This application claims priority to U.S. Provisional Application Ser. No. 61/802,122 titled “Toy Piano” filed Mar. 15, 2013, the same being incorporated herein by reference.
My invention pertains generally to the design of baby grand and upright toy pianos, more particularly to toy pianos utilizing tines in sound production. Even more specifically, my invention deals with improvements to the mounting of tines on sound boards and other improvements to toy pianos that act to multiply and improve the quality of sound produced.
The essential parts of a toy piano are the same in both the baby grand and the upright version of the toy piano. Overall the piano has a predetermined shape created by joining a plurality of planar side forming members including a bottom member and a plurality of side members, which side members include a back side member, a front side member, and lateral side members. The lateral side members are generally secured to the bottom side of the piano. The two lateral side members, a back side member and a front side member form an enclosure around the interior components of the piano.
Fixed within the interior of the enclosure that is formed will, in most toy pianos, be a sound board that assists in producing musical tones when the toy piano is played. A plate or protective covering may be placed above the sound board to protect the sound board. Over the top of the protective plate will be the top member which forms the top surface of the piano/enclosure. The top member will mate with the lateral side members, back side member and front side member of the piano to complete the enclosure that houses the sound board. These sides will be constructed from pre-sized pieces to fit a variety of pianos that will be connected by a connector of some type.
On the front of the piano will be a set of keys, both white and black, by which the toy piano can be played. Toy pianos are generally smaller than a typical piano and usually have around eighteen to forty-nine keys although there are some variations. A front member that forms part of the enclosure that houses the sound board will be placed perpendicular to the keys and will usually be connected to the bottom surface of the piano.
Generally speaking, a sound board is the surface of a stringed instrument adjacent to the strings. The strings vibrate against the soundboard, usually via some sort of bridge support which acts as a conductor for the vibrations produced by the string. The resonant properties of the sound board serve to greatly increase the volume of the tone produced by the vibrations of the string. In short, the sound board (being connected to the string via the bridge) is forced to vibrate at the same frequency as the string, producing the same sound as the string alone, but differing in timbre. Due to the greater surface area of the sound board, it is able to more readily transform the vibrations of the string into sound as it is in contact with (and vibrates) a larger volume of air, thereby producing a louder sound.
In a piano, the sound board is usually a large horizontal plate at the bottom of the case. In an upright piano, the sound board is a large vertical plate at the back of the instrument. However, rather than strings being struck by a hammer actuated by a piano key, toy pianos—as originally and classically produced—use metal plates or tines. In most modem toy pianos, these are connected to a soundboard. The tines act like chimes, producing a musical tone when struck by the hammer. However, as the toy piano, the tines producing its musical tones, and its sound, board are far smaller than equivalent parts on a real piano, sound production of adequate volume and quality remains a distinct problem. In addition, the usual mode of mounting the tines to the sound board of a toy piano act to dampen and/or even eliminate vibration of its adjacent sound board (when one is present). Finally, neither pianos nor toy pianos have sought to incorporate a sound box to further increase resonance and thereby multiply and improve the quality of sound produced. (A sound box is a chamber with an opening or openings in the body of a musical instrument that is adapted to modify the sound of the instrument, adding resonance and reinforcing sound quality, particularly at lower frequencies).
Thus, my invention comprehends not only innovations in the mounting of the tines in a toy piano so as to facilitate and enhance the function of a toy piano sound board, but the introduction and use of sound boxes in toy pianos, to further assist in enhancing and improving the quality of sound produced. In these regards, I introduce a sound plate extending beyond the normal edges of the sound bar in which the longitudinal tines of the toy piano are mounted so as to lie adjacent to the sound board over a larger area as well as introducing a dedicated sound box for the improvement of the quality, tone and volume of sound produced. The sound box should, ideally, be shaped so as to be somewhat wider (measured in the longitudinal direction of the tines) towards the end where the tines are longest (and produced lower tones) and somewhat narrower towards the end where the shorter tines (producing higher tones) are located. However, this is a very general observation. More particularly, I have discovered that, in general, a multi-curved shape opposite the side where the tines are mounted—somewhat like that of one half of a guitar or ukulele (i.e., two convex curves with an intermediate concave curve)—provides the best and most resonant sound quality. These and other preferred features of my invention will be discussed in more detail below.
This is a specification for a toy piano having an improved sound board and/or a sound box, both of which are intended to, and function as, means for enhancing the sound volume and quality of the toy piano. Toy pianos can be manufactured to resemble and function like a grand (or baby grand) piano 1 or an upright piano. Regardless of the manufacturer, this process and the teachings of this invention will be applicable to either kind of toy piano.
An initial understanding of the construction and components of a toy piano 1 can be derived from review of
The toy piano 1 is typically supported by legs 2 attached to the bottom member 7 of the piano 1 by a threaded member (although there are a variety of ways to attach a piano leg). The bottom surface of the bottom member 7 of the piano is typically planar and can advantageously form one of the surfaces on which the interior components of the piano will rest and be housed in the piano 1. (It is preferably perforated with numerous holes to facilitate and allow sound produced within its interior to be heard). Joined to this planar surface will be two lateral side members 5. Front side member 3 and back side member 4 are joined to these lateral side members 5. Finally, a top member 8 will, when joined together with the aforesaid side members form an enclosure and cavity that will house interior parts of the piano. When the piano is assembled the interior components of the piano will be protected by this casing.
