JPS62295245A - Reproduction direction switching device for reciprocating type cassette tape recorder - Google Patents

Abstract

PURPOSE:To simplify a constitution and to miniaturize a reciprocating type cassette tape recorder to an extra-small size by executing the switching operation of the direction of reproduction from a first direction to a second direction and the switching operation of the direction of reproduction from the second direction to the first direction by reversing the direction of rotation of a motor. CONSTITUTION:When a magnetic tape runs to the terminal while in the state of reproducing operation in the first direction, the direction of rotation of a first motor 2 and a second motor 4 is reversed by the action of a terminal detecting device and each of them is rotated counterclockwise. When the first motor 2 rotates counterclockwise, a first capstan shaft 1 and a first driving gear 5 are rotated counterclockwise, and at the same time, a first driving gear 8 to which the rotation is transmitted through a first intermediate gear 6 is rotated counterclockwise. When the magnetic tape runs to the terminal while in the state of reproducing operation in the second direction, the direction of rotation of the first motor 2 and the second motor 4 are reversed by the action of the terminal detecting device, and each of them is rotated clockwise. The first driving gear 8 is rotated clockwise.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention (A) Industrial Application Field The present invention provides a regeneration function in a first direction and a regeneration function in a second direction opposite to the first direction. The present invention relates to a reciprocating cassette type table fooder having a reciprocating type cassette type table fooder, and particularly relates to a reproduction direction switching device.

(b) Conventional technology Sound equipment called headphone stereo, which listens to the playback sound of magnetic tape using headphones, is widespread, but the cassette-type table recorder built into such audio equipment has a long playback operation. A reciprocating tape recorder is generally used which has not only a playback function in a first direction so that the playback function is performed, but also a playback function in a second direction opposite to the first direction. As a playback direction switching device in such a reciprocating cassette tape recorder,
There are those that use manual operation force and those that use the suction force of a plunger, but recently the Japanese Patent Application Laid-Open No. 60-1
As disclosed in Japanese Patent No. 27553, it is common to use the rotational force of an electric motor to switch the reproduction direction.

(c) Problems to be solved by the invention The above-mentioned publication describes a technique in which the direction of playback of a magnetic tape is switched by the rotational force of an electric motor. The configuration is such that the meshing operation of the switching gear, which is provided to mesh with the driving gear and switch the playback direction by excitation of the rotational driving area, with the driving gear is controlled by a member that can be manually displaced. There are problems in that it becomes complicated and has poor operability. The present invention aims to provide a reproduction direction switching device that is improved in this respect.

(d) Means for Solving the Problems The regeneration direction switching device of the present invention is rotationally driven in the first direction by the first electric motor when in the regeneration operation state in the first direction, and also rotates in the second direction. When in operation state, the first
A first drive gear rotationally driven in a second direction opposite to the first direction by the reversing operation of the electric motor, and a first drive gear rotationally driven in the first direction by a second electric motor when in a regeneration operation state in the first direction. and a second driving gear which rotates in a second direction opposite to the first direction by a reversing operation of the second motive when in a state of regeneration operation in a second direction; a switching drive gear attached to rotate together with the first drive gear or the second drive gear; and a first reel shaft that is rotationally driven during playback operation in the first direction and winds the magnetic tape in the first direction. a second reel shaft that is rotationally driven during playback operation in the second direction and winds the magnetic tape in the second direction; a control plate which is in a second position when in the regeneration operation state; The rotation of the second electric motor is transmitted to the first reel shaft, and when the control plate is in the second position, the rotation of the first electric motor is transmitted to the second reel shaft by meshing drive with the first drive gear. a control gear that rotates to a predetermined position by meshing drive with the switching drive gear during switching operation of the reproduction direction, and a switching gear that switches the reproduction direction; and a switching gear that switches the reproduction direction from the first position to the second position. is displaced from the first position to the second position by the displacement of the control plate, and from the second position to the first position by the displacement of the control plate from the second position to the first position, and the switching gear is displaced from the second position to the first position by the displacement of the control plate. and a trigger member that meshes with the switching drive gear.

