Title:
TUNING SLIDE FOR BRASS MUSICAL INSTRUMENTS
United States Patent 3861264
Abstract:
In a tuning slide for brass musical instruments comprising a U-shaped hollow tube structure having a bight section and a pair of parallel straight sections each continuous to each end of the bight section to form a U-shaped wind passage therethrough, the bight and straight sections are made integral with each other as a one-piece member, and the inner diameter of the bight section is made greater than the inner diameter of the straight sections, whereby the mechanical strength at the connecting portion of the bight and straight sections is elevated, air leakage is completely prevented, and the tone passes easily and smoothly.
US Patent References:
/1206858.html
Kidder - December 1916 - 1206858
Brass wind instrument
Blessing - January 1930 - 1744519
CUP-MOUTHPIECE WIND INSTRUMENTS
Cardwell - April 1970 - 3507181
/1206858.html
Kidder - December 1916 - 1206858
Brass wind instrument
Blessing - January 1930 - 1744519
CUP-MOUTHPIECE WIND INSTRUMENTS
Cardwell - April 1970 - 3507181
Inventors:
Matsumoto, Takeshi (Hamamatsu, JA)
Suzuki, Satahei (Hamamatsu, JA)
Inoue, Minoru (Hamamatsu, JA)
Suzuki, Satahei (Hamamatsu, JA)
Inoue, Minoru (Hamamatsu, JA)
Application Number:
05/409237
Publication Date:
01/21/1975
Filing Date:
10/24/1973
View Patent Images:
Export Citation:
Assignee:
Nippon Gakki Seizo Kabushiki Kaisha (Hamamatsu-shi, JA)
Primary Class:
Other Classes:
84/394, 84/396, 984/140
International Classes:
G10D9/00; G10D7/10
Field of Search:
84/387-394,396
Primary Examiner:
Franklin, Lawrence R.
Attorney, Agent or Firm:
Goldfarb, Kenneth S.
Claims:
We claim
1. A tuning slide for brass musical instruments comprising a U-shaped hollow tube structure having a bight section and a pair of parallel straight sections each continuous to each end of said bight sections, said bight section being made integral as one piece with each of said straight sections, and the inner diameter of said bight section being greater than the inner diameter of each of said straight sections.
2. The tuning slide according to claim 1, wherein the inner diameter of said bight section is greater than the inner diameter of said straight sections by about 1 millimeter.
3. The tuning slide according to claim 1, wherein an outer circumferential shoulder serving as stopper is formed at the juncture between each straight section and said bight section.
4. A tuning slide according to claim 1, wherein each end of said bight section is continuous to each of said straight section in a taper form so that the inner diameter of each end of said bight section is gradually reduced toward each joining straight section.
5. The tuning slide according to claim 4, which further comprises a stopper ring fitted on each said straight section at an end portion thereof terminating in the bight section.
6. A tuning slide according to claim 1, further comprising stopper sections each disposed between said bight section and each of said straight sections, each of said stopper sections being made integral as one piece with said bight section and each of said straight sections so that a bore is continuously formed throghout said straight, stopper and bight sections.
7. The tuning slide according to claim 6, wherein each said stopper section has its inner diameter reduced along its opposite end portions.
8. The tuning slide according to claim 6, wherein the inner diameter of each said stopper section is greater than the inner diameter of said straight sections.
1. A tuning slide for brass musical instruments comprising a U-shaped hollow tube structure having a bight section and a pair of parallel straight sections each continuous to each end of said bight sections, said bight section being made integral as one piece with each of said straight sections, and the inner diameter of said bight section being greater than the inner diameter of each of said straight sections.
2. The tuning slide according to claim 1, wherein the inner diameter of said bight section is greater than the inner diameter of said straight sections by about 1 millimeter.
3. The tuning slide according to claim 1, wherein an outer circumferential shoulder serving as stopper is formed at the juncture between each straight section and said bight section.
