JP2004310905A - Rotary drum device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve an error rate of a reproduced signal by improving a parallelism of a rotary transformer at the rotation side with respect to a rotary transformer at the fixed side. <P>SOLUTION: In a flexible circuit board 88 for electrically connecting a rotary magnetic head 12 and the rotary transformer 11 at the rotation side, a connection part 63 is curved to the U shape, and a long arm part 80 is curved to the U shape and connected with an arm part 81 to form the looped state and provided with parts 85, 87 curved to the U shape on upper both sides in the diameter direction. To the rotary transformer 11 at the rotation side, the elastic recovery force is uniformly exerted on both the upper side parts in the diameter direction, then the parallelism with respect to the rotary transformer 10 at the fixed side is not affected. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a rotating drum device, and more particularly to a rotating drum device that records information on a magnetic tape.
[0002]
[Prior art]
5 and 6 show a conventional rotary drum device 1. FIG. The rotary drum device 1 includes a fixed drum 2 to which a fixed rotary transformer 10 is fixed, a rotary drum 3 to which a rotary magnetic head 12 is fixed, a rotary rotary transformer 11 to be fixed to the rotary drum 3, It has a configuration including a flexible circuit board 20 and a motor 13 for rotating the rotating drum 3, and records information on a magnetic tape running around and reproduces information from the magnetic tape. The rotary rotary transformer 11 is arranged to face the fixed rotary transformer 10. The flexible circuit board 20 is provided between the lower surface of the rotary drum 3 and the upper surface of the rotary rotary transformer 11 in a state of being bent in two and elastically curved. 11 is electrically connected.
[0003]
When the flexible circuit board 20 is unfolded, as shown in FIG. 7A, the first ring portion 21, the second ring portion 22, and the band-like connecting portion 23 connecting the both are formed. Thus, a signal wiring pattern 24, a power wiring pattern 25, and a ground pattern 26 are formed. A signal wiring pattern 24 and a power supply wiring pattern 25 extend to the connecting portion 23. In FIG. 7A, for convenience of illustration, the signal wiring pattern 24 is indicated by a solid line, and the power supply wiring pattern 25 is indicated by a broken line. FIG. 7B shows a cross section of the connecting portion 23, and a signal wiring pattern 24, an insulating layer 27, a ground pattern 26, an insulating layer 28, a power wiring pattern 25, and an insulating layer 29 are formed on a base film 30. The flexible circuit board 20 has a three-layer structure.
[0004]
A terminal 31 connected to the power supply and a terminal 32 connected to the rotary rotary transformer 11 are formed on the edge of the first ring portion 21. AMPIC chips 35 and 36 are mounted on the second ring portion 22, and terminals 37 and 38 connected to the rotary magnetic head 12 are formed on the edge of the second ring portion 22.
[0005]
The flexible circuit board 20 has a first ring portion 21 fixed to the upper surface of the rotary rotary transformer 11, a second ring portion 22 fixed to the lower surface of the rotary drum 3, and elastically at the connection portion 23. The first ring portion 21 and the second ring portion 22 are folded so as to have a U-shape. 39 is a place where it is elastically bent.
[0006]
[Problems to be solved by the invention]
In the rotary drum device 1 having the above-described configuration, as shown in FIGS. 5 and 7D, the elastic restoring force F1 generated at the place where the flexible circuit board 20 is elastically bent is rotated by the rotary rotary transformer. Acts on 11. Here, since the flexible circuit board 20 is elastically bent at only one location, the elastic restoring force acts on one side of the rotary rotary transformer 11, thereby causing the fixed rotary rotary transformer 11 to rotate. There is a problem that the parallelism to the transformer 10 is easily damaged. High precision is required for the parallelism of the rotary rotary transformer 11 with respect to the fixed rotary transformer 10, and if the parallelism is impaired, the error rate of the reproduced signal decreases.
[0007]
Further, since the flexible circuit board 20 has a three-layer structure, the cost is higher than a two-layer structure.
