JPS59124072A - Magnetic tape cassette - Google Patents

Abstract

PURPOSE:To improve the verticality, friction characteristics, rigidity, and thermal conductivity of a tape guide part and to obtain a magnetic tape cassette of superior sound quality by forming a tape guide block of a ceramic material. CONSTITUTION:The tape guide block of the magnetic tape cassette is formed by extruding fine ceramic, e.g. a mixture of SiC, C, and Si into a block body which is as thick as plural blocks. This is sintered primarily in a furnace and then cut to a specified thickness to obtain a block element. This block element is sintered in a nonoxidative atmosphere to form the tape guide block 24 made of reacted sintered silicon carbide. Therefore, the verticality, friction characteristics, rigidity, and thermal conductivity of the tape guide part are improved to obtain the magnetic tape cassette of superior sound quality.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a magnetic tape cassette in which a magnetic tape is housed in a cassette cassette, particularly in which an upper cassette half, a lower cassette half, and a tape guide block are molded separately. The present invention relates to a so-called three-piece magnetic tape cassette.

Background Art and Its Problems An exploded perspective view of an example of a conventional tape cassette is shown in FIG. This magnetic tape cassette (1) is a so-called two-piece magnetic tape cassette consisting of an upper cassette half (2) and a lower cassette half (3) in which a tape guide (8) is integrally molded. (5) is a magnetic tape wound around the reel hub (4), which includes a guide bin (6), a guide roller (7), a tape guide (8) and a medium heat shield plate (9).
) is supported by a head pad 00). The tape guide (8) integrally formed with the lower cassette half (3) has two guide bins (lla) and (llb) located on the left and right sides of the head pad αω.
and tape guide parts (12a) and (12b) on the outside thereof.
, (12c) and (12d).

This type of tape cassette (11) is made by molding the upper and lower cassette halves (2) and (3) of plastic with approximately the same shape, and attaching the cassette halves (2) and (3) with setscrews. It is assembled by combining.

By the way, among the causes that affect the deterioration of the sound quality of a cassette tape recorder, there is one caused by the cassette half. That is, the cassette halves (2) and (3) are easily bent due to distortion in plastic molding. If the double-force set halves (2) and (3) are curved in the same direction, the A side (first track) and the B side (second track) will not make the same contact with the magnetic head, resulting in a difference in sensitivity. Or, even if it curves in the opposite direction, poor running, track deviation, phase deviation, etc. will similarly occur.

The causes of such distortion in the cassette halves (2) and (3) are that the shapes of the cassette halves (2) and (3) are quite complex, and that the plastic deforms due to heat and stress. One example is receiving.

On the other hand, the problem with the half itself is the built-in tape guide (8) and head pad 00), of which the tape guide (8) mainly affects the tape running. This tape kite (8) is made integrally with the cassette half (3) by plastic molding. The surface of the tape guide (8) in contact with the magnetic tape must be exactly perpendicular, but the mold should have a draft angle so that the cassette half (3) can be easily removed from the mold. Therefore, the tape guide (8) will also be slightly inclined. As a result, accurate perpendicularity of the tape guide (8) cannot be obtained, and the magnetic tape cannot travel in an accurate straight line. In addition, the surface roughness of the tape guide (8) is determined by the quality of the surface finish of the mold and the scratches and deformation that occur when it is removed from the mold. This changes the form of friction and causes unevenness in the sound quality of each tape cassette (1). Furthermore, since the tape guide (8) is made of plastic, it generates shear and heat due to sliding friction between it and the magnetic tape (5) (usually coated with a polyester resin film magnetic paint). ) causes elongation.

In addition, since the tape guide (8) is provided only on one cassette half (3) and guides the running magnetic tape, the magnetic tape (5) due to tape tension
) to the tape guide (8), the tape guide (8) tends to bend, and this bending is coupled with fluctuations in tape tension to generate bending vibrations in the tape guide (8).

OBJECTS OF THE INVENTION The present invention provides a magnetic tape cassette that solves the problems of the conventional magnetic tape cassettes mentioned above.

Summary of the Invention The present invention provides a magnetic tape cassette in which a cassette half, a lower cassette half, and a tape guide block are molded separately and a magnetic tape is housed therein, in which the tape guide block is made of a ceramic material. This is a distinctive magnetic tape cassette.

By selecting ceramic material as the material for the tape guide block in this way, it is possible to eliminate various factors that cause sound quality deterioration that have occurred in conventional plastic magnetic tape cassettes.

Example An embodiment of the present invention will now be described with reference to FIG.

The magnetic tape kite L-(21) according to the present invention has an upper cassette half (22), an I-cassette half (23), and a tape guide roller (24) each molded separately as shown in FIG. This is a so-called three-piece magnetic tape cassette. This tape guide block (24
) are tape guide parts (24a), (24b), (2
4c), C24d), (24e) and (24f)
It has a shield plate (25) in the center.
A head pad (26) supported by the head pad (26) is disposed. Then, the magnetic tape (2) wound around the reel huff (27)
8) is a guide pin (29), a guide roller (30)
, and travels guided by the tape guide block (24).

The tape guide flock (24) can be fixed by attaching the tape guide block (24) to the screw pin (31) provided on the lower cassette half (23), as shown in Figure 2.
Align the hole (32) of cassette half (24) and
Both side surfaces (34) of the tape guide block (24) can be brought into contact with and fixed to the concave side (33) formed in 3). In the vertical direction, the thickness of the tape guide block (24) is made approximately equal to the width between the inner surfaces of the upper and lower blade set halves (22) and (23) to regulate the position. Alternatively, the tape guide block (24) may be fixed to the lower cassette half (23) with adhesive.

