JPH0626988Y2 - Impedance roller for video tape recorder - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention relates to an impedance roller of a video tape recorder, and more specifically, to an impedance roller which a tape contacts and can run, and an elastic member such as elastic rubber. The present invention relates to an improved impedance roller which can absorb and reduce the vibration of the tape by installing an inertia spring damper composed of an inertia mass body and an inertia mass body.

[Conventional technology]

Conventionally, the impedance roller of the deck mechanism of the video tape recorder functions as a guide for the tape and rotates due to the rotational frictional force of the tape, and the longitudinal vibration component of the tape is reduced by the inertial force due to the moment of inertia of the impedance roller. Was playing the role of gaining.

[Problems to be solved by the device]

As shown in FIG. 8, the impedance roller (10) is formed with a shaft hole (10a) at a central portion of the impedance roller (10), and the shaft hole (10a) is provided in the main chassis of the video tape recorder. The impedance roller was rotated by pivotally mounting the supported shaft. Further, FIG. 9 is a view showing a spring mass vibration system for explaining the operation of the conventional impedance roller (10), in which K ₁ and K ₂ are tapes wound on the impedance roller (10). Shows the spring constant according to the length to another fixed point, M is the equivalent mass of the impedance roller, and F is the impedance roller from the tape.
It shows the force transmitted to (10). As shown in the drawing, in the spring-mass vibration system, the impedance roller (10) vibrates due to the force (F) transmitted by the longitudinal vibration and frictional force of the tape. The vertical vibration component of the tape can be reduced to some extent by the inertial force of the roller (10).

Therefore, such a conventional impedance roller (10)
In CUB / REV mode and ultra high speed search playback mode, the tape running speed is 3 to 12 times during normal recording and playback and 9 to 36 times during long time recording and playback compared to normal playback mode. However, there is an inconvenient drawback that the longitudinal vibration component of the tape cannot be effectively attenuated.

Therefore, the present invention was devised to solve such problems and is configured as follows.

[Means for Solving the Problems]

The present invention relates to an impedance roller of a video tape recorder, which comprises a hub and a boss and has a tape abutting against the outer peripheral surface thereof, wherein a plurality of elastic members are provided between the hub and the boss of the impedance roller. The elastic mass members are sandwiched and the inertial mass bodies are bonded between the elastic members.

The impedance roller according to the present invention includes an inertia spring damper device for the impedance roller based on the principle of a dynamic absorber that utilizes the vibration of an inertial mass body connected to a vibrating object by a spring and a damper. It was created so that the vibration of the tape can be absorbed by installing it.

The basic principle of the dynamic vibration reducer is as follows. Figure 6 is a view showing a spring mass vibration system of the dynamic vibration reducer in FIG, M is the mass of the vibrating object, m _e is the mass of the dynamic vibration reducer, chi ₁ is the amplitude of the vibration body, chi _e the dynamic vibration reducer the amplitude of the vessel shown respectively, the equation of _{motion, M 1 = -K 1 x 1} -K e (x 1 -x e) + Fsinwt ... (1) m e e = K e (x e -x 1) ... Displayed by (2) and rearranging the above formulas (1) and (2), M ₁ + (K ₁ + K _e ) x ₁ −K _e x _e = Fsinwt ...
It can be expressed by _{(3) -K e x 1 +} m e e + K e x e = 0 ... (4). Moreover, the solution of equations (3) and (4) can be expressed as ₁ = X ₁ · sin (wt-φ ₁ ) …… (5) x _e = X _e · sin (wtφ ₂ ) …… (6) it can.

By substituting the equations (5) and (6) into the equations (3) and (4) and solving the differential equation, the amplitudes X ₁ and X _e of the equations (5) and (6) can be obtained. The value is given by the following equations (7) and (8).

Therefore, when the amplitude X _{1 of the} mass body is X ₁ = 0, the vibration of the mass body is minimized, and therefore, the vibration is minimized when K _e -m _e w ² = 0.

At the same time, generally, in a dynamic vibration absorber, the exciting force acting on the vibrating body M is The purpose is to minimize the vibration of the vibrating object when acting at a frequency almost equal to Then, the amplitude of the vibrating object becomes zero.