(*) Effect The present invention is configured such that the switching operation of the reproducing direction from the first direction to the second direction and the switching operation of the reproducing direction from the second direction to the first direction are performed by reversing the rotating direction of the machine. This is what I did.

(f) The embodiment drawings are all related to the present invention, and FIG. 1 is a plan view showing the stopped state, FIG. 2 is a plan view showing the reproducing state in the first direction, and FIG. 3 is a plan view showing the reproducing state in the second direction. It is a top view showing a state. In the figure, (1) is a first cable shaft that drives the magnetic tape at a constant speed in the first direction when it is in the state of playback operation in the first direction, and (2) is the first cable drive shaft that directly drives the first cable drive shaft (1). A first electric motor is provided to drive the motor, and is configured to rotate clockwise when in a regeneration operation state in a first direction and counterclockwise when in a regeneration operation state in a second direction. ing. (3) is a second cabstan shaft that drives the magnetic tape at a constant speed in the second direction when the reproduction operation is in the second direction; (4) is a second cabstan shaft that directly drives the second cabstan shaft (3); A second electric motor is provided, and is configured to rotate clockwise when in the regeneration operation state in the first direction and rotate counterclockwise when in the regeneration operation state in the second direction. (5) is a first drive gear mounted to rotate integrally with the first cab shaft (1); (6) is a first drive gear mounted rotatably by the shaft (7); a first intermediate gear (8) that is always in mesh with the service gear (5);
is rotatably attached to the shaft (9) and is always in mesh with the first intermediate gear (6).
The drive gear (10) is a first switching drive gear (11) mounted to rotate together with the first drive gear (8).
) is a second driving gear attached to rotate integrally with the second capstan shaft (3), and (12) is a shaft (
13), which is rotatably attached to the second drive gear (11) and is always in mesh with the second driving gear (11).
An intermediate gear (14) is a second drive gear which is rotatably attached to the shaft (15) and is always in mesh with the second intermediate gear (12), and (16) is a second drive gear which is rotatably mounted on the shaft (15). A second switching drive gear mounted to rotate together with the gear (14). (17) is a first reel shaft that is rotationally driven during playback operation in the first direction and winds the magnetic tape in the first direction; (18) is the first reel shaft (17);
A first reel gear (19) is attached to rotate with the first reel gear (19), and a first reel gear (19) is rotatably attached to the shaft (20) and is always in mesh with the first reel gear (18). Reel transmission gear, (21) is the second
A second reel shaft (22) is rotatably driven to wind the magnetic tape in the second direction during playback operation in the second direction, and a second reel shaft (22) is attached to rotate together with the second reel shaft (21).
The reel gear (23) is rotatably mounted by the shaft (24) and is connected to the second reel gear (22).
) is a transmission gear for the second reel that is always in mesh with the second reel. (25> is a control plate rotatably mounted on a shaft (26), and the control plate is placed between the first position and the third position shown in FIG.
It is movable between the second position shown in the figure. (
Reference numeral 27) is a regulation pin that is attached and fixed to the fixed board, and is connected to the first regulation piece (27) formed on the control plate (25).
8) and the second regulating piece (29), the control plate (
25) has the function of positioning at the first position and the second position. (30) is a control gear rotatably attached to the control plate (25) by a shaft (31), and at least one of the first drive gear (8) and the second drive gear (14) is always Each gear is related to mesh with the other gear. (32) is the control board (
A first transmission gear (34) is rotatably attached to the first transmission gear (25) by a shaft (33) and always in mesh with the control gear (30), and the first transmission gear (34) is integral with the first transmission gear (32). A second transmission gear is attached to rotate to the second reel, and when the control plate (25) is in the first position, it meshes with the first reel transmission gear (19) and rotates the control plate (
