NL7905657A - BUILDING MATERIAL FOR ACOUSTIC MACHINES AND INSTRUMENTS. - Google Patents

Description

, -1 -Ν.Ο. 27-982

. CO., LED., TOKYO

Building material for acoustic machines and instruments

The present invention relates to an improvement in and relating to a building material for acoustic machines and instruments.

As materials for a turntable, turntable plate, stabilizer, loudspeaker housing, bottom system housing, earcup and sound arm of acoustic machines and instruments, in particular a record player, so far mainly metals, such as cast aluminum and * have been processed by pressing steel sheet and wood used, for ease of workability, rigidity and appearance to some extent, and moderate cost, in the hope that (1) these materials have a large equivalent mass and a high rigidity so that they hardly vibrate and that (2) they have a large damping ratio for vibrations, whereby vibrations are quickly attenuated, both of which are features (1) and (2) properties to make up for acoustic sounds.

However, among these products, the metal products have a very low damping ratio for vibration, but a high resonance sharpness fh, so that they have broken into resonance probably for specific frequency. They are subject to receiving the motor vibration, the external vibration transmitted by the record player cabinet, and the vibration of the loudspeakers, causing the signal-to-noise ratio to deteriorate, sometimes causing whining. A wooden speaker body even resonates with a specific resonance.

To prevent these adverse effects, a means is provided in which the top or bottom side of a 7905657 -I- * - --2-4 ________________________ turntable is coated or covered with a product with a high vibration damping ratio, such as bars or rubber, or is glued with composite plastics. However, in the former case, it is impossible to fully control the properties inherent in the metal body 5, because the resin or the rubber is a complement to the metal body. Therefore, in order to meet the purpose, the resin or rubber must be larger in mass than the metal body, so that the stiffness of the metal can no longer be used efficiently. In the latter case, the main skeleton is made of plastic fencing, so that rigidity is lacking and the turntable effects the damping effect by rocking the plate up and down, causing the fear of interfering with the sensing effect of the needle tip. Furthermore, due to the light weight with respect to the plastics, their mass is small, when the filler content is less, so that the inertia mass of the turntable is absent, causing whining and vibration, such as with a metal sheet turntable. 20

Furthermore, wooden articles have a high damping ratio, but they lack rigidity.

The object of the invention is to provide materials for acoustic machines and instruments of the kind described above, wherein the machines and instruments do not have the usual shortcomings and show good behavior.

The turntable according to the invention consists of a sintered ceramic body, the porosity of which. is greater than 20% and the diameter of the pores 30 is less than 300 µm on average, or a body in which at least a portion of the pores of the sintered body are impregnated with elastic materials, such as rubber and / or resin, or molded article, in which ceramic powder is bonded with resins and / or rubber, and then the bonded powder is formed, or a 7905657 - 3-A --------------- molded article, at least a part is impregnated with elastic materials, such as rubber and / or resin · The high stiffness and mass of the ceramic material can serve to reduce sensitivity to turntable vibrations and to quickly reduce the vibration thanks to the pores of the ceramic material. In the ceramic material, suitable for the material of the acoustic machines and instruments of the invention, greater rigidity is better. However, the allowable lower limit of the stiffness will be a Knoop hardness of more than 500 ° to fall under a range within which the vibration voltage does not adversely affect the sound effects.

This means that materials can be used harder than ceramic material or glass. Furthermore, preferably the ratio of the pores, which weaken the damping ratio of the vibration as quickly as possible, is greater than a porosity of 20% and a porosity of less than 20% will have less effect, because not enough pores can be formed, interposed between crystal particles of the ceramic material to promptly decrease the vibration added to the ceramic body. Therefore, the smaller in size the pores are, the more they disperse, so that the pores can enclose more between the crystals and ceramic particles to enhance the attenuating properties of internal vibration, and ceramic material with an average pore diameter of less than 300 ^ um can meet these requirements.