[Embodiment] An embodiment of the impedance roller of the video tape recorder according to the present invention will be described below in detail with reference to the drawings. 1 to 3 are views showing the structure and operation of an impedance roller according to the present invention to which the principle of the above-mentioned dynamic vibration absorber is applied. As shown in the drawings, one side of the main chassis (1) is provided. A flange (5) having a compression coil spring (3) and a boss (4) is axially mounted on the shaft (2) that is axially supported, and a hub (6a) and a boss (6a) are provided above the flange (5). 6a), and an impedance roller (6) on which the tape (T) abuts is attached to the outer peripheral surface thereof, and the boss (6) of the impedance roller (6) is attached.
b) threaded portion (2a) of shaft (2) fitted and projected
In a roller device in which a nut (9) is fitted to the hub, a large number of elastic members (7) (7 ') (7 ") are provided between the hub (6a) and the boss (6b) of the impedance roller (6). ) Is sandwiched between the elastic members (7), (7 '), (7 ") and the inertial masses (8), (8'), (8") are respectively adhered to the upper and lower surfaces of the elastic members (7), (7 '), (7 "). The impedance roller of the present invention is constructed, and these inertia mass bodies (8) (8 ′) (8 ″)
Is not limited to this embodiment, and the elastic members (7) (7 ′) (7 ″)
It can be used by being modified into various forms such as being adhered to one side of each other.

[Action]

The operation of the impedance roller according to the present invention constructed as above will be described as follows.

As shown in FIG. 3, when the tape (T) contacts the impedance roller (6) at a constant speed (v) and runs,
The frictional force of the tape (T) causes the impedance roller (6) to rotate at an angular velocity (w). Then, as shown in FIG. 4, the force (F) according to the running friction and longitudinal vibration component of the tape (T) is transmitted to the impedance roller (6), and the hub (6a) and the boss (6a) of the impedance roller (6) are transmitted. centrifugal force F ₁ and the inertia center of mass of the mass m of the sandwiched by an elastic member (7) (7 ') ( "inertial mass body) (8) (8 7') (8") during 6b) Force F ₂ is applied. In addition, FIG. 5 shows a spring-mass vibration system of an inertia spring damper composed of elastic members (7) (7 ′) (7 ″) and inertia mass bodies (8) (8 ′) (8 ″). The elastic members (7), (7 ') and (7 ") are shown as a spring damper having a spring constant K and a damping coefficient C, and R is an inertia mass body (8) (8').
The distance between the center of mass of (8 ″) and the center of the shaft (2) is shown.

FIG. 7 shows the function of the impedance roller vibration system according to the present invention. The function of the vibration system when the vibration system of the inertia spring damper shown in FIG. 5 is attached to the impedance roller having the mass M. It is a schematic diagram showing. That is, a large number of elastic members (7), (7 '), (7 ") are represented by an equivalent spring constant K _e and an equivalent damping coefficient C _e ,
Plurality inertial mass (8) (8 ') (8 ") is being displayed to perform the role of the display in an equivalent mass m _e and the impedance roller (6) mass spring damper system which is affixed to the mass M Therefore, the excitation force is applied to the impedance roller (10).
(shaking Force) F acts and vibrates the mass M,
Since its mass M vibrates with concatenated equivalent mass m _e by equivalent spring constant K _e and the equivalent damping coefficient C _e, so to absorb the vibration of the overall mass M.

[Effect of device]

As described above, the impedance roller of the video tape recorder according to the present invention has an advantage of effectively absorbing the vibration of the tape by installing the inertia spring damper in the conventional impedance roller. Moreover, the tape running speed is faster than that in the normal playback mode.
This has the effect of improving the screen trembling (Jitter) that is caused by the vertical vibration of the tape in the W mode and the high speed search mode.

[Brief description of drawings]

FIG. 1 is a perspective view showing an inertia spring damper, which is a main part of an impedance roller of a video tape recorder according to the present invention, and FIG. 2 is a vertical sectional view showing a configuration of the impedance roller according to the present invention, and FIG. FIG. 4 is a plan view of an impedance roller according to the present invention, FIG. 4 is a plan view of the impedance roller according to the present invention, and FIG. 5 is a vibration diagram of an inertia spring damper of the impedance roller according to the present invention. FIG. 6 shows a system, FIG. 6 is a schematic diagram showing a spring mass vibration system of a dynamic vibration absorber for explaining the principle of the impedance roller according to the present invention, and FIG. 7 is a vibration system of the impedance roller according to the present invention. FIG. 8 is a schematic sectional view showing the structure of an impedance roller of a conventional video tape recorder, and FIG. 9 is a conventional cross-sectional view. Is a schematic view showing a vibration system of the emissions are impedance roller. 6 ... Impedance roller, 6a ... Hub, 6b ... Boss, 7, 7 ', 7 "... Elastic member, 8, 8', 8" ... Inertial mass body.

Claims (1)

[Scope of utility model registration request] 1. An impedance roller (6) for a video tape recorder, comprising a hub (6a) and a boss (6b), and a tape (T) abutting on an outer peripheral surface of the hub, the impedance roller (6). Between the hub (6a) and the boss (6b) of the elastic member (7) (7 ')
(7 ″) are sandwiched, and the inertia mass bodies (8) (8 ′) (8 ″) are bonded between the elastic members (7) (7 ′) (7 ″), respectively. Impedance roller for video tape recorder.