25) is in the second position, so that at least one of the first reel transmission gear (19) and the second reel transmission gear (23) meshes with the second reel transmission gear (23). Each gear is associated with one gear so that it always meshes with the other gear. (35) is a trigger member which is rotatably attached to the shaft (36) and is provided with a trigger pin (37), and the displacement of the control plate (25) from the first position to the second position from the first position to the second
position and the second position of the control plate (25).
The relationship is such that displacement from the position to the first position causes displacement from the second position to the first position. (38
) is a switching gear rotatably mounted on a shaft (39), and a first tooth portion (40) that meshes with the first switching drive gear (lO) for switching the playback direction; A second tooth portion (41) meshes with the second switching drive gear (16) during operation, and is located at a position opposite to the first switching drive gear (10) when in the regeneration operation state in the first direction. and a first toothless portion <42) located at a position facing the second switching drive gear (16) when in the regeneration operation state in the second direction; A second toothless portion (4) is located at a position facing the second switching drive gear (16) and is located at a position facing the first switching drive gear (10) when in the regeneration operation state in the second direction.
3) is formed. (44) is the switching gear (38)
), which is pressed by a trigger pin (37) formed on the trigger member (35) when the trigger member (35) is displaced from the first position to the second position. This has the effect of slightly rotating the switching gear (38) clockwise. (45
) is a second trigger protrusion formed on the switching gear (38>), which is completely formed on the trigger member (35) when the trigger member (35) is displaced from the second position to the first position. It has the effect of slightly rotating the switching gear (38) counterclockwise when pressed by the trigger pin (37). (46) is a control cam formed on the switching gear (38). , 10th Tsuku part (47)
A 20th hook portion (48) is formed, and a switching roller (49) is attached. (50> is the axis (
51) and is biased clockwise by a spring (52).
A lock pin (53) engages with the 10th hook portion (47) and the 20th hook portion (48) formed in the 10th and 20th hook portions (48) to lock and hold the switching gear (38) in the position shown in FIGS. 2 and 3. )
is provided. (54) is a first pinch roller rotatably mounted on a shaft (55) and urged counterclockwise by a spring (not shown).
a first pinch roller (56) which is an arm and is pressed against the first cabling shaft (1) when in a state of playback operation in the first direction to drive the magnetic tape at a constant speed in the first direction;
is rotatably mounted, and a first control pin (57) for controlling the pressing operation of the first pinch roller (56) to the first capstan shaft (1) is provided. (58) is a second pinch roller arm which is rotatably mounted on a shaft (59) and biased clockwise by a spring (not shown);
A second pinch roller (60) is rotatably mounted and is in pressure contact with the second capsun shaft (3) to drive the magnetic tape at a constant speed in the second direction when the magnetic tape is being played back in the second direction. A second pinch roller (60) that controls the pressing operation of the second pinch roller (60) to the second capstan shaft (3>).
A control bin (61) is provided. (62) is attached so as to be movable in the directions of arrows (A) and (B) by cooperation with guide pins (63) and (64) and guide holes (65 and 66), and the first pinch roller -(56
) and the second pinch roller (60) are regeneration direction switching levers that control the pressing operation of the first capstan shaft (1) and the second capstan shaft (3), and the first pinch roller arm (54) The first control pin (
57) to control the pressing operation of the first pinch roller (56) to the first cap shaft (1).
control hole (67) and the second pinch roller arm (5).
A second control hole (68) is formed to control the pressing operation of the second pinch roller (60) with the second cabsun shaft (3) in cooperation with the second control pin 61) provided in the second pinch roller (60). has been done. (69) is the reproduction direction switching lever (
The first pressing portion is formed in the switching gear (38) when the switching gear (38) is rotated counterclockwise.
The pressing force of the switching roller (49> formed in 8) is applied to displace the reproduction direction switching lever (62) in the direction of arrow (A), which is the first position, and at the same time displaces the reproduction direction switching lever (62). It has the function of holding the first position.

