male screw formed in the through-hole 111, and is configured by forming a female screw on the inner peripheral surface of a metal cylinder, and the outer surface is gripped. It is formed in a plate shape that is easy to do.

  The pressing tools 114a and 114b are parts for squeezing and holding the holding portion 106a of the cymbal pad mounting tool 106 from both sides in the vertical direction in the figure to extend in the radial direction, and are formed by forming a felt material into a cylindrical shape. Has been. In this case, the pressing tools 114a and 114b are formed so that the inner diameter is substantially the same as the outer diameter of the support sleeve 112 and slidably fit to the outer peripheral surface of the support sleeve 112, and the outer diameter is the through-mounting portion. It is smaller in diameter than 102a and is formed in the same size as the outer diameter of the receiving flange portion 112a of the support sleeve 112.

  The lower surface cover 115 is a component that is attached to the lower surface of the base body 102 and covers the flat annular portion 102b and the tapping sensor 104 attached to the flat annular portion 102b, and accommodates the phone terminals 105. And formed into a cylindrical shape. The lower surface cover 115 is attached to the lower surface of the base body 102 by mounting bolts (not shown).

(Operation of electronic cymbal 100)
Next, the operation of the electronic cymbal 100 configured as described above will be described. First, the performer attaches the electronic cymbal 100 to the stand 110. Specifically, the performer fits the pressing sleeve 114 a on the outer peripheral surface of the support sleeve 112 after fitting the support sleeve 112 to the penetrating portion 111 of the stand 110 erected on the installation surface. Next, the performer inserts the pressing tool 114 b in the outer peripheral surface of the support sleeve 112 after penetrating the penetrating mounting part 102 a of the cymbal pad 101 through the holding part 106 a of the cymbal pad mounting tool 106. In other words, the performer places the cymbal pad 101 on the support sleeve 112 in a state where the holding portion 106a of the cymbal pad mounting tool 106 is sandwiched between the two pressing tools 114a and 114b.

  Then, the performer tightens the tightening nut 113 by screwing it into the penetrating portion 111. Thereby, since the holding part 106a is sandwiched and pressed on the axial direction of the penetrating part 111 by the two pressing tools 114a and 114b, the inner peripheral part of the holding part 106a is on the penetrating part 111 side. The support sleeve 112 is pressed along the circumferential direction to elastically deform the inner peripheral surface of the support sleeve 112 toward the penetrating portion 111 side.

  In this case, the performer can adjust the force with which the support sleeve 112 presses the penetrating portion 111 according to the tightening condition of the tightening nut 113. Thus, the performer can selectively set the degree of sliding resistance that the cymbal pad 101 rotates and slides on the stand 110 according to the tightening condition of the tightening nut 113, or the state in which the cymbal pad 101 cannot rotate and slide. it can. Then, the performer electrically connects the phone terminal 105 and the sound source via a signal cable (not shown) so that the electronic cymbal 100 can be played.

  The cymbal pad 101 may be supported by the stand 110 in a horizontal posture in which the radial direction of the cymbal pad 101 is orthogonal to the vertical direction, or the radial direction of the cymbal pad 101 is inclined with respect to the vertical direction. Thus, the stand 110 may be supported in a posture inclined toward the performer.

  Next, the performer plays the electronic cymbal 100. Specifically, the performer strikes the pad 103 constituting the upper surface of the cymbal pad 101 using a stick ST extending in a bar shape. In this case, since the cymbal pad 101 is configured with an inclined surface in which the bow portion 103a is concavely curved from the inside in the radial direction toward the outside, the shoulder portion S, which is the central portion of the stick ST, is in line contact with the bow portion 103a. It is possible to prevent hitting with a hit line.

  Further, since the bow portion 103a is formed in a concave shape on the upper side, when the player strikes the stick ST, the stick ST is difficult to slide in the circumferential direction (see the broken line arrow in FIG. 1) with respect to the strike point. Can also be stabilized. Further, the bow part 103a faces the performer because the part opposite to the performer is inclined toward the performer, so that it is easy to strike a part of the bow part 103a far from the performer and the performer. It is also possible to suppress hitting the bow portion 103a by mistake when hitting the edge portion 103b far from the head.