[0008]
Further, since the flexible circuit board 20 has a three-layer structure, the elastic restoring force generated at the place where the flexible circuit board 20 is elastically bent becomes strong, so that the parallelism of the rotary rotary transformer 11 with respect to the fixed rotary transformer 10 is increased. Is easily damaged.
[0009]
In addition, the length of the signal wiring pattern 24 is long, noise is easy to ride, and this is not preferable in terms of an error rate. Further, since the signal wiring pattern 24 and the power supply wiring pattern 25 extend close to each other, it is not preferable in terms of an error rate.
[0010]
Therefore, an object of the present invention is to provide a rotary drum device that solves the above problems.
[0011]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is provided a fixed drum to which a fixed-side rotary transformer is fixed, a rotary drum to which a rotary magnetic head is fixed, and a rotation fixed to the rotary drum and facing the fixed-side rotary transformer. Side rotary transformer, and a flexible circuit board, which is provided between the rotary drum and the rotary rotary transformer in an elastically curved state and electrically connects the rotary magnetic head and the rotary rotary transformer. In a rotating drum device,
The flexible circuit board,
A signal wiring pattern, a power wiring pattern, and a ground pattern are formed,
A first ring portion;
A second ring portion;
A connecting portion connecting the first ring portion and the second ring portion,
The first ring portion has a first connection portion formed on a side opposite to the connection portion,
The second ring portion has a second connection portion formed on a side opposite to the connection portion,
The connecting portion is curved to form a U-shape, the first ring portion and the second ring portion overlap each other, and the first connecting portion and the second connecting portion are U-shaped. It is configured to be connected in a curved state to form a loop shape.
[0012]
The flexible circuit board is formed in a loop shape and has U-shaped curved portions at one position on both sides on one diameter, and the elastic restoring force is equal to the positions on both sides on one diameter of the rotary rotary transformer. Act on. Therefore, the parallelism of the rotary rotary transformer with respect to the fixed rotary transformer is not impaired at all, the accuracy is maintained at a high level, and the error rate of the reproduced signal is improved.
[0013]
According to a second aspect of the present invention, in the rotary drum device according to the first aspect,
The flexible circuit board has a configuration in which one of a signal wiring pattern and a power supply wiring pattern passes through a connection portion, and the other passes through a portion where a first connection portion and a second connection portion are connected. It is.
[0014]
Since the connection portion and the first and second connection portions share a role in passing the signal wiring pattern and the power supply wiring pattern, the flexible circuit board has a two-layer structure, and has a conventional three-layer structure. In comparison, it is cheaper. Since the flexible circuit board has a two-layer structure, the elastic restoring force is smaller than the conventional elastic restoring force, and the parallelism of the rotary rotary transformer with respect to the fixed rotary transformer is not impaired at all, and high precision is maintained. Thus, the error rate of the reproduced signal is improved. Since the connection portion and the first and second connection portions share a role in passing the signal wiring pattern and the power supply wiring pattern, the signal wiring pattern has a shorter overall length, and has a shorter length than the power supply wiring pattern. And thus the error rate of the reproduced signal is improved.
[0015]
According to a third aspect of the present invention, in the rotary drum device according to the first aspect,
The flexible circuit board has a configuration in which the ground pattern is located on the inner peripheral side of the signal wiring pattern and the power supply wiring pattern when the flexible circuit board is formed in a loop shape.
[0016]
If the flexible circuit board is fixed to the rotating drum with screws, for example, and the rotating drum is also at the ground potential, the signal wiring pattern is sandwiched between the ground pattern and the rotating drum, and the electromagnetic shield And the error rate of the reproduced signal is improved.
[0017]
According to a fourth aspect of the present invention, in the rotary drum device according to the first aspect,
The first and second connection portions of the flexible circuit board have hook portions, and the hook portions are hooked and temporarily fixed.
[0018]
The work of soldering between the first connection portion and the second connection portion can be performed with good workability in a state where the hook portions are hooked and temporarily fixed.