(70) is a second pressing portion formed on the reproduction direction switching lever (62), which is formed on the switching gear (38) when the switching gear (38) is rotated clockwise. The pressing force of the switching roller (49) displaces the reproduction direction switching lever (62) in the direction of arrow (B), which is the second position, and switches the reproduction direction and moves the bar (62) to the second position.
It has the function of holding it in position. In such a configuration, the first pinch roller arm (54) and the second pinch roller arm (58) are connected to a slide substrate (not shown) on which a magnetic head is mounted and which is displaced to an operating position during a reproduction operation. ), the displacement movement to the operating position is regulated, and when in the stopped state, the non-operating position shown in FIG. The holes (68) are associated in such a way that the welding action is in an uncontrolled position.

Further, the first control hole (67) is connected to the reproduction direction switching lever (67).
2) is in the first position, the first pinch roller (56)
and the first pinch roller (56) when in the second position.
The first capstan shaft (1) is formed to prevent pressure contact with the first capstan shaft (1). The second control hole (68) is opened when the reproduction direction switching lever (62) is in the first position.
It prevents the pinch roller (60) from pressing against the second cabling shaft (3), and when it is in the second position, the pinch roller (60)
The pinch roller (60) is formed to allow pressure contact with the second capstan shaft (3). In such a configuration, during regeneration operation in the first direction, the first electric motor (
2) and the second electric motor (4) are both rotationally driven in the clockwise direction, and during the regeneration operation in the second direction, the first electric motor (2) and the second electric motor (4) are both rotationally driven in the counterclockwise direction. It is like that. The rotational direction of the first electric motor (2) and the second electric motor (4) can be switched by a switching operation of the reproduction direction upon detection of the end of the magnetic tape or a manual switching operation of the reproduction direction. has been done. As described above, the reproduction direction switching device of the present invention has been constructed, and its operation will be explained next.

In the state shown in FIG. 1, the first pinch roller arm (54
) and the second pinch roller arm (58) are in the non-operative position shown. In addition, in the stopped state shown in FIG. 1, the control plate (25) and the reproduction direction switching lever (62) are
It is in the position where playback operations are performed in the direction. When a regeneration operation is performed in the first direction while in such a stopped state, the slide board is displaced to the operating position, and drive current is supplied to the first electric motor (2) and the second electric motor (4). The first electric exciter (2) and the second electric motor (4) rotate clockwise.

When the first electric motor (2) rotates clockwise, the first capstan shaft (1), which is the central axis of rotation thereof, is rotationally driven clockwise, so that it rotates integrally with the first capstan shaft (1). A first drive gear (5) provided for
is also rotated clockwise. The first driving gear (5)
When rotates clockwise, the rotation causes the first intermediate gear (6)
is transmitted to the first drive gear (8) via the first drive gear (8), so that the first drive gear (8) and the first switching drive gear (10), which is mounted to rotate together with the first drive gear (8), Driven to rotate clockwise. When the second electric motor (4) rotates clockwise, the second cabstan shaft (3), which is the central axis of rotation thereof, is rotationally driven clockwise, so that it rotates integrally with the first capstan shaft (3). The second driving gear (11) provided for the purpose of rotation is also rotated clockwise. When the second driving gear (11) rotates clockwise, the rotation is transmitted to the second driving gear (14) via the second intermediate gear (12). The second switching drive gear (16), which is attached to rotate together with the second drive gear (14), is rotationally driven in the clockwise direction.The first drive gear (8) and the second drive gear (
14) rotates clockwise, a meshing drive operation is performed with the control gear (30) provided to mesh with the first drive gear (8) and the second drive gear (14). The meshing relationship between the first drive gear (8) and the control gear (30) is a relief relationship, and the meshing relationship between the second drive gear (14) and the control gear (30) is a bite relationship. Therefore, the control gear (30) is separated from the first drive gear (8>), and the second rA drive gear (14) and the control gear (30) are firmly engaged with each other, and their biting force causes the control plate (25) to move away from the control gear (30).
) is fully biased counterclockwise around the shaft (26). Therefore, the control plate (25) is displaced and held in the first position shown in FIG. It becomes in mesh with the gear (19). Therefore, the rotation of the second drive gear (14) is controlled by the control gear (30),
First transmission gear (32), second transmission gear (34), first reel transmission gear (19), and first reel gear (18)
The first reel shaft (17) is transmitted to the first reel shaft (17) via the first reel shaft (17), and the first reel shaft (17) is rotationally driven in the clockwise direction. Furthermore, when the slide board is displaced to the operating position, the first pinch roller arm (54) and the second pinch roller arm (58) are each rotated to the operating position by the biasing force of the spring, but the playback direction switching lever (62) ) is in the first position, the first control hole (67) and the second control hole (68) formed in the playback direction switching lever (62) operate to
The pinch roller <56) is allowed to press against the first capstan shaft (1), and the second pinch roller (60) is prevented from pressing against the second capstan shaft (3). Only one pinch roller (56) is pressed against the first capstan shaft (1). When the regeneration operation in the first direction is performed in this way, the first capstan shaft (1) rotationally driven by the first electric motor (2) and the first capstan shaft (1) are rotated.
), the magnetic tape is driven at a constant speed in the first direction in cooperation with the first pinch roller (56) pressed against the first reel shaft (17).
) is rotationally driven to perform a winding operation of the magnetic tape, and as a result, a reproducing operation state of the tape recorder in the first direction is established. When the magnetic tape is in the state of playback operation in the first direction, the magnetic tape is connected to the first cab shaft (1) and the first
Since it is driven at a constant speed in the first direction in cooperation with the pinch roller (56), the first reel shaft (
It is necessary to gradually slow down the rotational speed of the second electric motor (4), but this operation is performed by varying the rotational speed of the second electric motor (4).

