JP2023028666A - panel speaker - Google Patents

Abstract

To provide a panel speaker which vibrates efficiently.SOLUTION: A panel speaker has: a panel; a vibration actuator which vibrates the panel; a bracket disposed between the vibration actuator and the panel; a spacer which faces the bracket across the vibration actuator; and a screw which penetrates the spacer, the vibration actuator, and the bracket so as to fasten the spacer, the vibration actuator, and the bracket to the panel. The bracket and the spacer are both insulators so that the vibration actuator may be electrically insulated from the panel.SELECTED DRAWING: Figure 1

Description

The present invention relates to panel speakers.

There is a display speaker that uses a display as a speaker by vibrating a display panel of the display using an actuator (vibration actuator) using a piezoelectric element. In display speakers, the vibration actuator is attached to the back of the display panel (vibration panel). Thereby, the vibration of the vibration actuator can be transmitted to the display panel.

JP 2010-171927 A

The vibration actuator is attached to the display panel, for example, by metal screws. By using metal screws, the vibration actuator is firmly fixed to the display panel. However, the use of metal screws poses a problem that if the vibration actuator and the display panel are short-circuited, the vibration actuator stops vibrating.

An object of the present invention is to provide a panel speaker that vibrates efficiently.

In order to solve the above problems, the present invention employs the following means.
That is, the first aspect is
a panel;
a vibration actuator for vibrating the panel;
a bracket positioned between the vibration actuator and the panel;
a spacer facing the bracket with the vibration actuator interposed therebetween;
a screw passing through the spacer, the vibration actuator, and the bracket to fasten the spacer, the vibration actuator, and the bracket to the panel;
both the bracket and the spacer are insulators, and the vibration actuator is electrically isolated from the panel;
Make it a panel speaker.

According to the present invention, it is possible to provide a panel speaker that vibrates efficiently.

FIG. 1 is a diagram showing a configuration example of a display speaker 10 according to an embodiment. FIG. 2 is a top view of the display speaker 10 viewed from above. FIG. 3 is a cross-sectional view of the display speaker 10 of FIG. 2 taken along line AA. 4 is an exploded perspective view of bracket 200, vibration actuator 300, and spacer 400. FIG.

Embodiments of the present invention will be described below with reference to the drawings. The configurations of the following embodiments are examples, and the present invention is not limited to the configurations of the embodiments.

Here, a case where the vibration actuator is provided in the display panel (vibration panel) of the display and the display functions as a display speaker will be described. A display speaker is a device that outputs (emits) sound waves from a display panel by vibrating the display panel with a vibration actuator (actuator). A display speaker is an example of a panel speaker. A panel speaker is, for example, a speaker that outputs sound by vibrating a flat panel such as a display panel.

<Embodiment>
(Configuration example)
FIG. 1 is a diagram showing a configuration example of a display speaker 10 of this embodiment. FIG. 1 is a side view of the display speaker 10 viewed from the side. Display speaker 10 includes display panel 100 , bracket 200 , vibration actuator 300 , spacer 400 and screw 500 .

FIG. 2 is a top view of the display speaker 10 viewed from above. In FIG. 2, the spacer 400 and the vibration actuator 300 are shown, and the screws 500 and the like are omitted.

FIG. 3 is a cross-sectional view of the display speaker 10 of FIG. 2 taken along line AA. FIG. 4 is an exploded perspective view of bracket 200, vibration actuator 300, and spacer 400. FIG. In the display speaker 10, the bracket 200, the vibration actuator 300, and the spacer 400 are stacked in this order from the display panel 100 side.

The display panel 100 includes a body portion 110 , a bracket mounting portion 120 and a screw mounting portion 130 . Bracket 200 includes main body portion 210 , leg portion 220 and projection portion 230 . The vibration actuator 300 includes a diaphragm 310, a piezoelectric element 320 attached to the surface of the diaphragm 310 on the display panel side (referred to as the first surface), and a surface opposite to the first surface of the diaphragm 310 (the second surface). ) includes a piezoelectric element 330 that is affixed to the The display speaker 10 is arranged in the order of the display panel 100 , the bracket 200 , the vibration actuator 300 and the spacer 400 and fixed by screws 500 . A plurality of brackets 200 , vibration actuators 300 , spacers 400 and screws 500 may be attached to one display panel 100 . Here, the direction from right to left in FIG. 1 is the x direction, the direction from the front to the back of the paper in FIG. 1 is the y direction, and the direction from the bottom to the top of FIG. direction. The positional relationship between the display speaker 10 and the x-, y-, and z-directions is the same in other drawings. Assume that the screw 500 is mounted parallel to the z-direction. Display panel 100 is an example of a panel.