[0019]
The invention according to claim 5 is provided between the lower surface of the rotary drum of the rotary drum device and the upper surface of the rotary rotary transformer in an elastically curved state, and electrically connects the rotary magnetic head and the rotary rotary transformer. A flexible circuit board for a rotating drum device to be connected,
A signal wiring pattern, a power wiring pattern, and a ground pattern are formed,
A first ring portion;
A second ring portion;
A connecting portion connecting the first ring portion and the second ring portion,
The first ring portion has a first connection portion formed on a side opposite to the connection portion,
The second ring portion has a second connection portion formed on a side opposite to the connection portion,
Further, one of the signal wiring pattern and the power supply wiring pattern is formed so as to pass through the connection portion and the other to pass through a portion where the first connection portion and the second connection portion are connected. It was assumed to be.
[0020]
The connecting portion is curved to form a U-shape, the first ring portion and the second ring portion overlap each other, and the first connecting portion and the second connecting portion are U-shaped. Are connected in a curved state to form a loop and a two-layer structure.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
1 and 2 show a rotary drum device 50 according to one embodiment of the present invention. The rotary drum device 50 has the same structure as the rotary drum device 1 shown in FIGS. 5 and 6 except for the flexible circuit board 60, and includes a fixed drum 2 on which the fixed-side rotary transformer 10 is fixed, and a rotary magnetic head 12. The rotary drum 3 is fixed to the rotary drum 3, a rotary rotary transformer 11 fixed to the rotary drum 3, a flexible circuit board 60, and a motor 13 for rotating the rotary drum 3. The rotary rotary transformer 11 is arranged to face the fixed rotary transformer 10. The flexible circuit board 60 is provided between the lower surface of the rotary drum 3 and the upper surface of the rotary rotary transformer 11, and electrically connects the rotary magnetic head 12 and the rotary rotary transformer 11.
[0022]
When the flexible circuit board 60 is unfolded, as shown in FIG. 3 (A), a first ring portion 61, a second ring portion 62, and a band-like connecting portion 63 connecting the two, A long arm portion 80 protruding from the side opposite to the connecting portion 63 of the first ring portion 61 and a short arm portion 81 protruding from the side opposite to the connecting portion 63 of the second ring portion 62 Thus, signal wiring patterns 64a and 64b, power supply wiring pattern 65, and ground pattern 66 are formed. In FIG. 3A, for convenience of illustration, the signal wiring patterns 64a and 64b are indicated by solid lines, and the power supply wiring pattern 65 is indicated by broken lines. Pads 82a and 82b are formed at the tip of the arm 80, and pads 83a and 83b are formed at the tip of the arm 81. A terminal 71 connected to the power supply and a terminal 72 connected to the rotary rotary transformer 11 are formed on the edge of the first ring portion 61. AMPIC chips 75 and 76 are mounted on the second ring portion 62, and terminals 77 and 78 connected to the rotating magnetic head 12 are formed on the edge of the second ring portion 62.
[0023]
The power supply wiring pattern 65 passes between the terminal 71 and the AMPIC chips 75 and 76, passes through a part of the first ring portion 61, passes through the connecting portion 23, and passes through a portion of the second ring portion 62. Extending. The signal wiring pattern 64a extends between the terminal 72 and the pads 82a and 82b, through a part of the first ring portion 61, and through the arm portion 80. The signal wiring pattern 64b extends between the pads 83a and 83b and the AMPIC chips 75 and 76, through the arm 81, and extends through a part of the second ring 62.
[0024]
FIG. 3B shows a cross section of the connecting portion 63, and a power supply wiring pattern 65, an insulating layer 67, and a ground pattern 66 are formed on a base film 90. FIG. 3C shows a cross section of the connecting portion 63. As shown, a signal wiring pattern 64a, an insulating layer 67, and a ground pattern 66 are formed on a base film 90. Therefore, the flexible circuit board 60 has a two-layer structure, and is less expensive than a three-layer structure.