4. A tuning slide according to claim 1, wherein each end of said bight section is continuous to each of said straight section in a taper form so that the inner diameter of each end of said bight section is gradually reduced toward each joining straight section.
5. The tuning slide according to claim 4, which further comprises a stopper ring fitted on each said straight section at an end portion thereof terminating in the bight section.
6. A tuning slide according to claim 1, further comprising stopper sections each disposed between said bight section and each of said straight sections, each of said stopper sections being made integral as one piece with said bight section and each of said straight sections so that a bore is continuously formed throghout said straight, stopper and bight sections.
7. The tuning slide according to claim 6, wherein each said stopper section has its inner diameter reduced along its opposite end portions.
8. The tuning slide according to claim 6, wherein the inner diameter of each said stopper section is greater than the inner diameter of said straight sections.
Description:
BACKGROUND OF THE INVENTION
This invention relates to tuning slides for brass musical instruments such as trumpets and the manufacture of the same. More particularly, the invention relates to a tuning slide having a curved portion and a pair of parallel straight portions each integral with the respective end of the curved portion.
The pitch of brass musical instruments such as trumpets is subject to subtle changes depending upon the shape of the mouth of the player, the way of blowing, pressure on the mouthpiece and ambient conditions such as temperature and the moisture. Therefore, prior to each performance the instrument must be put into tune so that it can produce normal sound.
The tuning of the brass instruments such as trumpets and cornets is done by adjusting their effective length from the mouthpiece to the bell.
FIG. 1 shows an example of the prior art trumpet. In the Figure, numeral 2 designates a main tube provided with a mouthpiece 1 and coupled to a U-shaped main tuning slide 5, which is in turn coupled to an inlet tube 4 of a valve assembly 3 having, for example, three valves whose outlet side is coupled to a belled tube 7 having a bell 6 at the outlet. U-shaped tuning slides 8, 9 and 10 are also coupled to the individual valves in the valve assembly 3.
FIG. 2 shows one of the tuning slides 5 and 8 to 10. As is shown, it has a U-shape consisting of a semi-circular or curved section 11 and straight sections 12 and 13 of the same inner diameter as that of the curved section 11 and abutting at one end on the respective end of the semi-circular section, the straight sections 12 and 13 being tied to the semi-circular section 11 with a ring joint fitted on each abutment portion and welded or soldered to the abutting members. In case of the main tuning slide 5, for example, the tuning slide has one of its straight sections, namely section 12, hermetically telescoped in an outer tube 16 coupled to the main tube 2 and its other straight section 13 hermetically telescoped in an outer tube 17 coupled to the inlet tube 4. The straight sections 12 and 13 are slidable with respect to the associated outer tubes 16 and 17 for adjustment of the effective length of the instrument from the mouthpiece to the bell to permit the tuning according to the player's taste or in conformity to other musical instruments.
However, with this construction of the tuning slide with the straight sections 12 and 13 abutting end to end on the semi-circular section 11 joined thereto with joint rings 14 and 15 fitted on the abutment portions and secured to the abutting members by means of soldering, a gap is likely to result at the butt joint in manufacture. In such case, it is also likely that the solder S migrated into the gap would form irregularities in the inside air passage. Such irregularities act to disturb the air flow through the tube, thus making it difficult to obtain uniform tone quality and correct tone interval. The migration of the solder would also result from the formation of a gap between the joint ring and the inner member due to insufficient soldering. In another aspect, the soldering operation must be done by skilled workers since straight tube member and curved tube member are joined together. Further, the soldering operation is prone to the generation of thermal distortions.
Furthermore, with the tuning slide of the above contruction where the inner diameters of the straight section and curved section are substantially the same, the air flow is subject to a hitch in the curved section, tending to distort the air vibrations and make the pitch unstable. In addition, the difference of the resistance against air flow between the straight section and curved section is not desired from the standpoint of playing the instrument.