  Further, when the performer strikes the edge portion 103b which is the outer edge portion of the bow portion 103a or the cup portion 103c formed on the inner side with the stick ST, the chip which is the bulging portion of the tip portion of the stick ST. Since the portion C is struck, it is possible to prevent the edge portion 103b and the cup portion 103c from being struck by the line.

  In such a performance process, when the bow part 103 a and the cup part 103 c in the pad 103 are struck, the vibration generated in the pad 103 is mainly transmitted directly to the base body 102 in close contact with the pad 103. Detected by the tapping sensor 104. Thereby, the tapping sensor 104 outputs a detection signal corresponding to the vibration propagated through the pad 103 and the base body 102 to the sound source via the phone terminal 105. Thus, the sound source generates a musical sound signal representing a musical sound based on the detection signal composed of the sum signal input from the tapping sensor 104 and outputs the musical sound signal to an external speaker. As a result, the electronic cymbal 100 can output a musical sound according to the performance operation of the performer from the external speaker.

  When the performer finishes playing the electronic cymbal 100, the performer removes the electronic cymbal 100 from the stand 110 after disconnecting the electrical connection between the electronic cymbal 100 and the sound source. Thus, the performer can end the performance of the electronic cymbal 100.

  As can be understood from the above operation description, according to the first embodiment, the electronic cymbal 100 is an edge that is on the outer edge side of the cymbal pad 101 with respect to the cup portion 103c side where the pad 103 is supported by the stand 110. The shoulder S portion of the stick ST is a line when it is struck with the stick ST because it is formed in an inclined surface so that the portion 103b side is the upper end portion side of the stand 110 and is recessed upward. It is possible to prevent hitting, and it is possible to improve the feeling of performance by preventing the occurrence of excessive hitting sound due to this line hit. Further, according to the electronic cymbal 100 of the present invention, since the pad 103 is formed in a concave shape, when the pad 103 is struck, it becomes difficult for the stick ST to slide to the outside of the struck point. It can also be made.

(Second Embodiment)
Next, a second embodiment of the electronic cymbal according to the present invention will be described with reference to FIG. In the description of the second embodiment, portions different from those of the first embodiment will be mainly described, common portions are denoted by common reference numerals, and description thereof will be omitted as appropriate. The electronic cymbal 200 according to the second embodiment is different from the electronic cymbal 100 according to the first embodiment in that it includes a cymbal pad 120 in which the shape of the outer edge portion of the cymbal pad 101 is different.

  Specifically, as shown in FIG. 4, the cymbal pad 120 includes a flat outer edge portion 121 that extends outwardly along the outer edge portion of the inclined surface on the outer side of the bow portion 103 a formed of the inclined surface. Has been. In this case, the planar outer edge portion 121 is formed by covering the planar support portion 123 formed at the outer edge portion of the base body 122 so that the edge portion 124a of the pad 124 is wound. Further, the planar outer edge portion 121 is formed such that the radial width is sufficiently smaller than the radial width of the bow portion 103a. The plane support 123 is formed in a flat plate ring shape in which the outer edge portion of the base body 122 extends in a plane orthogonal to the axial direction of the penetrating portion 111 of the stand 110.

  According to the thus-configured electronic cymbal 200, the cymbal pad 120 has the planar outer edge portion 121 extending outwardly along the outer edge portion of the bow portion 103a on the outer side of the bow portion 103a. It is possible to easily perform edge performance in which the outer edge portion of the cymbal pad 101 is hit. That is, the planar outer edge portion 121 is an aspect of the configuration of the edge portion 103b. In FIG. 4, the stand 110, the penetrating portion 111, the support sleeve 112, the receiving flange portion 112 a, and the pressing tools 114 a and 114 b are indicated by two-dot chain lines.