Furthermore, it is effective to increase the damping ratio of the vibration to impregnate the interior of the pores of the ceramic material containing the pores with elastic products such as rubber and / or resin instead of air. That is, the rubber or resin is effective to absorb the vibration, which depended on the crystals or particles 7905657 -4 - ΐ- · <t> __________ to be a rigid body , in the crystals or particles, where the vibration is attenuated · The impregnation does not necessarily have to be carried out over the entire pores and can be limited to the top side, bottom side and middle part of the material to be treated or not evenly dispersed in the whole of it. Conveniently, the turntable impregnated with rubber or resin on its top surface will not require a turntable plate made of rubber. As the ceramic material used for the turntable according to the invention, it is also possible, in addition to the sintered body, to use a molded article in which ceramic particles are formed with a binder, such as resin, rubber or the like, and subsequently cured. In this case, however, the overall molded article may lose stiffness when elastic layers of the binder are produced amid the ceramic particles, so that the binder should be used as little as possible and in practice a binder content will be within 3. % are suitable 20. Even in this case, the pores should be greater than 20% in porosity and less than 300 µm in diameter, as with the sintered ceramic. It is also possible to impregnate the pores with the elastic product. The invention will now be described in more detail, by way of example, with reference to a turntable.

(1) Sintered articles.

Kaolin is added in an amount of more than 10% to ceramic material and then wet mixed with a small amount of combustible material and water. The mixture is formed by pressing, such as under a hydraulic press, air pressure, oil pressure or friction, and after drying, the mixture is sintered in a sintering furnace. After cooling the sintered article, 7905657-5- * _____. ___________ ground and machined to a desired degree of size and shape accuracy. The mixed flammable materials are effective for pore formation and as such wax, fine wood powder, starch, wheat flour and the like are used. 5

Impregnation of the elastic products can be carried out in a liquid state of these products, such as latex of natural rubber or synthetic rubber, in addition to a carbon dioxide solution of rubber, an alcohol solution of resin or the like, by applying as a coating on the surface of immerse the turntable or turntable in it and then dry.

Mixing examples and the properties of the sintered ceramic pieces made with this mixing are described below. 15 (a) alumina (250 µm) 87% ____ - - kaolin 13 # porosity 32% average pore diameter 150 µm density 2.47 20 hardness 2200 ° Knot (b) silicon carbide (125 µm) 85% kaolin 15% porosity 3 ^% average pore diameter 45 µm 25 density 2.04 hardness 2400 ° Knot (2) Molded articles.

To a ceramic powder is added a thermosetting resin, such as a phenolic resin, as a binder, and furthermore an oil as a wetting agent, such as gasoline, when the binder is powdery. The mixture is kneaded and then pressed and shaped by compression. The molded article is cured in a curing space at a temperature of 150 to 180 ° C and after cooling the surface is worked 7905657 - * -6- * -__________________. The mixing examples are as follows: (a) aluminum oxide (250 µm) 97 »8% (2200 ° Knot) phenolic resin powder 2.0% gasoline (disappears when heated) 0.2% 5 porosity 35% average pore diameter 150 µm density 2.25 (b) silicon carbide ( 125 μm) 97 »2% (2400 ° Knot) 10 phenolic resin powder 2.5% petrol 0.3% porosity 33% average pore diameter 45 μm specific gravity 2.01 15

To check whether the invention works, a listening test was performed by sound specialists using a turntable disc, on which a turntable plate made of baked ceramic material impregnated with silicon rubber was bonded to a conventional turntable made of cast aluminum, with an adhesive or of such. As a result, it was shown that compared to a conventional cast aluminum turntable disc with a rubber disc, there was a sparse resonance caused by mechanical vibrations, sound effects of a strong damping effect and acoustic properties due to the rigidity and porosity of the ceramic material was very pronounced, which properties are a technical realization of the invention. 30 7905657

Claims (5)

Building material for acoustic machines and instruments, characterized in that the material consists of a sintered ceramic body, the porosity of which is greater than 20% and the diameter of the pores is less than 300 µm on average. 2. Material according to claim 1, characterized in that at least a part of the pores is impregnated with rubber and / or resin. 3. Building material for acoustic machines and instruments, characterized in that the material consists of a ceramic shaped article bonded with resin and / or rubber, which article has a porosity of more than 20% and a pore diameter of less than 300 µm on average. 15 4. Material according to claim 3, characterized in that at least part of the pores are impregnated with rubber and / or resin. 5. Composite building material for acoustic machines and instruments, characterized in that the building material according to claims 1 to 4 is adhered with a conventional building material for acoustic machines and instruments by means of an adhesive or the like. ******* 7905657