In still another aspect, since the straight sections 12 and 13 of the tuning slide are made slidable with respect to the respective outer tubes 16 and 17, correct parallelism between the straight sections must be maintained in manufacture. However, this is very difficult because of the fact that the straight sections 12 and 13 are made to abut on the curved section 11, giving rise to distortions if the abutting ends are not parallel. If the correct parallelism between the two straight sections is not effected, smooth movement of the tuning slide will not be obtained. Yet further, an imperfect joint would lead to leakage of air adversely affecting the stability and performance of the instrument. Therefore, in the assemblage of the prior art tuning slide very high precision is required, and nevertheless it has been very difficult to ensure uniform quality.
SUMMARY OF THE INVENTION
The primary object of this invention is to form a U-shaped tuning slide hollow tube structure having a pair of parallel straight sections and an intermediate bight section made continuous at both ends to, and integral as one piece with, the straight sections, thereby permitting uniform tone quality and correct tone interval to be obtained, preventing air leakage, eliminating the soldering step to simplify the manufacture, and improving the mechanical strength of the structure.
Another object of the invention is to form a U-shaped tuning slide hollow tube structure having a pair of parallel straight sections and an intermediate bight section integral as one piece with the straight sections, in which the inner diameter of the straight sections is made slightly less than that of the bight portion, thereby alleviating the hitch of air flow in the bight section to ensure steady propagation of air vibrations free from distortion and steady and satisfactory pitch.
A further object of the invention is to provide a method of manufacturing a tuning slide having a U-shaped integral, one piece hollow tube structure with the inner diameter of straight sections made slightly greater than that of an intermediate bight section, comprising loading a die with a thin tubular material, closing one end of the die and forcing pressurized oil or the like into the die from the other end thereof to cause expansion of the tubular material so as to form the tube structure.
A still another object of the invention is to ensure smooth sliding movement of the tuning slide by correctly maintaining the parallelism of the two straight sections of the tube structure formed in the afore-mentioned method.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side view showing a prior art trumpet.
FIG. 2 is a fragmentary side view, partly broken away and to an enlarged scale, showing part of a tuning slide in the same trumpet.
FIG. 3 is a view similar to FIG. 2 but showing an embodiment of the tuning slide according to the invention.
FIGS. 4 and 5 are views similar to FIG. 3 but showing other embodiments of the tuning slide according to the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 3 shows a partly broken-away side view of part of a tuning slide according to the invention. It has an integral, one-piece, thin-wall tube structure generally designated at 20 made from brass and having a wall thickness of about 0.5 millimeter, whereby a bore or wind way is defined throughout the tube structure 20. This thin-wall tube structure is U-shaped, having a semi-circular bight or crook section 21 terminating at opposite ends in integral straight sections 22 and 23 parallel with each other. The bight and straight sections 21 - 23 are made of a continuous, one-piece member. The semi-circular bight section 21 has an inner diameter R 1 greater than the inner diameter R 2 of the straight section 22 or 23, and shoulders 24 and 25 are formed at the opposite ends of the bight section 21 terminating in the straight sections 22 and 23. For example, with a trumpet tuning slide, a satisfactory result is obtained by selecting the inner diameter R 1 in 11.6mm and the inner diameter R 2 in 11.3mm; however the difference between the inner diameter R 1 of the bight section and the inner diameter R 2 of the straight sections may be 1 millimeter or somewhat greater in other cases.
FIG. 4 shows another embodiment of the tuning slide according to the invention. In this embodiment, semicircular bight or crook section 21a of the U-shaped thin-wall tube structure has taper end portions X terminating in respective straight sections 22a and 23a parallel with each other. The bight section 21a is of course made integral as one piece with the straight sections 22a and 23a. The bight section 21a has inner diameter R 1 , which is gradually reduced along the inclined end portions to R 2 which is the inner diameter of the straight sections 22a and 23a. A stopper ring P is fitted on each of the straight portions 22a and 23a at the end thereof adjacent the taper portions.