Additionally, the keys 13 of the piano will usually be placed on the planar bottom member 7 and positioned exterior to the cavity; the front side member 3 will be positioned so that the interior components of the piano cannot be damaged. The lateral side members 5 and the back member 4 will be attached to each other at or near their respective ends. The end 10 of the back member will be manufactured so that this portion will fit into a second groove 22 on the surface of the side members 5. A first groove 23 will allow the side members 5 to be attached to front member 3. As it is imperative that the sound board 6 be protected as much as possible, a protective plate 14 may be placed between the sound board and the top member 8 of the piano. Further, the top member 8 of the piano will protect the interior component once it is placed on the piano.
The variations I have found and discovered to be beneficial, can now be understood in reference to
As a preface to the first improvement, it should be mentioned that it is generally necessary for the sound bar 6B (in which and to which tines 6A are mounted) to be fastened securely to a fairly heavy member such as a wooden support wall 6D for support purposes. Thus, unlike the bridge of a stringed instrument, sound bar 6B does not form an unsupported link between the initial source of vibration (tines 6A) and the sound board 6 so as to efficiently convey vibrations from tines 6A to soundboard 6, 60. (In contrast to this, the bridge of a stringed instrument is usually anchored in place between strings and soundboard with nothing underneath the soundboard but the open interior of the instrument's sound box, facilitating transfer of vibrations between bridge and soundboard as well as interior resonance). In fact, the sound bar 6B in prior art is solidly secured in a way that acts to deaden and dampen its ability to convey the vibrations produced in tines 6A to soundboard 6, 60. In addition, soundboard 6, 60 is also firmly anchored by and between the sound bar 6B and support wall 6D), so as to dampen its ability to vibrate and/or be vibrated by the sound bar 6B. Thus, both in terms of the ability of sound bar 6B to convey vibrations and/or the soundboard 6, 60 to vibrate therewith, the current method of anchoring components—though advantageous for a variety of other reasons—serves to dampen and hamper the function of soundboard 6, 60.
However, I have discovered that the placement of a metal sound plate 6E intermediate sound bar 6B and extending out over, and in contact with, soundboard 6, 60 can alleviate and/or supersede this problem. The sound plate 6E (typical diameter 1.25″) extends out past sound bar 6B (typical diameter ⅝″) over soundboard 6, 60 beyond the diameter (typically 0.75″) of support wall 6D so as to maintain direct contact with soundboard 6, reach beyond the dampening influence of support wall 6D, and thereby serve to facilitate communication of vibrations from tines 6A via sound bar 6B through sound bar 6E to soundboard 6, 60, with a distinctive and noticeable improvement in the quality and volume of sound produced. In prior art, the link from tines 6A through sound bar 6B to soundboard 6, 60 was made less effective in terms of conveying sound vibrations by the deadening impact produced by anchoring sound bar 6B to a support wall or member 6D and sandwiching the soundboard 6, 60 therebetween. However, the placement of a sound plate 6E as described helps to bypass and eliminate this problem by conveying these vibrations directly between the sound bar 6B and the soundboard 6, 60 beyond the areas where it is anchored and thereby largely immobilized in terms of vibration. (The drawings of the sound plate 6E should not be seen as, and are not intended to be, limiting in terms of its dimensions and shape, which may vary and is subject to further experimentation to achieve optimum function, especially as coupled with different soundboard 6, 60 and soundbox 6F, 60F shapes).
As to the second improvement, I have found that incorporating a soundboard 6, 60 into a hollow sound box 6F, 60F will also serve to greatly improve the volume and quality of sound produced. Thus,
An intermediate shape between that shown in
As will be noted, and in keeping with the normal arrangement of a soundboard 6 with its tines 6A in a toy piano 1, the sound box 6F is inverted so that its sound hole 6I faces downward. This is in keeping with the usual construction of toy baby grand pianos where the tines 6A are bottom-most and (as previously noted) apertures/holes in bottom member 7 assist in the communication of sounds produced to the exterior of piano 1. However, other orientations are possible. In terms of other critical dimensions, the walls 6D, 6G, 6H of the sound box 6F are typically 2″ in height with the material forming soundboard 6 and backboard 6J have a thickness of approximately 3 nm, giving the sound box 6F an approximate thickness of 2.5“, and thereby requiring in most cases a slight increase (approximately 2”) in the height of the piano 1.
However, numerous variations are possible without deviating from and/or exceeding the spirit and scope of my invention. Thus, as the foregoing should also make clear, numerous variations can be made without exceeding the inventive concept. Moreover, several of the above-disclosed and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Also, various presently unforeseen or unanticipated alternatives, modifications, variations or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the claims that follow.
Finally, the following parts list for the drawing figures may be found to be of assistance in understanding more fully the concepts of my invention:
Number | Name | Date | Kind |
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2293102 | Berger | Aug 1942 | A |
2882778 | Scott | Apr 1959 | A |
5103707 | Hogue | Apr 1992 | A |
Number | Date | Country | |
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20150262558 A1 | Sep 2015 | US |