DE450953C - Wind instrument - Google Patents

Description

Wind instrument. The invention relates to wind instruments and primarily on improving the valve design. The valve construction According to the invention, the stroke of the valves is shortened compared to the known ones Instruments, so that the musician with the improved instrument a number of can play notes in quick succession more easily than with musical instruments, which are equipped with the usual valves. With the known instruments he can change the individual tones more quickly by adding his mouth and tongue to it used as if he were operating the valves for this purpose. That way is the Playback of a piece of music largely depends on the skill of the musician addicted. The invention now aims to design the valves in this way shape so that even a less skilled musician can do a difficult piece of music well can play.

The construction of the wind instruments, on which the valves according to the Invention are attached is known. It consists essentially of one Main pipe of constant length, which extends between the mouthpiece and the Horn of the instrument is located. A number of auxiliary pipes branch off from this main pipe from, which with the help of the valves arranged at the connection points with the Main pipe can be connected in series, which increases the effective pipe length will. In this way, different tones are generated in a known manner. The keynote of the instrument is determined by the cross section of the tube: in a cornet, which has the keynote of a soprano, the diameter of the blowpipe is usually 1/? Inches tall, an old instrument is 91s inches in diameter, a baritone instrument is about 5½ inches in diameter, and is intended for a bass instrument the diameter of the pipe can be 11 / 1s or 3/4 of an inch, depending on the size of the Instrument. The valve usually consists of a piston which is in a housing plays, which is arranged in the main pipe and through openings in the walls of the housing is in communication with the branch pipes. For this purpose is the Provide the piston with channels that have the same cross-section as the main tube and the branch pipes. These channels come depending on the position of the piston in the Housing in roofing or in the final position with the pipe openings, whereby the same opened or closed. It follows that the length of the stroke of the valve piston must necessarily be as large as the diameter of the pipe. A certain amount must be added to this length of the piston so that the same covers the openings of the pipes a little, so that always a safe one Covering the pipe openings takes place. In a cornet is the diameter of the pipe relatively small, therefore the stroke of the valve is also relatively small, so that the musician does not have great difficulty operating these valves and can easily play notes in quick succession. In a bass instrument however, the diameter of the tube is relatively large, so that the stroke of the valve is quite large, e.g. B. 3/4 inch. This great length of the valve stroke is now extremely cumbersome when using the instrument. According to the invention falls z. B. the Stroke of the valve for a bass instrument is shorter than even the stroke in a known cornet design, and the length of the valve stroke with a cornet according to the invention is of course even smaller, so that all instruments can be played very easily.

The drawings represent an exemplary embodiment.

Fig. 1 shows the side view of a wind instrument; Fig.a is a view from above; Fig.3 is a front view of the same, partly in section; Fig. 4 is a section along 4-4 of Fig. A Fig. 5 is a longitudinal section through the Valve housing in which the piston is in the open position, and Fig. 6 Figure 5 is a view corresponding to Figure 5 but showing the piston in the depressed position.

The main tube 1 of the wind instrument is at the end 2 with a Mouthpiece provided and at the other end 3 with the usual horn. In your main pipe 1 a number of cylindrical valve housings 4 are attached at certain intervals, in each of which a piston 6 plays, which has channels 5, which the individual parts of the Connect the main pipe to each other. From the valve housings ¢ branches loop-shaped Auxiliary pipes 7, 8 and 9. The outer ends of these loops have U-shaped ends 1 o, 11 and 12, which can be pulled out, thereby changing the length of the loops can be. The ends of each loop open into a valve housing 4, and the pistons 6 in these valve housings are provided with channels which in certain Positions of the piston connect the branch pipe concerned with the main pipe in series. In a different position of the piston, however, these branch pipes are from the main pipe switched off. The pistons 6 are essentially watertight in the valve housing fitted and slide back and forth in them. The pistons are countered by hand the action of a spring 13 is pressed down and automatically returns to its initial position brought back by said spring.

The invention is based on the mathematical fact that the area of a circle is directly proportional to the square of its diameter. To now the Diameter of the main pipe, to decrease, the cross-section of the same becomes in several Subdivided into individual cross-sections. In this way, the main pipe at 14 and 15, as in Fig. z, and likewise the ends of the branch pipes 7, 8 and 9, as in 17 and 18 divided into a number of tubes.

The sum of the cross sections of these subdivided parts of the tubes is equal to the cross section of the undivided part of the same. The subdivided Ends of the main pipe or the branch pipes are connected to the valve housing 4. As a result of the much smaller diameter of the connection ends, the stroke of the Valve shortened accordingly. For this purpose, the piston must be fitted with a corresponding larger number of channels 5 are provided than is necessary for simple pipes is. These channels 5 come alternately with the divided ends 14 and 15 of the Main pipe and the branch pipes 17, 18 to cover or in the final position. if the valve pistons are in their normal position, then they are all individual Parts of the main pipe 1, from the mouthpiece to the horn, directly with one another connected, and the main pipe has the shortest length in this position of the valves because the branch pipes 7, 8 and 9 are through the valve pistons from the main pipe closed. Instead of just dividing the ends of the branch pipes, you can also the branch pipes over their entire length in two or more parallel to each other Divide running pipes. It is only necessary that the sum of the cross sections of the individual subdivided tubes equal to the cross-section of an equivalent single one, is not subdivided pipe. The branch pipes are in the example shown branched off at right angles from the main pipe. However, these branched loops can be used also have any other shape.

Claims (1)

YATLNTANSPIZUC11: Wind instrument with a blowpipe, several of which Branch pipes to extend the same, characterized. that the main pipe (1) and the branch pipes (7, 8, 9) at the points where the valves (4) make the connection the same produce together, divided into several tubes (14, 15 or 17, 18) whose overall cross-section is the same as the cross-section of the corresponding main pipe. (1) or the corresponding branch pipes (7, 8, 9) to the stroke of the valves (4) to decrease.