The display panel 100 includes a body portion 110 , a bracket mounting portion 120 and a screw mounting portion 130 . It is assumed that the display panel 100 is of conductive metal and is grounded. The main body 110 is a plate-like member that serves as the diaphragm of the display speaker 10 . Bracket attachment portion 120 is a recess to which leg portion 220 of bracket 200 is attached. The shape of the bracket attachment portion 120 is a hole matching the shape of the leg portion 220 of the bracket 200 . The bracket attachment part 120 prevents the bracket 200 from rotating in the z-direction by fitting the leg part 220 of the bracket 200 thereon. The screw attachment portion 130 is a fixed shaft to which the screw 500 is fixed. The screw mounting portion 130 has a threaded hole for fixing the screw 500 . The screw 500 is mounted parallel to the z-direction by the screw mount 130 . screw mounting part 13
0 protrudes toward the vibration actuator 300 from the plane of the main body 110 on the vibration actuator 300 side. The screw attachment portion 130 may not protrude from the plane of the body portion 110 on the vibration actuator 300 side. The display panel 100 is a display panel included in a liquid crystal display, an organic EL (Electro-Luminescence) display, or the like.

Bracket 200 includes main body portion 210 , leg portion 220 and projection portion 230 . Bracket 200 may include a plurality of legs 220 and a plurality of protrusions 230 . In the example of FIG. 1 and the like, the bracket 200 has two legs 220 and two projections 230 . Bracket 200 transmits vibration of vibration actuator 300 to display panel 100 . Bracket 200 is an insulator. Bracket 200 is, for example, resin. The main body 210 of the bracket 200 is, for example, a columnar body and has upper and lower surfaces substantially parallel to each other. The upper surface contacts the vibration actuator 300 and the lower surface contacts the display panel 100 . The shape of the upper surface may be different from the shape of the lower surface. The body portion 210 has a screw through hole through which the screw 500 is passed between the upper surface and the lower surface. The diameter of the screw through hole is larger than the diameter of the shaft of the screw 500 on the vibration actuator 300 side, and larger than the outer diameter of the screw mounting portion 130 of the display panel 100 on the display panel 100 side. be. The legs 220 extend from the lower surface of the main body 210 toward the display panel 100 . The leg part 220 has a shape to be fitted to the bracket mounting part 120 of the display panel 100 . The leg portion 220 is, for example, a columnar shape such as a cylinder or a square column. The protrusion 230 extends from the upper surface of the main body 210 toward the vibration actuator 300 . The protruding portion 230 is, for example, a columnar shape such as a cylinder or a square column. The protrusion 230 passes through the protrusion through hole of the vibration plate 310 of the vibration actuator 300 and is fitted into the protrusion hole of the spacer 400 corresponding to the protrusion 230 . In the example shown in FIG. 1 and the like, the distance from each protrusion 230 to the screw through hole (center) is the same. In addition, in the example of FIG. 1, the two protrusions 230 and the screw through holes are present on the upper surface of the body portion 210 of the bracket 200 on a straight line parallel to the x direction. That is, the two protrusions 230 are provided at symmetrical positions with the screw 500 as the center. A diaphragm 310 of the vibration actuator 300 is coupled to the display panel 100 through the bracket 200 . The shape of the upper surface of the main body part 210 is, for example, a rectangle.