Although the reproducing operation in the first direction is performed as described above, the reproducing operation in the second direction will be explained next. The first mentioned above
When the magnetic tape runs to the end when it is in the playback state in the direction, the end detecting device works to detect the end of the magnetic tape. Motive (
The rotational directions of the second electric motor (2) and the second electric motor (4) are reversed, and each is driven to rotate counterclockwise. When the first electric motor (2) rotates counterclockwise, the first capstan shaft (1) and the first drive gear (5) are driven to rotate counterclockwise, and the rotation is caused by the rotation of the first intermediate gear (6). ) is rotated counterclockwise. Further, when the second electric motor (4) rotates counterclockwise, the second capstan shaft (3) and the second drive gear (11) are rotationally driven in the counterclockwise direction, and the rotation is caused by the rotation of the second intermediate gear (12). ) is rotated counterclockwise. A control gear provided to mesh with the first drive gear (8) and the second drive gear (14) when the first drive gear (8>) and the second drive gear (14) rotate counterclockwise. (30), but at this time, the meshing relationship between the first drive gear (8> and the control gear (30) is a biting relationship, so that the second drive gear (14) and the control gear (30) engage with each other. ) is a relief relationship. Therefore, the control plate (25) that was in the first position shown in FIG.
0) causes rotational displacement in the clockwise direction around the shaft (26), and this rotational displacement causes biting force due to the meshing action between the first drive gear 8) and the control gear (30). As a result, it is further rotated clockwise and held at the second position shown in FIG. When the control plate (25) is in the second position, the control gear (30) is in the second position.
It is spaced apart from the drive gear (14) and the first drive gear (8
) and are in mesh with each other. In this way, the first electric motor (2)
When the second electric motor (4) is reversely operated, the control plate (25) is rotationally displaced from the first position shown in FIG. 2 to the second position shown in the third section. When this is performed, the trigger member (35) is rotated about the shaft (36) to a second position that is counterclockwise from the first position in conjunction with the displacement operation. The trigger member (3
When the trigger member (3) is rotated counterclockwise, the trigger member (3)
5) The trigger pin (37) provided in the first trigger protrusion (44) is formed on the switching gear (38).
As a result, the switching gear (38) is rotated clockwise by the rotational force that overcomes the holding force of the lock pin (53) provided on the lock member (50). It is rotated slightly. When the switching gear (38) rotates clockwise, the switching gear (38) rotates clockwise.
A first switching drive gear (10) and a second switching drive gear (10) in which the first toothed part (40) and the second toothed part (41) completely formed in the first and second switching gears (38) are rotated counterclockwise, respectively. 16)
meshes with