(Third embodiment)
Next, a third embodiment of the electronic cymbal according to the present invention will be described with reference to FIGS. In the description of the third embodiment, portions different from the first embodiment will be mainly described, and common portions will be omitted as appropriate. The electronic cymbal 300 according to the third embodiment is different from the electronic cymbal 100 according to the first embodiment in that it includes a cymbal pad 130 in which the shape of the outer edge portion of the cymbal pad 101 is different.

  Specifically, for example, as shown in FIGS. 6 and 7, the cymbal pad 130 is a convex extending outwardly in a conical shape along the outer edge portion of the inclined surface outside the bow portion 103 a formed of the inclined surface. A conical surface outer edge portion 131 can be provided. That is, the convex cone surface outer edge portion 131 is an annular conical surface extending on the opposite side (downward in the drawing) from the upper end portion of the through portion 111 with respect to a plane orthogonal to the axial direction of the through portion 111 of the stand 110. Is formed. In this case, the convex cone surface outer edge portion 131 is formed by covering the cone surface support portion 133 formed at the outer edge portion of the base body 132 so that the edge portion 134 a of the pad 134 is wound around.

  Moreover, the convex cone surface outer edge portion 131 is formed such that the radial width is sufficiently smaller than the radial width of the bow portion 103a. The conical surface support portion 133 is formed in an annular shape in which the outer edge portion of the base body 132 is linearly or curved along the radial direction, and the tapping sensor 135 is provided on the surface facing the edge portion 134a. It has been. In FIG. 6, the stand 110, the penetrating part 111, the support sleeve 112, the receiving flange part 112 a, and the pressing tools 114 a and 114 b are indicated by two-dot chain lines.

  As shown in FIG. 8, the tapping sensor 135 is a detector that detects the tapping of the convex cone surface outer edge portion 131 by the player and outputs a tapping detection signal to the phone terminal 105, and follows the cone surface support portion 133. And is formed in a sheet shape extending in a substantially C shape. In this case, the tapping sensor 135 is intermittently formed with a notch 135a formed of a long hole-shaped through hole along the circumferential direction in an intermediate portion in the width direction. In other words, the tapping sensor 135 is provided twice in the radial direction of the cymbal pad 130. The tapping sensor 135 can be constituted by a piezo film alone or by attaching a piezo film to an insulating resin film.

  Thus, the operator who assembles the electronic cymbal 300 should be provided in a state in which the tapping sensor 135 is maintained in the annular shape while suppressing the occurrence of bending or wrinkles when the tapping sensor 135 is attached to the installation surface on the base body 132. Can do.

  Two pressing protrusions 136a and 136b and an intermediate protrusion 137 are formed on the inner surface of the edge portion 134a of the pad 134 facing the tapping sensor 135, respectively. The pressing protrusions 136a and 136b are portions for pressing the inner portion and the outer portion of the tapping sensor 135 with respect to the notch portion 135a, respectively, are annular in the circumferential direction of the edge portion 134a, and have a trapezoidal cross-sectional shape. And projecting toward the conical surface support portion 133.

  The intermediate projection 137 prevents the tapping sensor 135 from being pressed when one of the pressing projection 136a and the pressing projection 136b presses the tapping sensor 135 when the convex cone surface outer edge 131 is tapped during performance. Is a portion between the pressing protrusion 136a and the pressing protrusion 136b, and has an annular shape along the circumferential direction of the edge portion 134a and a semicircular cross-sectional shape and protrudes toward the conical surface support portion 133. Is formed.

  Further, the bent portion 138 formed at the boundary portion between the bow portion 103a and the edge portion 134a in the pad 134 is above the conical surface support portion 133 in the base body 132, that is, the curved portion 102c and the conical surface support in the base body 132. It is formed outside the bent portion 139 at the boundary portion with the portion 133. Thereby, in the electronic cymbal 300, when the player strikes the bent portion 138, the pressing protrusion 136a can surely press the tapping sensor 135. Further, the electronic cymbal 300 can be configured such that the bent portion 138 is a part of the hitting surface, and the player feels that the hitting feeling is different from the bow portion 103a, the cup portion 103c, or the convex cone surface outer edge portion 131. A striking surface that gives The bent portion 138 may be formed at a position overlapping the bent portion 139 directly above the bent portion 138, or may be formed inside the bent portion 139.