The vibration plate 310 of the vibration actuator 300 is a rectangular plate-like member and has a front surface (first surface) and a back surface (second surface) in a direction perpendicular to the thickness direction. The planar shape of diaphragm 310 may be circular or elliptical. Further, the shape of the diaphragm 310 in plan view may be any other shape as long as it is bilaterally symmetrical and vertically symmetrical. The front surface is approximately parallel to the back surface. Also, the central portion of the diaphragm 310 (the portion including the center of the first surface, the central portion in plan view) is exposed through the opening of the piezoelectric element 320 . Here, when the diaphragm 310 has a rectangular shape, the center of the first surface (second surface) of the diaphragm 310 is the intersection of two diagonal lines of the rectangle. Also, when the diaphragm 310 has a circular or elliptical shape, the center of the first surface (second surface) of the diaphragm 310 is the center of the circle or ellipse. Even if the diaphragm 310 has another shape, the center of the first surface (second surface) of the diaphragm 310 can be defined by, for example, the center of gravity. Diaphragm 310 is a conductor (eg, metal). Further, diaphragm 310 is arranged such that the surface of diaphragm 310 is substantially parallel to the rear surface of display panel 100 .

The piezoelectric elements 320 and 330 are elements that deform in shape according to the voltage applied. The piezoelectric elements 320 and 330 are elements made of a plate-shaped material such as ceramic that exhibits a piezoelectric effect. Electrodes for applying voltage are attached to the piezoelectric elements 320 and 330 . The piezoelectric element 320 is attached to the first surface of the diaphragm 310 . The piezoelectric element 330 is attached to the second surface of the diaphragm 310 . Since the diaphragm 310 is a conductor, the diaphragm 310 serves as one electrode of the piezoelectric element 320 and one electrode of the piezoelectric element 330 . The piezoelectric element 320 has an opening so that the central portion of the diaphragm 310 is exposed when viewed from the first surface side. Further, a through-hole for a screw through which the screw 500 is passed is present in the central portion of the diaphragm 310 . The diameter of the screw through hole is larger than the diameter of the shaft of the screw 500 so as not to contact the screw 500 . Since the screws 500 and the diaphragm 310 do not contact each other, the diaphragm 310 and the display panel 100 are not electrically short-circuited. Further, around the screw through holes in the central portion of the diaphragm 310, there are protrusion through holes through which the protrusions 230 of the bracket 200 are passed. The diameter of the projection through hole is larger than the diameter of the projection 230 . The protrusion 230 and the protrusion through-hole may contact each other. The positions of the projection through-holes are aligned with the positions of the projections 230 of the bracket 200 . Diaphragm 310 has a portion (exposed portion) exposed at the central portion of the first surface of diaphragm 310 through the opening of piezoelectric element 320 . The upper surface of main body portion 210 of bracket 200 is in contact with the opening. The opening is larger than the upper surface of main body 210 of bracket 200 . At this time, the piezoelectric element 320 and the bracket 200 do not come into contact with each other. The piezoelectric element 330 has an opening so that the central portion of the diaphragm 310 is exposed when viewed from the second surface side. Diaphragm 310 has a portion (exposed portion) exposed at the central portion of the second surface of diaphragm 310 through the opening of piezoelectric element 330 . The through holes for screws and the through holes for protrusions are present in the exposed portion. In the example shown in FIG. 1 and the like, the distances from each projection through-hole to the screw through-hole (center) are equal. In addition, in the examples such as FIG. 1 , the two protrusion through holes and the two screw through holes are present on a straight line parallel to the x-direction. That is, the two protrusion through-holes are provided at symmetrical positions with the screw 500 as the center. The lower surface of the spacer 400 contacts the opening. The opening is larger than the lower surface of spacer 400 . At this time, the piezoelectric element 330 and the spacer 400 do not come into contact with each other. The piezoelectric element 330 does not have to be attached to the diaphragm 310 . The first and second surfaces are on planes parallel to the xy plane.

The opening of the piezoelectric element 320 may be rectangular (square), circular, elliptical, or the like according to the shape of the bracket 200 . In order to increase the area of the piezoelectric element 320, it is desirable to make the size of the opening of the piezoelectric element 320 as small as possible. By increasing the area of the piezoelectric element 320, the output (maximum output) of the display speaker 10 can be increased. Also, when the vibration actuator 300 is viewed from the first surface side, the outer edge of the piezoelectric element 320 is preferably inside the edge of the vibration plate 310 . If the outer edge of the piezoelectric element 320 is outside the edge of the diaphragm 310, the piezoelectric element 320 is susceptible to damage. The same applies to the piezoelectric element 330 attached to the second surface of the diaphragm 310 .