As a result, the switching gear (38) is rotated clockwise by the rotational driving force of the first switching drive gear (10) and the second switching drive gear (16), but the switching gear (38) is rotated in a clockwise direction. A position where the first toothless portion (42) and the second toothless portion (43) formed in (38) face the second switching drive gear (16) and the first switching drive gear (10), respectively. When it rotates to this point, the mesh with each gear is released and it is no longer driven to rotate. FIG. 3 shows a state in which the switching gear (38) is rotationally driven by the above-described operation, and the switching gear (38) is mounted on a control cam (46) formed on the switching gear (38). The second
The locking portion (48) is held in the position shown in FIG. 3 by engagement with a locking pin (53) provided on the locking member (50). Further, when the switching gear (38) rotates from the position shown in FIG. 2 to the position shown in FIG. 3, the control cam (46) rotates clockwise together with the switching gear (38). The switching roller (49) attached to the cam (46) is connected to the playback direction switching lever (6).
As a result of contacting and pressing the second pressing portion (70) formed at the second position, the reproduction direction switching lever (62) is displaced in the direction of the arrow (B>, which is the second position), and is moved to the second position. The playback direction switching lever (62) is held in the second position.
When the playback direction switching lever (62) is moved to the position, the first pinch roller (56) is separated from the first cab spindle (1) by the action of the first control hole (67) formed in the playback direction switching lever (62), and the second The second pinch roller (6o) is moved by the control hole (68) to the second capstan shaft (
3) It will be in a state where it is fully pressed. Therefore, in this state, the second cabstan shaft (3) is rotated counterclockwise by the second electric motor (4) and the second pinch roller (60) is pressed against the second capstan shaft (3). ), the magnetic tape is forced at a constant speed in the second direction. Further, when the control plate (25) is rotationally displaced to the second position, the control gear (3o) meshes with the first drive gear (8) and the second drive gear (8).
The transmission gear (34) is brought into mesh with the second reel transmission gear (23). Therefore, the rotation of the first electric motor (2) is caused by the rotation of the first drive gear (5>), the first intermediate gear (6), and the first drive gear (5).
Drive gear (8), control gear (30), first transmission gear (3
2), second transmission gear (34), second reel transmission gear (
23) and the second reel gear (22) to the second reel shaft (21), and the second reel shaft (21) is rotationally driven in the counterclockwise direction. In this way, the second reel axis (
21) and the second cabsun shaft (3)
As a result of the constant speed driving operation by the second pinch roller (60), the tape recorder is in a reproducing operation state in the second direction. Then, a second reel shaft (2
Although it is necessary to gradually slow down the rotational speed of the first electric motor (2), this operation is performed by varying the rotational speed of the first electric motor (2). You can also switch the playback direction, bar (6
It goes without saying that the switching operation corresponding to the reproducing direction of the magnetic head etc. is performed by the displacement operation etc. of 2).

As described above, the reproduction direction is switched from the first direction to the second direction. Next, the switching operation from the second direction to the first direction will be explained. When the magnetic tape runs to the end in the state of playback operation in the second direction shown in FIG. Each rotation is driven in a clockwise direction. When the first electric motor (2) rotates clockwise, the first cab shaft (1) and the first driving gear (
5) is rotated clockwise and the rotation is the first
A first drive gear (8) transmitted via an intermediate gear (6)
is rotated clockwise. Further, the second electric motor (4
) rotates clockwise, the second key-button shaft (3) and second drive gear (11) are rotated clockwise and the rotation is transmitted via the second intermediate gear (12). The second drive gear (14) is rotated clockwise. A control gear provided so as to mesh with the first driving gear (8) and the second driving gear (14) when the first driving gear (8) and the second driving gear (14) rotate clockwise. (30), but at this time, the meshing relationship between the first drive gear (8) and the control gear (30) becomes an escape relationship, and the second drive gear (14) and the control gear ( 3
0) is a biting relationship. Therefore, the control plate (25), which was in the second position shown in FIG. dynamically displaced;
Due to the biting force caused by the meshing action between the second drive gear (14) and the control gear (30) due to the rotational displacement, the rotational displacement is further counterclockwise and the displacement is maintained at the first position shown in FIG. become in a state of being When the control plate (25) is in the first position, the control gear (30> is spaced apart from the first drive gear (8) and the second drive gear <
14). When the first electric motor (2) and the second electric motor (4) are reversely operated in this way, the control plate (25) is rotated from the second position shown in FIG. 3 to the first position shown in FIG. When such a displacement operation is performed, the trigger member (35
) is rotated about the shaft (36) from the second position to the first position which is clockwise. When the trigger member (35) is rotated in the clockwise direction, the trigger pin (37) provided on the trigger member (35) engages the second trigger protrusion (37) formed on the switching gear (38). 4
5) and presses the second trigger protrusion (45), the switching gear (38) is rotated by the rotational force that overcomes the holding force of the lock pin (53) provided on the lock member (50). Rotate slightly counterclockwise. When the switching gear (38) rotates counterclockwise, the first gear (40) and the second gear (41) formed on the switching gear (38) rotate clockwise. 1 switching drive gear (10) and 2nd switching drive gear (
16). As a result, the first switching drive gear (
10) and the rotational driving force of the second switching drive gear (16) causes the switching gear (38) to rotate counterclockwise. When the toothless portion (42) and the second toothless portion (43) rotate to positions facing the first switching drive gear (10) and the second switching drive gear (16), the zero contact with each gear occurs.
The zero position is released and no further rotational driving is performed.