  A tapping sensor 140 is provided on the planar annular portion 102b of the base body 132. The tapping sensor 140 is formed of a sheet body made of an annular piezo film that detects tapping of the cup portion 103 c by the player, and is electrically connected to the phone terminal 105. In this case, the sound source connected to the phone terminal 105 includes the bow portion 103a, the cup portion 103c, and the convex shape in which the cymbal pad 130 is struck according to the strength and ratio of the struck by the tapping sensor 135 and the tapping sensor 140, respectively. The outer edge 131 of the conical surface is discriminated and a musical sound corresponding to each hitting position is generated.

  According to the thus-configured electronic cymbal 300, the cymbal pad 130 has the convex cone surface outer edge portion 131 that extends downward in the shape of the cone surface along the outer edge portion of the bow portion 103a outside the bow portion 103a. Therefore, it is possible to easily perform edge performance in which the outer edge portion of the cymbal pad 130 is hit. In this case, in the electronic cymbal 300, since the intermediate protrusion 137 is formed on the edge part 134a, both the pressing protrusions 136a and 136b simultaneously press the tapping sensor 135 when the convex cone surface outer edge part 131 is struck. This can be prevented, and output of an excessive tapping detection signal can be prevented.

  In the electronic cymbal 300, the convex conical surface outer edge portion 131 is formed directly outside the bow portion 103a in the cymbal pad 130, but the convex shape is formed outside the bow portion 103a in the cymbal pad 130 via the planar outer edge portion 121. The conical surface outer edge part 131 can also be formed indirectly.

  Further, although the tapping sensor 135 is configured by electrically integrating a double piezo film in the radial direction of the cymbal pad 130, it may be configured in a single ring (that is, single) in the radial direction of the cymbal pad 130. Good. In addition, the tapping sensor 135 can be configured by providing three or more piezo films in the radial direction and electrically or integrally forming these piezo films. In addition, when the tapping sensor 135 is configured by electrically separating two or more piezo films in the radial direction of the cymbal pad 130, the type and pitch of the musical sound generated depending on the tapping position of the convex cone surface outer edge 131. Or the volume can be changed.

  Of course, such a tapping sensor 135 may be provided at the edge portion 103b in the first embodiment or the planar outer edge portion 121 in the second embodiment. Further, the tapping sensor 135 can be applied to a conventional electronic cymbal, that is, a spherical cymbal pad that curves upwardly. The tapping sensors 104, 135, and 140 only need to be configured by a detector that can detect tapping of the cymbal pad 101. For example, a detector other than a piezo element or a piezo film, such as a pressure-sensitive sheet sensor or sheet. It can also be configured with a switch or the like.

  Further, the implementation of the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the object of the present invention.

  For example, in the first embodiment, the cymbal pad 101 includes the bow portion 103a and the cup portion 103c. However, the cymbal pad 101 only needs to be configured to have at least the bow portion 103a, and can be configured by only the bow portion 103a without the cup portion 103c.

  The following modifications will be described as modifications to the first embodiment, but can be similarly applied to the second and third embodiments.

  For example, in the first embodiment, the cymbal pad 101 is formed in a concave curved surface with the bow portion 103a hanging from the stand 110 side to the edge portion 103b which is the outer edge portion. As a result, the cymbal pad 101 can be prevented from hitting the line when hitting with the stick ST, as compared with the case where the bow part 103a is formed in a straight line that does not bend from the stand 110 side to the edge part 103b. It is possible to improve the feeling of performance by preventing the occurrence of excessive tapping sound. However, the cymbal pad 101 may be formed in a straight line in which the bow part 103a is not bent when it is hung from the stand 110 side to the edge part 103b, or may have a curved part and a straight part.

  In the first embodiment, the cymbal pad 101 is circular in plan view. However, the cymbal pad 101 may be formed in a shape other than a circle in a plan view, for example, a fan shape in a plan view.