In the present invention, ζ is selected as a ceramic material for the tape guide block (24).
3N4, BN, TiN, 1203 etc. are used for the III group. 1. A tape guide flock (24) made of reactive sintered silicon carbide will be explained as an example.

Reactive Sintered Silicon Carbide (RBSC) is silicon carbide SiC
A method of heating a mixture of silicon carbide and carbon while injecting silicon in a vacuum or an inert gas (e.g. nitrogen gas) atmosphere, or a method of heating a mixture of silicon carbide, silicon and carbon in a non-oxidizing atmosphere. It is manufactured using the so-called reaction sintering method. Tape guide block (24) of this example
The molding can be performed, for example, by an extrusion method. That is, a block body having a shape elongated in the thickness direction and corresponding to a plurality of tape guide blocks made of a mixture of silicon carbide (SjC), carbon, and silicon, for example, is extruded. This is primarily sintered in a furnace. Next, this block body is cut to a certain thickness to make a tape guide block body. Thereafter, the tape guide flock body made of a mixture of silicon carbide, carbon, and silicon is heated in a non-oxidizing atmosphere to generate silicon carbide (SiC) through a reaction between silicon and carbon, and the entire body is sintered. and then insert the desired tape guide block (24
)make. The tape guide block (24) made of reactively sintered silicon carbide thus obtained is characterized by less dependence on the physical properties of the raw material of silicon carbide. In addition, the silicon carbide sintered body produced by this reaction sintering method has very small shrinkage after sintering, and the sintering temperature is relatively low, so it can be used for products with complex shapes such as tape guide blocks. Leads to manufacturing.

The magnetic tape player (21) in which the tape guide block (24) is made of the above-mentioned reaction-sintered silicon carbide has the following characteristics with respect to factors that affect sound quality.

First, regarding wear resistance, since the Vickers hardness (Hv) of reactive sintered silicon carbide is a very large value of 3,000, almost no wear occurs due to running of the magnetic tape (28).

Regarding the influence of friction, tape guide block (2
The material of 4) is reactive sintered silicon carbide, whereas the magnetic tape (2nd) is made of plastic, a different material, so the coefficient of friction can be kept low. In addition, as for the heat generated at the contact part, since the reaction sintered silicon carbide has good thermal conductivity, it diffuses more quickly, so there is almost no local elongation of the magnetic tape (28) due to heat. . According to experimental results, the thermal conductivity of this reaction sintered silicon carbide is 2.0 that of plastic.
It shows a value of 00 times or more.

The tape guide flock (28) contacts the magnetic tape (28).
Regarding the rigidity (24), which is indicated by the value of Young's modulus, if the shape is the same, a tape guide block made of reactive sintered silicon carbide has about 100 times the strength of plastic. At the same time, each tape guide part (24a) ~
(Since 241 has an integral structure, the occurrence of vibration due to deflection of the guide is suppressed.

Figure 3 shows a conventional two-piece plastic magnetic tape cassette (1) (curve (I)) and a three-piece magnetic tape cassette (curve (I)) in which the tape guide block (24) according to the present invention is made of reaction-sintered silicon carbide. magnetic tape cassette) (21
) (curve (■)) is a characteristic diagram obtained by measuring the modulation noise characteristics at a frequency of 10 KHz. Regarding modulation noise characteristics, it is preferable that the peak of the center frequency is steep and the level of the tail is low. As is clear from the curves (1) and (Il), it can be seen that the magnetic tape force set (21) of the present invention is considerably improved.

As mentioned above, the magnetic tape cassette l of the present invention has a tape guide block (24) made of reactive sintered silicon carbide.
- (21) is superior to the conventional magnetic tape cassette (1) made of plastic in terms of perpendicularity and rigidity regarding the tape guide portion, coefficient of friction with the magnetic tape (5), thermal conductivity, etc. It has excellent properties. Therefore, this magnetic tape force cent (21
) satisfies all the requirements for a tape cassette that does not cause deterioration in sound quality.

In the above embodiments, a tape cassette (21) having a tape guide block (24) made of reactive sintered silicon carbide has been described. Tape guide block (2) made of ceramic material
4) The tape cassette (21) also has a configuration,
All have similar characteristics.

Note that the upper and upper cassette halves (2) other than the tape guide block (24) of the tape cassette (21) according to the present invention
2) and (23) may be made of any material such as ceramics, metal, or plastic.

Effects of the Invention According to the present invention described above, the structure of the magnetic tape cassette is a three-piece type, and the tape guide block 1 and the knock are formed of ceramic material, thereby improving the perpendicularity, friction coefficient, rigidity, and heat resistance of the tape guide part. A magnetic tape cassette with improved sound quality and improved conductivity and other characteristics can be obtained.

[Brief explanation of the drawing]

Figure 1 is an exploded perspective view of a conventional magnetic tape cassette;
The figure is an exploded perspective view of a magnetic tape cassette according to the present invention, and FIG. 3 is a diagram of modulation noise characteristics measured for the conventional magnetic tape cassette and the present invention. (1), (21) are magnetic tape cassettes, (2), (2
2) is an upper cassette half, (3) and (23) are lower cassette halves, and (24) is a tape guide block. @2 diagrams

Claims (1)

[Claims] A magnetic tape cassette in which an upper cassette half, a lower cassette half, and a tape guide block are molded separately and a magnetic tape is housed therein; and the tape guide block is formed of a ceramic phase. .