GR1010455B - Electric guitar's triple-function bridge tremolo - Google Patents

Abstract

A triple-function bridge tremolo for electric vibrato-type guitars is disclosed which vibrato is consisted of a frame (8) that allows all or part of the strings to be anchored on it, a mobile rotary string anchoring frame (2) allowing the anchoring of all or part of the set of strings. The mobile anchor frame (2) is in a static equilibrium position which is determined by the relationship between the tension of the strings and the regulation of the compression spring (20) which acts as a compensating force, while the fulcrum (4) acts as the pivot point of the mobile string anchoring frame (2) when sufficient pressure is applied to the lever (3) through the support ring (11). The lever (3) has a perimetric channel (14) and cavities (15) in a different position that allow either its free rotational movement, in the case of the perimetric channel, or its static position (parallel/horizontal or parallel/vertical position) in relation to the strings, in the case of cavities.

Description

Description

The invention relates to a mechanism that holds the strings of an electric guitar which provides new possibilities for adjusting the position and tension of the guitar strings.

An electric guitar is one that uses electromagnets to convert the sound pulse of its strings into an electric current which can then be converted into sound and amplified by an amplifier-speaker system. The strings of the electric guitar run along its body and arm. one end of each string is tied to the side of the arm and specifically to the keys that adjust the tension and therefore the tone of each string while the other end of each string, which has a head, goes over the rider and is tied onto the stringer.

The class of strings that pertains to the invention is used on offset guitars.

By the term vibrato-type tuner we refer to a mechanism for holding the strings, so that with the corresponding holding on the part of the keys and with their adjustment, a tension is created in the strings capable of producing a pulse and consequently sound. Vibrato stringers differ from classic fixed stringers by the fact that they have the ability to move the string anchoring frame with the use of a lever. As a consequence, the length of the strings is shortened and the tension between their two holding points is reduced. Subsequently, a sound is created that is characterized by the shortening of the chord frequencies. This lever after its use, as it is left by the instrument player, is removed due to its weight from his hand, making it difficult to reuse it.

The vibrato type electric guitar string we are referring to is shown in the world famous reference U.S. Pat. Pat. No. 2,972,923.

The problems with the existing technology are as follows:

• The use of vibrato sometimes creates stringing problems, as a consequence of the fact that the strings are anchored to a movable frame, whose static equilibrium position fluctuates.

• It is not possible to isolate some or all of the strings from the mechanism in which they are anchored, in order to either eliminate the possibility of a stringing problem due to the use of vibrato or to determine which strings we will choose to change their frequency with use and which will not.

• The ability to shorten the tone of the strings has a small range (up to 2.5 tones)

• The movement lever of the mechanism is not directly accessible during use

• the use of a specific iron alloy results in the creation of unwanted high-frequency harmonic frequencies in some cases.

The advantages of the invention presented here are:

• The mechanism allows lowering the tonality up to 6 tones, achieving new unprecedented sounds.

• The vibrato mechanism is such that the instrument player can choose if he wants to isolate any strings he wants from the vibrato mechanism by direct adjustment. If he actually isolates all the strings then the mechanism turns into a simple fixed stringer without vibrato.

• The lever support mechanism provides the ability to hold the lever in a position parallel and horizontal to the strings and therefore close to the player's hand without having to hold the lever throughout playing. This makes it easy to reuse vibrato.

• Electric guitar strings can be made of iron alloy or copper alloy. When a copper alloy is selected, the production of high harmonic frequencies is reduced, which in many cases are undesirable, which usually occurs in structures made of harder iron-based materials (eg steel).

to understand the operation of the system, the following drawings are listed:

figure 1 (page 1), where we see the triple action electric guitar string assembled

figure 2 (page 1) showing a side view of the assembled electric guitar string

figure 3 (page 2) where we see all parts disassembled figure 4 (page 2) where we see a detail of the movable chord anchor frame (2) and the support frame (19) that create the support field.