FIG. 5 shows a further embodiment of the tuning slide tube according to the invention. In this embodiment, semi-circular bight or crook section 21b of the U-shaped thin-wall bored tube structure terminate at opposite ends in respective integral, one-piece stopper sections T, which in turn terminate in respective straight sections 22b and 23b. The bight section 21b has inner diameter R 1 greater than that R 2 of each of the straight sections 22b and 23b. Each stopper section T has an inner diameter R 3 slightly greater than the inner diameter R 1 of the bight section 21a, and its inner diameter is reduced along portions adjacent its opposite ends.
This invention relates to tuning slides for brass musical instruments such as trumpets and the manufacture of the same. More particularly, the invention relates to a tuning slide having a curved portion and a pair of parallel straight portions each integral with the respective end of the curved portion.
The pitch of brass musical instruments such as trumpets is subject to subtle changes depending upon the shape of the mouth of the player, the way of blowing, pressure on the mouthpiece and ambient conditions such as temperature and the moisture. Therefore, prior to each performance the instrument must be put into tune so that it can produce normal sound.
The tuning of the brass instruments such as trumpets and cornets is done by adjusting their effective length from the mouthpiece to the bell.
FIG. 1 shows an example of the prior art trumpet. In the Figure, numeral 2 designates a main tube provided with a mouthpiece 1 and coupled to a U-shaped main tuning slide 5, which is in turn coupled to an inlet tube 4 of a valve assembly 3 having, for example, three valves whose outlet side is coupled to a belled tube 7 having a bell 6 at the outlet. U-shaped tuning slides 8, 9 and 10 are also coupled to the individual valves in the valve assembly 3.
FIG. 2 shows one of the tuning slides 5 and 8 to 10. As is shown, it has a U-shape consisting of a semi-circular or curved section 11 and straight sections 12 and 13 of the same inner diameter as that of the curved section 11 and abutting at one end on the respective end of the semi-circular section, the straight sections 12 and 13 being tied to the semi-circular section 11 with a ring joint fitted on each abutment portion and welded or soldered to the abutting members. In case of the main tuning slide 5, for example, the tuning slide has one of its straight sections, namely section 12, hermetically telescoped in an outer tube 16 coupled to the main tube 2 and its other straight section 13 hermetically telescoped in an outer tube 17 coupled to the inlet tube 4. The straight sections 12 and 13 are slidable with respect to the associated outer tubes 16 and 17 for adjustment of the effective length of the instrument from the mouthpiece to the bell to permit the tuning according to the player's taste or in conformity to other musical instruments.
However, with this construction of the tuning slide with the straight sections 12 and 13 abutting end to end on the semi-circular section 11 joined thereto with joint rings 14 and 15 fitted on the abutment portions and secured to the abutting members by means of soldering, a gap is likely to result at the butt joint in manufacture. In such case, it is also likely that the solder S migrated into the gap would form irregularities in the inside air passage. Such irregularities act to disturb the air flow through the tube, thus making it difficult to obtain uniform tone quality and correct tone interval. The migration of the solder would also result from the formation of a gap between the joint ring and the inner member due to insufficient soldering. In another aspect, the soldering operation must be done by skilled workers since straight tube member and curved tube member are joined together. Further, the soldering operation is prone to the generation of thermal distortions.
Furthermore, with the tuning slide of the above contruction where the inner diameters of the straight section and curved section are substantially the same, the air flow is subject to a hitch in the curved section, tending to distort the air vibrations and make the pitch unstable. In addition, the difference of the resistance against air flow between the straight section and curved section is not desired from the standpoint of playing the instrument.
In still another aspect, since the straight sections 12 and 13 of the tuning slide are made slidable with respect to the respective outer tubes 16 and 17, correct parallelism between the straight sections must be maintained in manufacture. However, this is very difficult because of the fact that the straight sections 12 and 13 are made to abut on the curved section 11, giving rise to distortions if the abutting ends are not parallel. If the correct parallelism between the two straight sections is not effected, smooth movement of the tuning slide will not be obtained. Yet further, an imperfect joint would lead to leakage of air adversely affecting the stability and performance of the instrument. Therefore, in the assemblage of the prior art tuning slide very high precision is required, and nevertheless it has been very difficult to ensure uniform quality.