  In the first embodiment, the tapping sensor 104 is disposed at a position facing the cup portion 103 c of the cymbal pad 101. However, the tapping sensor 104 only needs to be arranged so that the tapping of the cymbal pad 101 by the player can be detected. Therefore, for example, the tapping sensor 104 can be formed at a position facing at least one of the bow portion 103a and the edge portion 103b of the cymbal pad 101 instead of or in addition to the cup portion 103c. Further, in these cases, the tapping sensor 104 can be formed in an annular shape along the circumferential direction of the cymbal pad 101 in addition to a disk shape in plan view.

  In the first embodiment, the cup portion 103c is formed at a height lower than the height of the edge portion 103b. Thereby, the electronic cymbal 100 can reduce the volume when the cymbal pads 101 are stacked or the cymbal pads 101 are accommodated in the box for transportation and storage of the cymbal pads 101. However, the cup portion 103c can be formed at the same height as or higher than the height of the edge portion 103b.

ST ... Stick, S ... Shoulder, C ... Tip
100, 200, 300 ... electronic cymbals,
DESCRIPTION OF SYMBOLS 101 ... Cymbal pad, 102 ... Base body, 102a ... Through attachment part, 102b ... Planar annular part, 102c ... Curved part, 103 ... Pad, 103a ... Bow part, 103b ... Edge part, 103c ... Cup part, 103d ... Projection, 104 ... tapping sensor, 105 ... phone terminal, 106 ... cymbal pad fixture, 106a ... holding part, 106b ... connecting part,
DESCRIPTION OF SYMBOLS 110 ... Stand, 111 ... Through part, 112 ... Support sleeve, 112a ... Receiving flange part, 113 ... Clamping nut, 114a, 114b ... Pressing tool, 115 ... Bottom cover,
120 ... cymbal pad, 121 ... planar outer edge, 122 ... base body, 123 ... planar support, 124 ... pad, 124a ... edge
130: Cymbal pad, 131: Convex conical surface outer edge, 132: Base body, 133: Conical surface supporting portion, 134: Pad, 134a ... Edge portion, 135: Tapping sensor, 135a ... Notch portion, 136a, 136b ... Press projection, 137 ... intermediate projection, 138 ... bent portion, 139 ... bent portion, 140 ... tapping sensor.

Claims (5)

A cymbal pad having a striking surface struck by the performer;
A tapping sensor for detecting tapping of the cymbal pad;
In an electronic cymbal provided with a stand that extends in a rod shape and supports the cymbal pad,
The cymbal pad is
The striking surface has a bow portion formed of an inclined surface that is inclined upward from the side supported by the stand toward the outer edge portion side of the cymbal pad, and is formed in a recessed shape .
A pad made of an elastic body and constituting the striking surface;
A base body for supporting the pad,
The tapping sensor is
It is formed in a sheet shape extending in an arc shape, and a cutout portion extending along the circumferential direction is intermittently provided in the intermediate portion in the width direction and provided on the base body so as to face the pad,
The pad
An electronic cymbal comprising a pressing protrusion for pressing both sides in the width direction against the notch on the inner surface facing the tapping sensor, and an intermediate protrusion between these pressing protrusions . The electronic cymbal according to claim 1,
The cymbal pad is
An electronic cymbal characterized by having a planar outer edge portion extending outwardly along the outer edge portion of the inclined surface outside the bow portion. In the electronic cymbal according to claim 1 or 2,
The cymbal pad is
An electronic cymbal having a convex conical surface outer edge portion extending in a conical surface downward along the outer edge portion of the inclined surface outside the bow portion. In the electronic cymbal according to any one of claims 1 to 3,

The cymbal pad is
An electronic cymbal characterized in that the striking surface is formed in a concave curved surface . In the electronic cymbal according to any one of claims 1 to 4,
The cymbal pad is
Electronic cymbals, characterized in Rukoto that having a cup portion protruding in a convex shape in the portion of the supported side by the stand in the striking surface.

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