Spacer 400 is a member sandwiched between the head of screw 500 and diaphragm 310 of vibration actuator 300 . Spacer 400 is an insulator. The spacer 400 is, for example, resin. The material of spacer 400 is preferably the same as that of bracket 200 . Moreover, it is preferable that the elastic modulus of the spacer 400 and the elastic modulus of the bracket 200 are equal. The spacer 400 is, for example, a columnar object and has upper and lower surfaces substantially parallel to each other. The upper surface contacts the lower portion of the head of the screw 500 and the lower surface contacts the diaphragm 310 . The area of the upper surface and the area of the lower surface may be different. The spacer 400 has a screw through hole through which the screw 500 is passed between the upper surface and the lower surface. The diameter of the screw through hole is smaller than the diameter of the head of the screw 500 and larger than the diameter of the shaft of the screw 500 . It is preferable that the diameter of the through holes for screws in the spacer 400 and the diameter of the through holes for screws in the bracket 200 are equal.

Moreover, the spacer 400 has a protrusion hole through which the protrusion 230 of the bracket 200 is passed on its lower surface. The protrusion hole may be a through hole that penetrates from the lower surface to the upper surface, or a non-through hole that does not penetrate. The protrusion hole is a hole into which the protrusion 230 is fitted. The diameter of the protrusion hole is larger than the diameter of the protrusion 230 . The protrusion 230 and the protrusion hole may contact each other. The positions of the protrusion holes are aligned with the positions of the protrusions 230 of the bracket 200 . Here, the upper surface of the main body portion 210 of the bracket 200 has the projection 230, and the lower surface of the spacer 400 has the projection hole corresponding to the projection 230. However, the spacer 400 has the projection on the lower surface. , the upper surface of the body portion 210 of the bracket 200 may have a hole for a protrusion. Also, the upper surface of the main body portion 210 of the bracket 200 and the lower surface of the spacer 400 may each have a protrusion and a hole for the protrusion. In the examples such as FIG. 1, the distance from each protrusion hole to the screw through hole (center) is the same. In addition, in the examples such as FIG. 1, the two protrusion holes and the two screw through holes are present on a straight line parallel to the x-direction. That is, the two protrusion holes are provided at symmetrical positions with the screw 500 as the center.

The screw 500 passes through the screw through hole of the spacer 400 , the screw through hole of the vibration plate 310 of the vibration actuator 300 , the screw through hole of the main body 210 of the bracket 200 , in this order, and the screw mounting portion of the display panel 100 . 130 threaded holes. Thereby, spacer 400 , vibration actuator 300 and bracket 200 are fixed to display panel 100 . Moreover, since the screw 500 and the diaphragm 310 do not contact each other and the bracket 200 is an insulator, the display panel 100 and the diaphragm 310 are not electrically short-circuited. As a result, the voltage is normally applied to the piezoelectric elements 320 and 330 even when the diaphragm 310 is not grounded. A bolt and nut may be used in place of screw 500 .

Here, it is assumed that flexural vibration is occurring in which the x direction of the diaphragm 310 forms a bow in the z direction. That is, it is assumed that voltages applied to the piezoelectric elements 320 and 330 cause flexural vibration in which the x direction of the diaphragm 310 forms a bow in the z direction. At this time, flexural vibration propagates in the x direction of the diaphragm 310 . At this time, as shown in FIG. 1 and the like, a plurality of protrusions 230 are provided in a direction along the direction in which the flexural vibration of diaphragm 310 propagates. The same applies to the projection through hole of the diaphragm 310 and the projection hole of the spacer 400 . That is, the protrusion 230 of the bracket 200, the protrusion through hole of the vibration plate 310 of the vibration actuator 300, and the protrusion hole of the spacer 400 pass through the center of the screw 500 in the x direction when viewed from the z direction. It exists on parallel straight lines. By fixing at more positions in the propagation direction of the flexural vibration, the vibration modes are dispersed, and the vibration of the diaphragm 310 can be transmitted to the display panel 100 more efficiently over a wide band. In the examples such as FIG. 1, the distances of the two protrusions 230 from the screw through hole are the same. Thereby, the vibration actuator 300 can vibrate the display panel 100 evenly. In the example of FIG. 1 , two protrusions 230, two protrusion through holes, and two protrusion holes are provided. The vibration actuator 300 may be fixed by a through-hole for a portion and two or more holes for a projection portion. The projection 230 of the bracket 200 passes through the projection through hole of the diaphragm 310 and is fitted into the projection hole of the spacer 400 . By fixing the vibration actuator 300 with the protrusion 230 or the like, it is possible to suppress the rotation of the vibration actuator 300 about the z-direction (screw 500) as the rotation axis. Also, when viewed from the z-direction, two protrusions 230 and the like are arranged on a straight line that passes through the center of the screw 500 and is parallel to the x-direction so that the distances from the center of the screw 500 are equal. , the vibration of the diaphragm 310 can be evenly and efficiently transmitted to the display panel 100 .