[0025]
As shown in FIG. 3D, the flexible circuit board 60 is first bent elastically at the connecting portion 63 to form a U-shape as indicated by reference numeral 85, and the second ring portion 62 is The arm 80 is elastically bent into a U-shape, and the pads 82a and 82b and the pads 83a and 83b are soldered to the arm 80 and the arm 81. Are mechanically connected to form a loop shape as shown in FIG. Reference numeral 88 denotes a flexible circuit board having a loop shape. 86 is a solder, and 87 is a U-shaped part formed by the arm 80. The signal wiring pattern 64a and the signal wiring pattern 64b are electrically connected. Reference numeral 64 denotes a signal wiring pattern to which the signal wiring patterns 64a and 64b are electrically connected.
[0026]
The connection between the arm portion 80 and the arm portion 81 is performed using a connector, a member having metal terminals, or using a separate flexible circuit board, in addition to soldering. You may.
[0027]
As shown in FIG. 1, the second ring portion 62 is fixed to the lower surface of the rotary drum 3 with a screw 89, and the first ring portion 61 is adhesively fixed to the upper surface of the rotary rotary transformer 11.
[0028]
As shown in FIG. 1, the rotary drum device 50 having the above-described configuration has two U-shaped portions 85 and 87, and the positions of the U-shaped portions 85 and 87 are one diameter position of the rotary drum device 50. The elastic restoring force F2 generated by each of the U-shaped portions 85 and 87 acts evenly on one diameter side of the rotary-side rotary transformer 11. Moreover, since the flexible circuit board 60 has a two-layer structure, the elastic restoring force F2 is smaller than the conventional elastic restoring force F1. Therefore, the parallelism of the rotary rotary transformer 11 with respect to the fixed rotary transformer 10 is not impaired at all, is maintained with high accuracy, and the error rate of the reproduced signal is improved.
[0029]
One U-shaped portion 85 (connecting portion 63) has a power supply wiring pattern 65, and the other U-shaped portion 87 (arms 80 and 81) has a signal wiring pattern 64. are doing. As a result, the flexible circuit board 60 has a two-layer structure, and the entire length of the signal wiring pattern 64 is shorter than before. For this reason, noise hardly gets on the signal wiring pattern 64, and the error rate of the reproduced signal is improved.
[0030]
The flexible circuit board 60 has a configuration in which the U-shaped portion 85 (the coupling portion 63) has a signal wiring pattern, and the other U-shaped portion 87 (the arms 80 and 81) has a power supply wiring pattern. You can do it.
[0031]
Further, since the U-shaped portions 85 and 87 share roles as described above, there is no portion where the signal wiring pattern 64 extends close to the power supply wiring pattern 65, and the signal wiring pattern 64 It is away from the wiring pattern 65. This improves crosstalk.
[0032]
When the flexible circuit board 88 having a loop shape is schematically shown, the ground pattern 66 is located on the inner peripheral side as shown in FIG. The rotating drum 3 made of aluminum is electrically connected to the ground pattern 66 through the screw 89, and the potential of the rotating drum 3 is also set to the ground potential. Therefore, a part of the signal wiring pattern 64 is sandwiched between the ground pattern 66 and the rotating drum 3 which is the ground potential, and is electromagnetically shielded from both sides, so that the error rate of the reproduced signal is improved. You. The flexible circuit board 60 may have a three-layer structure in which the signal wiring pattern is arranged between the upper and lower ground patterns. If a flexible circuit board having this structure is used, the signal wiring pattern can be electromagnetically shielded by the flexible circuit board itself.
[0033]
FIG. 4A shows a modification of the flexible circuit board. The flexible circuit board 60A is the same as the flexible circuit board 60 shown in FIG. 3 except for the arms 80A and 81A. The arms 80A and 81A have hooks 100 and 101, respectively.