FIG. 2 shows a state in which the switching gear (38) is rotationally driven by the operation described above, and the switching gear (38)
is a control cam (46) formed on the switching gear (38).
) is held in the position shown in FIG. 2 by engagement between the tenth hook portion (47) provided on the lock member (50) and the lock pin (53) provided on the lock member (50). Further, when the switching gear (38) rotates from the position shown in FIG. 3 to the position shown in FIG. 2, the control cam (46) rotates counterclockwise together with the switching gear (38). Switching roller (49) attached to control cam (46)
comes into contact with and presses the first pressing portion (69) formed on the reproduction direction switching lever (62), and as a result, the reproduction direction switching lever (62) is displaced in the direction of arrow (A), which is the first position. and is held in the first position. When the reproduction direction switching lever (62) is displaced to the first position, the first control hole (67) formed in the reproduction direction switching lever (62) opens.
), the first pinch roller (56) is brought into pressure contact with the first cap shaft (1), and the second control hole (68) causes the second pinch roller (60) to press against the first cap shaft (1).
is spaced apart from the second capstan shaft (3). When such a switching operation is performed, the tape recorder enters a playback state in the first direction shown in FIG.

In the present invention, the rotation direction of the first electric motor (2) and the second electric motor (4) is reversed by the end detection device that detects the end of the magnetic tape, but the operation provided to switch the playback direction is It is also possible to reverse the direction of rotation by operating a button. Further, the rotational speeds of the second electric motor (4) and the first electric motor (2) are varied in order to perform rotational driving operation of the first reel shaft (17) and the second reel shaft (21) for the reproduction operation. However, the first reel shaft (17) and the second reel shaft (
It is also possible to perform the rotation drive operation for regeneration by incorporating a clutch mechanism in the rotation transmission path to 21). Further, the rotational driving operation of the switching gear (38) provided to switch the playback direction is controlled by the rotational driving force of the first switching drive gear (10) and the second switching drive gear (16), that is, the first electric motor (2). ) and the second electric motor (4), but the first electric motor (2)
If the rotational driving force of > is sufficiently large, the rotational driving force of the second electric motor (4) is not necessary.
The tooth portion (41) becomes unnecessary. On the contrary, the second
If the rotational driving force of the electric motor (4) is sufficiently large, the rotational driving force of the first electric motor (2) is unnecessary, and in this case, the rotational driving force of the first switching drive gear (10) and the switching gear (38) The first tooth portion (40) that is present becomes unnecessary.

(G) Effects of the Invention The reproduction direction switching device of the present invention changes the rotation direction of the electric motor from the first direction to the second direction and from the second direction to the first direction. Since this is done by reversing the rotation direction, there is no need to provide a manual trigger mechanism to change the direction of playback, and the configuration is simple because the direction of playback can be changed by providing only a switch to change the direction of rotation of the electric motor. The present invention has the advantage of being extremely effective in reducing the size of reciprocating cassette tape recorders.