(Action and effect of embodiment)
The display speaker 10 of this embodiment has a display panel 100 , brackets 200 , vibration actuators 300 , spacers 400 and screws 500 . Vibration actuator 300 has diaphragm 310 , piezoelectric element 320 , and piezoelectric element 330 . Bracket 200 , vibration actuator 300 and spacer 400 are fixed to display panel 100 with screws 500 . The screw 500 is passed through the screw through hole of the bracket 200 , the screw through hole of the vibration actuator 300 , and the screw through hole of the spacer 400 . Since the diaphragm 310 and the screw 500 are not in contact with each other, an electrical short circuit between the display panel 100 and the diaphragm 310 can be avoided. The upper surface of bracket 200 and the lower surface of spacer 400 face each other with diaphragm 310 interposed therebetween. Moreover, the bracket 200 has the protrusion 23
have 0. The protrusion 230 passes through the protrusion through hole of the diaphragm 310 and is fitted into the protrusion hole on the lower surface of the spacer 400 . This can suppress rotation of the vibration actuator 300 around the axis of the screw 500 . That is, the position of the vibration actuator 300 can be reliably fixed. Also, the positions of the two protrusions 230 of the bracket 200 are the same distance from the screw through hole (center position). The projection 230 of the bracket 200, the projection through hole of the vibration plate 310 of the vibration actuator 300, and the projection hole of the spacer 400 pass through the center of the screw 500 and are parallel to the x direction when viewed from the z direction. exist on a straight line. This allows the vibration actuator 300 to vibrate evenly. The display speaker 10 can vibrate the display speaker 10 efficiently by uniformly vibrating the vibration actuator 300 . In addition, the display speaker 10 can output high-quality sound by uniformly vibrating the vibration actuator 300 .

Although the embodiments of the present invention have been described above, these are merely examples, and the present invention is not limited to these. Various modifications are possible.

REFERENCE SIGNS LIST 10 display speaker 100 display panel 110 main body 120 bracket attachment 130 screw attachment 200 bracket 210 main body 220 leg 230 protrusion 300 vibration actuator 310 diaphragm 320 piezoelectric element 330 piezoelectric element 400 spacer 500 screw

Claims (3)

a panel;
a vibration actuator for vibrating the panel;
a bracket positioned between the vibration actuator and the panel;
a spacer facing the bracket with the vibration actuator interposed therebetween;
a screw passing through the spacer, the vibration actuator, and the bracket to fasten the spacer, the vibration actuator, and the bracket to the panel;
both the bracket and the spacer are insulators, and the vibration actuator is electrically isolated from the panel;
panel speaker. One of the bracket and the spacer has a projection, the other of the bracket and the spacer has a projection hole into which the projection is fitted, and the vibration actuator is a projection through which the projection penetrates. having a through hole for
A panel speaker according to claim 1. One of the bracket and the spacer has two protrusions, the other of the bracket and the spacer has two protrusion holes into which the two protrusions are respectively fitted, and the vibration actuator is the Having two projection through holes through which the projection penetrates,
The two protrusions, the two protrusion holes, and the two protrusion through-holes are each provided in a direction along the propagation direction of the flexural vibration of the diaphragm, and centered on the screw. provided at symmetrical positions,
A panel speaker according to claim 1.

Images