In the triple function guitar stringer as shown in figure 1 we observe the following features: String anchor holes (1) for anchoring the strings in the vertical part of the movable string anchor frame (2), which frame, by pressing the lever (3) it moves in a rotary motion based on the fulcrum (4) seen in side view in figure 2, thus varying/reducing the length of the vibrating strings. Also in figure 1, we see a wider opening (5), which allows the movement of the mobile string anchoring frame (2) and which leads to a series of wide-angled grooves (6) which in turn end in channels (7) with a width smaller than heads of the strings to allow them to be anchored to the stringer fitting frame (8), which is firmly bolted to the body of the guitar and therefore does not allow any change in the length of the vibrating strings when anchored there. As a consequence of the above, there is a third option where we can place a number of strings on the movable string anchor frame (2) and a number on the stringer application frame (8), thus giving a number of strings the ability to change their length during use of the lever (3) while at the same time the others remain fixed.

For the quick change of position there is in the vertical part of the string anchor frame, a vertical channel (9) leading to a larger diameter hole (10) through which the string head fits so that disassembly from the string adjustment keys, which are the second adjustment point, for changing the position of the strings. Likewise, as mentioned above there are wide-angled notches (6) that lead to channels (7) and to the stringer application frame (8).

in drawing 3 we see the system disassembled to see all the details. The lever (3) for the movement of the string anchor frame (2) is placed in a support ring (11) which is adapted to the movable string anchor frame (2) and has a polygonal base with a horizontal hole/bolt (12) where a headless is placed Allen screw (13) with internal spring and ball for tension adjustment. The lever (3), which is attached to the support ring (11 ), has a circumferential channel (14) at a point close to the base. By applying vertical pressure, the lever (3) is inserted into the support ring (11) to such a point that the spring mechanism of the Allen screw (13) allows the ball to create sufficient pressure in the circumferential channel (14) to retain the lever (3) in position while allowing it to be able to move rotationally without, however, coming out of the support ring (11 ) during its use. At a certain distance from the channel, cavities (15) have similarly been made around the axis of the lever (3). With the additional vertical pressure of the lever (3) towards the base of the support ring (11 ) and the application of the ball of the Allen head screw (13) with the corresponding cavities (15), the lever (3) is allowed to remain either in horizontally or vertically in relation to the strings. As a consequence of this, the lever (3) for moving the mechanism is at the player's immediate disposal when it is in a horizontal relationship with the strings, while it is removed when it is in a vertical relationship with the strings. The fulcrum (4) is adjusted with screws (16) ) in the stringer application frame (8) and comes into contact with the support field (17), a detail of which we see in figure 4 and whose position, shape and size defines the lever-sub-lever relationship with the first consequence of ensuring stability of the mechanism and secondly to allow greater movement of the mobile string anchoring frame (2) . Important is the position of the sub-lever (4) which has been moved in relation to traditional designs closer to the lever (3) and at the same time removed from the string anchor holes (1), on the movable string anchor frame (2). A consequence of the above is that, as the system works as a type A lever, where the tension/tension of the strings in the movable string anchor frame(2) is expressed as a load, with a support lever(4), and force the pressure on the lever (3) , the greater rotational movement of the string anchor holes (1) and therefore a greater range of string tone shortening.

