DE29800644U1 - Valve for brass instruments - Google Patents

Description

Vogtland 06705-97 Z/sch

Musical Instrument Factory GmbH 15.01.1998

Business Park 13 08258 Markneukirchen

Valve for brass instruments

The innovation concerns a valve for brass instruments as well as a brass instrument with one or more valves.

Brass instruments are usually made of brass. They usually have several valves that are used to add an additional extension to the basic tuning.

On the one hand, the valves can be so-called Perinet valves, which are also referred to as pump valves. These valves are moved in the longitudinal direction. They can be pressed against a spring load and thus cause the airways to be redirected. The Perinet valves consist of a valve housing and a piston that moves within it. The valve housing has inlet and outlet openings. The piston has holes that connect different inlet and outlet openings to each other in different piston positions, so that different airways are opened.

On the other hand, the valves can be designed as rotary valves, which are also called cylinder valves.

It is known to manufacture Perinet valves, but also rotary valves, for brass instruments from metal. Perinet valves are made from stainless steel or Monel, for example.

(a copper alloy) or made of brass, the surface of which is nickel-plated to achieve the required sliding properties. The production of the
However, metal valves are very complex and therefore expensive.

Attempts have already been made to produce rotary valves from plastic in order to save costs. However, difficulties arise:

Saliva gets into the valve. Condensation also forms in the brass instrument, which also gets to the valves. The valves are finally lubricated with oil. All three factors lead to the valves being attacked and possibly swelling.

If the surface is attacked and thus roughened, the friction of the valve increases when it is operated and the smooth operation of the valve is thus negatively affected. The valve can no longer be operated easily. The swelling and the associated dimensional changes also negatively affect the smooth operation of the valve.

Another problem with the use of plastic is its limited
Temperature resistance. The metal or brass from which the brass instrument and its valve housing are made has a certain coefficient of expansion. Plastic has a different coefficient of expansion, so that when the temperature changes, there is a risk that the valve can no longer be operated, or that it will leak or will already be leaking during production.

Based on this, the innovation is based on the task of improving a valve for brass instruments.

According to the innovation, this task is solved by making the valve from plastic, namely PPS or PEEK or PETP.

Surprisingly, it has been shown that these plastics are suitable for use as valves for brass instruments. They are suitable for both Perinet valves and rotary valves.

The new plastics have the advantage that, on the one hand, the moisture absorption is very low and, on the other hand, the thermal expansion coefficient is in the range of the thermal expansion coefficient of brass. Another advantage of using such plastics is that a very low weight of the valve can be achieved in this way. In addition, the plastics are resistant to hot water and washing solutions. The similar values of the thermal expansion coefficients of the plastics used and of brass mean that no undesirable thermal stresses occur that could potentially lead to damage, which causes problems when using conventional plastics. The moisture absorption (saturation in a normal climate, 23 °C/50% relative humidity) is 0.05% for PPS, 0.1% for PEEK and 0.25% for PETP.

When using the plastics mentioned, oil lubrication can also be dispensed with in special applications.

A significant advantage that can be achieved through the innovation is that plastic is lighter than metal. This significantly improves the playability of the instrument. The pressure that the musician has to apply when operating the valve is reduced, so that the ergonomic strain on the musician is also reduced accordingly.

Another advantage of the new plastics is that they are significantly quieter. The noise from the valves is therefore reduced.

The innovation can be applied to both Perinet valves and rotary valves.

The rotary valves can be manufactured by machining the plastic "from solid". The manufacturing process therefore starts with a plastic blank, which is machined by turning and milling out the air passage.

Plastic pump valves can be manufactured using the injection molding process. Appropriately designed injection molds are used in which cores are provided for the air passages.

An example of the innovation is explained in detail below using the attached drawing. In the drawing, the

Only figure shows the piston of a Perinet valve in a side view.

The piston 1 is made of plastic. The essentially cylindrical piston body 2 has holes 3, 4.

Claims (4)

Vogtländische 06705-97 Z/sch Musikinstrumentenfabrik GmbH 15.01.1998 Gewerbepark 13 08258 Markneukirchen Protection claims 1. Valve for brass instruments,
characterized, that the valve (1) is made of plastic, namely PPS or PEEK or PETP. 2. Valve according to claim 1, characterized in that the valve is a Perinet valve. 3. Valve according to claim 1, characterized in that the valve is a rotary valve. 4. Brass instrument, characterized by one or more valves according to one of claims 1 to 3.