[Brief explanation of the drawing]

The drawings all relate to the playback direction switching device of the present invention; FIG. 1 is a plan view showing a stopped state, FIG. 2 is a plan view showing a playback state in the first direction, and FIG. 3 is a plan view showing playback in the second direction. It is a top view showing a state. Explanation of the main drawing numbers (1>...1st kibukun axis, (2>...1st
Electric motor, (3)...Second capstan shaft, (4)...
・Second electric motor, (5)...first drive gear, (6
)...first intermediate gear, ``(8)...first drive gear,
(10)...first switching drive gear, (11)...
・Second driving gear, (12)...second intermediate gear,
(14)...Second drive gear, (16)...Second switching drive gear, (17)...First reel shaft, (18)
)...Gear for the first reel, (19)...Transmission gear for the first reel, (21)...Second reel shaft, (2
2)... Gear for second reel, (23)... Transmission gear for second reel, (25)... Control plate, (30)...
...Control gear, (32)...First transmission gear, (3
4)...Second transmission gear, (35)...Trigger member, (37)...Trigger pin, (38)...
Switching gear, (40)...first tooth portion, (41)...
・Second tooth portion, (42)...First missing tooth portion, (43)・
...Second missing tooth portion, (44)...Protrusion for first trigger, (45)...Protrusion for second trigger, (46)...
... Control cam, (47) ... 10th hook part, (4
8)...Twentieth hook part, (49)...Switching roller, (50)...Lock member, (53)...Lock pin, (54)...First pinch roller arm,
(56)...First pinch roller-1 (57)...
First control pin, (58)...Second pinch roller arm, (60)...Second pinch roller-1 (61).
...Second control bin, (62)...Reproduction direction switching lever, (67)...First control hole, (68)...Second
Control hole, (69)...first suppression part, (70)...
-Second suppression department. Applicant Sanyo Electric Co., Ltd. and one other agent Patent attorney Takuji Nishino and one other person $9

Claims (1)

[Claims] (1) A reciprocating cassette tape recorder having a playback function in a first direction and a playback function in a second direction opposite to the first direction, and configured to switch the playback direction by the rotational force of an electric motor. When in the regeneration operation state in the first direction, the first electric motor rotates in the first direction, and when in the regeneration operation state in the second direction, the rotation is driven in the first direction by the reverse operation of the first electric motor. a first drive gear rotationally driven in a second direction that is the opposite direction;
When it is in the regeneration operation state in the first direction, it is rotationally driven in the first direction by the second electric motor, and when it is in the regeneration operation state in the second direction, it is rotated in the opposite direction to the first direction by the reverse operation of the second electric motor. A second rotary drive in a second direction is
a drive gear; a switching drive gear mounted to rotate together with the first drive gear or the second drive gear;
A first reel shaft that is rotationally driven during a playback operation in a first direction and winds the magnetic tape in the first direction, and a first reel shaft that is rotationally driven and winds the magnetic tape in a second direction during a playback operation in a second direction. a second reel shaft; a control plate that is in a first position when the reproducing operation is in the first direction; and a second position when the reproducing operation is in the second direction; When the control plate is attached and the control plate is in the first position, the rotation of the second electric motor is transmitted to the first reel shaft by meshing drive with the second drive gear, and the control plate is in the second position. At one time, a control gear transmits the rotation of the first electric motor to the second reel shaft by meshing drive with the first drive gear, and a control gear which transmits the rotation of the first electric motor to the second reel shaft by meshing drive with the switching drive gear during a switching operation of the playback direction to a predetermined position. a switching gear that is rotationally driven to switch the playback direction; and a switching gear that is rotationally driven to switch the playback direction; a trigger member which is displaced from the second position to the first position by displacement to the first position, and which causes the switching gear to mesh with the switching drive gear by the displacement action; The displacement operation to the second position is performed by the biting force of the control gear due to the rotational drive of the first driving gear in the second direction, and the displacement operation of the control plate from the second position to the first position is performed by the second driving gear. 1. A playback direction switching device for a reciprocating cassette tape recorder, characterized in that switching is performed by the biting force of a control gear generated by rotationally driving the gear in a first direction.