In figure 3 again we can see disassembled the parts that ensure the support and proper operation of the above mechanism. We distinguish the frame of application of the string binder (8) on the electric guitar to which is applied a metal plate shaped in the form of an angle which acts as a fulcrum (4) in contact with the support field (17), (figure 4), which is created with the creation of support holes (18), width proportional to the width of the contact points of the sub-lever (4), in the horizontal part of the string anchoring frame (2) and the addition below the metal support frame (19). The front parts of the holes (18) in combination with the metal support frame (19) create a field that works as a support field (17) (figure 4), thus determining the application position of the support lever (4) and preventing any lateral movement of it string anchoring frame (2) allowing only the rotational movement required for the operation of the mechanism. In addition, a pressure spring (20) is placed between the horizontal part of the anchor frame (2) and the metal conical base with screws (21) while in the metal support frame (19), a hole (22), with a diameter slightly larger than the diameter of the spring pressure (20) prevents any lateral movement of it. Then, the operation of the compression spring (20) as a compensation of the tension of the strings is ensured by the system of the stringer application frame (8)-metal conical base with screwing (21) where a screw with a head (23) having as a terminal the stringer application frame (8) successively penetrates the movable string anchoring frame (2), the support frame (19) and the compression spring (20) and has as another terminal the metal conical base with internal screwing (21). It thus allows, through the head screw (23), the adjustment of the tension of the pressure spring (20) and the pressure it exerts on the mobile string anchoring frame (2) and therefore the corresponding compensation of the tension of the strings when they are anchored to the frame string anchor (2) as well as the balance position of the string anchor frame (2). Finally applied to the horizontal part of the string anchor frame (2) is the support ring (9) which has a polygonal base with a horizontal hole/bolt (10) where a screw (11) with an internal spring and a ball is attached to adjust the tension of the lever. The screw (11) with spring guarantees, with the appropriate adjustment, the operation of the lever (3) as mentioned above.

Claims (1)

main claim Electric guitar string binding with triple function consisting of the movable string anchoring frame (2) which has a static equilibrium position in relation to the pivot (4) which is attached with screws (16) to the string binding application frame (8) and which with in turn it is attached with screws to the body of the electric guitar. The position of static equilibrium is determined by the tensile tension of the strings in opposition to the pressure of the compression spring (20) is characterized by the fact that the stringer application frame (8) has a rectangular hole (5) which ends in six wide-angle channels (6), which in turn lead to corresponding channels (7), with a width smaller than the head diameter of the of strings. giving the option of anchoring part or all of the strings to them, with the consequence of providing the possibility to operate the system as a fixed string binding for tying the strings without changes, when the strings are canceled in the framework of the string binding application (8), as a vibrato type string binding .changing the length of the pulsating strings using the lever (3), when the strings are anchored to the mobile string anchoring frame (2) and combined .selecting without any limitation the number of strings whose frequencies can be changed using the lever (3) and those that will remain unaffected by the use of the lever (3) for the manufacture of all the above components it is possible to choose iron alloy and copper alloy. The choice determines the sound effect, as copper alloys in relation to those of iron, have the property of canceling part of high-frequency harmonic frequencies, giving a sound effect more suitable for specific types of music. additionally important for the operation of the vibrato system is the position and relationship of the above components and in particular the relationship of the mobile string anchoring frame (2) with the pivot (4) and the support field (17). the movable string anchor frame (2) is levered on a fulcrum (4) where its relative position away from the string anchor holes (1) and close to the application of force to the lever (3) drastically changes the trajectory of movement of the movable string anchor frame ( 2) and allows, when leveraged, the largest angular and linear movement of the point of the string anchor holes (1). As a consequence, the tone of the strings can be shortened up to six tones, providing wider perspectives of expression in the instrumentalist's playing. Finally, the support field (17) with support holes (18) that have a width corresponding to the width of the tangent sides of the support lever and the application of a support frame (19) below it, do not allow any lateral movement of the mobile string anchoring frame, while the angle formed by the front part of the support holes (18) with the surface of the support frame (19), create the support field (17), on which the movable string anchor frame (2) is levered and which is differentiated in terms of position the shape and mode of support it provides with traditional support frames. Preventing any lateral movement gives the system greater stability, and less chance of the strings coming loose while using the system Electric guitar string with triple function according to claim 1, characterized in that the lever (3) used to move the mobile string anchoring frame (2), has a configuration of successive cavities (15) around its axis that provide the possibility supporting the lever (3) in specific successive positions, of which at least one is parallel and horizontal to the strings, enabling the user to have the lever (3) in a handy operating position without having to hold it with his hand for the whole duration.