SUMMARY OF THE INVENTION
The primary object of this invention is to form a U-shaped tuning slide hollow tube structure having a pair of parallel straight sections and an intermediate bight section made continuous at both ends to, and integral as one piece with, the straight sections, thereby permitting uniform tone quality and correct tone interval to be obtained, preventing air leakage, eliminating the soldering step to simplify the manufacture, and improving the mechanical strength of the structure.
Another object of the invention is to form a U-shaped tuning slide hollow tube structure having a pair of parallel straight sections and an intermediate bight section integral as one piece with the straight sections, in which the inner diameter of the straight sections is made slightly less than that of the bight portion, thereby alleviating the hitch of air flow in the bight section to ensure steady propagation of air vibrations free from distortion and steady and satisfactory pitch.
A further object of the invention is to provide a method of manufacturing a tuning slide having a U-shaped integral, one piece hollow tube structure with the inner diameter of straight sections made slightly greater than that of an intermediate bight section, comprising loading a die with a thin tubular material, closing one end of the die and forcing pressurized oil or the like into the die from the other end thereof to cause expansion of the tubular material so as to form the tube structure.
A still another object of the invention is to ensure smooth sliding movement of the tuning slide by correctly maintaining the parallelism of the two straight sections of the tube structure formed in the afore-mentioned method.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side view showing a prior art trumpet.
FIG. 2 is a fragmentary side view, partly broken away and to an enlarged scale, showing part of a tuning slide in the same trumpet.
FIG. 3 is a view similar to FIG. 2 but showing an embodiment of the tuning slide according to the invention.
FIGS. 4 and 5 are views similar to FIG. 3 but showing other embodiments of the tuning slide according to the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 3 shows a partly broken-away side view of part of a tuning slide according to the invention. It has an integral, one-piece, thin-wall tube structure generally designated at 20 made from brass and having a wall thickness of about 0.5 millimeter, whereby a bore or wind way is defined throughout the tube structure 20. This thin-wall tube structure is U-shaped, having a semi-circular bight or crook section 21 terminating at opposite ends in integral straight sections 22 and 23 parallel with each other. The bight and straight sections 21 - 23 are made of a continuous, one-piece member. The semi-circular bight section 21 has an inner diameter R 1 greater than the inner diameter R 2 of the straight section 22 or 23, and shoulders 24 and 25 are formed at the opposite ends of the bight section 21 terminating in the straight sections 22 and 23. For example, with a trumpet tuning slide, a satisfactory result is obtained by selecting the inner diameter R 1 in 11.6mm and the inner diameter R 2 in 11.3mm; however the difference between the inner diameter R 1 of the bight section and the inner diameter R 2 of the straight sections may be 1 millimeter or somewhat greater in other cases.
FIG. 4 shows another embodiment of the tuning slide according to the invention. In this embodiment, semicircular bight or crook section 21a of the U-shaped thin-wall tube structure has taper end portions X terminating in respective straight sections 22a and 23a parallel with each other. The bight section 21a is of course made integral as one piece with the straight sections 22a and 23a. The bight section 21a has inner diameter R 1 , which is gradually reduced along the inclined end portions to R 2 which is the inner diameter of the straight sections 22a and 23a. A stopper ring P is fitted on each of the straight portions 22a and 23a at the end thereof adjacent the taper portions.
FIG. 5 shows a further embodiment of the tuning slide tube according to the invention. In this embodiment, semi-circular bight or crook section 21b of the U-shaped thin-wall bored tube structure terminate at opposite ends in respective integral, one-piece stopper sections T, which in turn terminate in respective straight sections 22b and 23b. The bight section 21b has inner diameter R 1 greater than that R 2 of each of the straight sections 22b and 23b. Each stopper section T has an inner diameter R 3 slightly greater than the inner diameter R 1 of the bight section 21a, and its inner diameter is reduced along portions adjacent its opposite ends.