JPH066355U - Tape reel - Google Patents

Abstract

(57) [Summary] [Purpose] To reduce the weight of a reel equipped with a metal hub that can withstand the compressive force of a wound tape by using a flange that is lightweight and has a high bending rigidity. [Structure] In a tape reel having flanges on both sides of the hub, the flanges are made of carbon fiber reinforced plastic (CF
RP). [Effect] By using carbon fiber reinforced plastic for the flange, the weight of the tape reel is reduced, the moment of inertia of the entire tape reel is effectively reduced, and good recording and reproduction are realized especially in a video tape recorder.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a flange, and more particularly, to a flange for a tape reel for accumulating a magnetic tape used in an open reel type video deck.

[0002]

[Prior art]

 The demand for higher precision in the components of video tape recorders is becoming more and more severe. High precision is required for tape reels in open reel video tape recorders for broadcasting and commercial use. Conventional magnetic tape reels typically include a metal hub and a metal or plastic flange attached to it, or a plastic hub and a metal or plastic flange attached to it.

Conventionally, since a large amount of tape is wound on these reels, increasing the reel diameter has the following drawbacks.

The combination of a metal hub and a metal flange adds weight to the reel. This increase in weight increases the load on the VCR motor, resulting in unstable tape running and affecting the recording / playback characteristics. This low driving anxiety can be overcome by reducing the moment of inertia. In the case of a video tape recorder, the contact state between the head and tape must be constant for good recording and reproduction. Therefore, the video tape recorder has a mechanism to make the tape tension constant during running. With this mechanism, the tension of the tape is detected by the tension arm, and the motor of the supply-side tape reel is electrically controlled so that the tension is constant. That is, the tape tension is controlled by the control force from the motor being transmitted to the tape via the tape reel. Therefore, in a tape reel having a large weight and a large moment of inertia, the tape tension cannot be controlled and good recording and reproduction cannot be performed.

[0005]

[Problems to be solved by the device]

 The increase in the moment of inertia due to the increase in weight can be overcome by using a plastic material having a lower density than metal as the reel material.

However, when trying to reduce the weight and the resulting moment of inertia by using plastic for the flange or the hub which is a component of the reel, there are the following problems.

The plastic flange cannot sufficiently protect the wound magnetic tape against a tape reel having a large diameter due to lack of bending rigidity. In other words, when handling a tape reel, there is a problem in that the flange will hit the end face of the tape that is wound against the external force that is normally applied to the flange, thus damaging the end face.

On the other hand, the hub made of plastic deforms because it cannot withstand the compressive force of the wound tape, and when it is loaded into a video tape recorder and run, it causes irregular movements for the video tape. There is a problem that a satisfactory accuracy cannot be obtained for the component parts of.

In view of the problems of conventional reels, the problem to be solved by the present invention is to reduce the total weight of the reels by using a metal hub that can withstand the compressive force of the tape wound on the reels. Yes, in particular, to provide a flange that is lightweight and has high bending rigidity.

[0010]

[Means for Solving the Problems]

 In order to solve the above problems, the present invention provides a tape reel comprising a hub and a flange, wherein the flange is made of carbon fiber reinforced plastic.

Weight reduction can be achieved by combining this flange and a conventional metal hub, and various drawbacks of the conventional lightweight reel can be solved. That is, a lightweight, high-strength, high-precision tape reel can be realized.

[0012] The present invention carbon fiber reinforced plastic plate used in a tensile strength 200 kg / mm ² or more, preferably 300 kg / mm ² or more, a tensile modulus of 20000 kg / m m ² or more, preferably 25000kg / mm ² or more It is obtained by impregnating a carbon fiber woven fabric using a high-strength and high-modulus polyacrylonitrile-based carbon fiber with a resin such as a thermosetting epoxy resin and curing the resin. Alternatively, it is a laminated board obtained by using this as a skin material, and sandwiching a core material between them and adhering it with an adhesive.