[0034]
The arm portion 80A and the arm portion 81A face each other as shown in FIG. 4B, and as shown in FIGS. 4C to 4G, hook the hook portions 100 and 101 and temporarily fix them. . In the temporarily fixed state, the pad 82Aa and the pad 83Aa face each other, and the pad 82Ab and the pad 83Ab face each other. 4 (D), (E), (F), and (G) are cross-sectional views taken along lines DD, EE, FF, and GG in FIG. 4C, respectively. It is. In the temporarily fixed state, as shown in FIG. 4H, between the pad 82Aa and the pad 83Aa and between the pad 82Ab and the pad 83Ab are soldered. 102 and 103 are solders. The soldering is performed with good workability without troublesome work of holding and holding the arm portions 80A and 81A by using a jig or the like.
[0035]
The loop-shaped flexible circuit board 88 may be a different type of rotating drum device, for example, a rotating drum device having a structure in which the rotating drum is disposed between upper and lower fixed drums, or The present invention is also applicable to a rotary drum device provided with two rotary transformer pairs in different stages.
[0036]
【The invention's effect】
As described above, the first aspect of the present invention is a rotary drum device having a flexible circuit board for electrically connecting a rotary magnetic head and a rotary rotary transformer, wherein the flexible circuit board has a loop shape. Therefore, the U-shaped curved portions are provided at positions on both sides on one diameter, and the elastic restoring force acts equally on the positions on both sides on one diameter of the rotary rotary transformer, and therefore, the rotary rotary The degree of parallelism of the transformer with respect to the fixed-side rotary transformer is not impaired at all, is maintained at high accuracy, and the error rate of the reproduced signal can be improved.
[0037]
According to a second aspect of the present invention, in the rotary drum device according to the first aspect, one of the signal wiring pattern and the power supply wiring pattern passes through the connection portion, and the other of the signal wiring pattern and the power supply wiring pattern has the first connection portion and the second connection portion. The connection portion and the connection portion and the first and second connection portions share a role of passing the signal wiring pattern and the power supply wiring pattern. Therefore, the flexible circuit board has a two-layer structure, and can be manufactured at a lower cost as compared with a conventional three-layer structure. Since the flexible circuit board has a two-layer structure, the elastic restoring force is smaller than the conventional elastic restoring force, and the parallelism of the rotary rotary transformer with respect to the fixed rotary transformer is not impaired at all, and high precision is maintained. Thus, the error rate of the reproduction signal can be improved. Since the connection portion and the first and second connection portions share a role in passing the signal wiring pattern and the power supply wiring pattern, the signal wiring pattern has a shorter overall length, and has a shorter length than the power supply wiring pattern. Therefore, the error rate of the reproduced signal can be improved.
[0038]
According to a third aspect of the present invention, in the rotary drum device according to the first aspect, when the flexible circuit board is formed in a loop shape, the ground pattern is located on an inner peripheral side of the signal wiring pattern and the power supply wiring pattern. In the case where the flexible circuit board is fixed to the rotating drum with screws, for example, and the rotating drum is also at the ground potential, the signal wiring pattern is sandwiched between the ground pattern and the rotating drum. In this state, electromagnetic shielding is achieved, and the error rate of the reproduced signal can be improved.
[0039]
According to a fourth aspect of the present invention, in the rotary drum device according to the first aspect, the first and second connection portions of the flexible circuit board have hook portions, and the hook portions are hooked and temporarily fixed. Therefore, the work of soldering between the first connection portion and the second connection portion can be performed with good workability in a state where the hook portions are hooked and temporarily fixed. I can do it.
[0040]
The invention according to claim 5 is provided between the lower surface of the rotary drum of the rotary drum device and the upper surface of the rotary rotary transformer in an elastically curved state, and electrically connects the rotary magnetic head and the rotary rotary transformer. A flexible circuit board for a rotating drum device to be connected, wherein a signal wiring pattern, a power supply wiring pattern, and a ground pattern are formed, and a first ring portion, a second ring portion, a first ring portion, and a first ring portion. A second ring portion, the first ring portion having a first connection portion formed on the opposite side to the connection portion, and a second ring portion. The part has a second connection part formed on the opposite side to the connection part, and one of the signal wiring pattern and the power supply wiring pattern passes through the connection part and the other is the first connection part. Part and the second connection part are connected Since it is configured so as to pass through the portion that is connected, it is bent at the connecting portion to form a U-shape, and the first ring portion and the second ring portion overlap each other. Then, the first connection portion and the second connection portion are connected in a state of being curved in a U-shape, thereby forming a loop shape and a two-layer structure.
[Brief description of the drawings]
FIG. 1 is a sectional view of a rotary drum device according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view showing the rotary drum device of FIG. 1;
FIG. 3 is a view showing a flexible circuit board.
FIG. 4 is a view showing a modification of the flexible circuit board.
FIG. 5 is a sectional view of a conventional rotary drum device.
FIG. 6 is an exploded perspective view showing the rotary drum device of FIG. 5;
FIG. 7 is a view showing a flexible circuit board.
[Explanation of symbols]
2 Fixed drum 3 Rotary drum 10 Fixed rotary transformer 11 Rotary rotary transformer 12 Rotary magnetic head 13 Motor 50 Rotary drum device 60, 60A Flexible circuit board 60
61 First ring part 62 Second ring part 63 Connecting parts 64a, 64b, 64 Signal wiring pattern 65 Power wiring pattern 66 Ground patterns 71, 72, 77, 78 Terminal 75, 76 AMIC chip 80, 80A Long arm 81 81A Short arm portions 82a, 82b, 83a, 83b, 82Aa, 82Ab, 83Aa, 83Ab Pad 85, 87 U-shaped portion 86, 102, 103 Solder 88 Loop-shaped flexible circuit board 90 Base film 100, 101 Hook Department

Claims (5)

A fixed drum to which a fixed rotary transformer is fixed, a rotary drum to which a rotating magnetic head is fixed, a rotary rotary transformer fixed to the rotary drum and opposed to the fixed rotary transformer; A rotary drum device, which is provided in an elastically curved state between the drum and the rotary rotary transformer and has a flexible circuit board that electrically connects the rotary magnetic head and the rotary rotary transformer,
The flexible circuit board,
A signal wiring pattern, a power wiring pattern, and a ground pattern are formed,
A first ring portion;
A second ring portion;
A connecting portion connecting the first ring portion and the second ring portion,
The first ring portion has a first connection portion formed on a side opposite to the connection portion,
The second ring portion has a second connection portion formed on a side opposite to the connection portion,
The connecting portion is curved to form a U-shape, the first ring portion and the second ring portion overlap each other, and the first connecting portion and the second connecting portion are U-shaped. A rotary drum device, wherein the rotary drum device is connected in a curved state to form a loop. The rotary drum device according to claim 1,
The flexible circuit board has a configuration in which one of the signal wiring pattern and the power supply wiring pattern passes through the connecting portion, and the other passes through a portion where the first connecting portion and the second connecting portion are connected. A rotary drum device. The rotary drum device according to claim 1,
The rotary drum device, wherein the flexible circuit board has a configuration in which the ground pattern is located on the inner peripheral side of the signal wiring pattern and the power supply wiring pattern when the flexible circuit board is formed in a loop shape. The rotary drum device according to claim 1,
The first and second connection portions of the flexible circuit board each have a hook portion, and the hook portions are hooked to each other and temporarily fixed. Flexible for a rotary drum device, which is provided in an elastically curved state between the lower surface of the rotary drum of the rotary drum device and the upper surface of the rotary rotary transformer, and electrically connects the rotary magnetic head and the rotary rotary transformer. A circuit board,
A signal wiring pattern, a power wiring pattern, and a ground pattern are formed,
A first ring portion;
A second ring portion;
A connecting portion connecting the first ring portion and the second ring portion,
The first ring portion has a first connection portion formed on a side opposite to the connection portion,
The second ring portion has a second connection portion formed on a side opposite to the connection portion,
Further, one of the signal wiring pattern and the power supply wiring pattern is formed so as to pass through the connection portion and the other to pass through a portion where the first connection portion and the second connection portion are connected. A flexible circuit board for a rotary drum device, characterized in that:

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