The core material is a resin such as nylon, polypropylene, polyethylene or epoxy. In order to increase the strength, a woven fabric made of vinylon yarn or the like or a non-woven fabric made of PITCH-based carbon fiber may be contained therein.

[0014]

【Example】

 Next, the present invention will be described in more detail with reference to Examples and Comparative Examples. The tape reel consists of the four basic components shown in FIG. 1, the hub 2, the flanges 1 and 4, and the tape 3.

[Example] As shown in FIG. 1, "aluminum hub" (manufactured by Sanriki Industry Co., Ltd.) was used for the hub 2, and "CFRP-PLATE 2.1t" (manufactured by Toray Industries, Inc.) was used for the flanges 1 and 4. As described above, it is processed by a punching method, a cutting method, etc., and a video tape is wound on it by 850 meters to obtain a tape reel having a diameter of 8.5 inches.

Comparative Example 1 A tape reel is obtained in the same manner as in Example except that the flanges 1 and 4 are replaced with “aluminum plate 2.0t”.

Comparative Example 2 In the example, the flanges 1 and 4 were replaced with “styrene-acrylic copolymer resin plate 2. In place of 0t ”, a tape reel is obtained in the same manner as in the embodiment.

Comparative Example 3 In the example, the hub 2 was “ABS hub (styrene-acrylic copolymer resin with glass)” (manufactured by Sanriki Kogyo Co., Ltd.), and the flanges 1 and 4 were “aluminum plate 2.0t”. ], And a tape reel is obtained in the same manner as in the example.

Comparative Example 4 In the example, the hub 2 was “ABS hub (styrene-acrylic copolymer resin with glass)” (manufactured by Sanriki Industry Co., Ltd.), and the flanges 1 and 4 were “aluminum plate 1.5t”. ], And a tape reel is obtained in the same manner as in the example.

The tape reels obtained in the examples and comparative examples were comprehensively evaluated according to the following criteria. The results are summarized in Table 1.

[0021]

[Table 1]

[Evaluation Symbol] (1) Total weight of reel: ○ = less than 850 g; Δ = 850 g or more and less than 900 g; × = 900 g or more

(2) Reel Inertia Moment: Since the flange, tape, and hub that make up the video tape reel are isotropic materials, the moment of inertia is calculated from the density and shape of each. ○ = less than 48 kg · cm ² ; △ = 48 kg · cm ² or more and less than 53 kg · cm ² ; × = 53 kg · cm ² or more

(3) Flange Strength: When a load of 1 kg is applied to the flange edge, ○ = Flange does not touch the tape; × = Flange touches the tape

(4) Deformation of hub: The video tape reel is fixed to an easy-rotating shaft with a sufficiently small eccentricity, and the outermost surface of the tape wound on the reel is set as the outer diameter, and the tape is wound around the entire circumference of the reel. The displacement of this outer diameter is measured with a micrometer. The difference between the maximum and minimum is the deformation of the hub. ◯ = less than 100 μm; Δ = 100 μm or more and less than 150 μm; × = 150 μm or more

(5) Running stability of tape: A tape reel was loaded into a mirror master recorder (Video tape recorder manufactured by Otari Co., Ltd.), and the stability of tape tension during recording or reproduction was evaluated. ○ = stable; × = unstable or takes time to stabilize

As can be seen from the data shown in Table 1, the tape reel using the CFRP flange of the present invention has a small moment of inertia and a high flange rigidity, and is suitable for a video tape reel. Also, from this table, it is clear that the running stability of the tape in the video tape recorder is excellent.

[0028]

[Effect of device]

 By using carbon fiber reinforced plastic for the flange, the weight of the video tape reel is reduced and the moment of inertia of the entire video tape reel is effectively reduced, so that good recording and reproduction can be performed in the video tape recorder.

[Brief description of drawings]

FIG. 1 is a perspective view of a video tape reel with one of the flanges of the present invention removed.

[Explanation of symbols] Flange hub Video tape Flange

Claims (1)

[Scope of utility model registration request] 1. A tape reel comprising a hub and a flange, wherein the flange is made of carbon fiber reinforced plastic.