JPH03224153A - Operation switching device for tape recorder - Google Patents

Abstract

PURPOSE:To improve the operability by performing two different switching operations with the same rotation of a switching gear, and performing the switching operation with the control operation of a plunger. CONSTITUTION:A switching gear 11 is provided which is rotated while being engaged with a driving gear 10 rotated and driven by a motor and performs the operation switching. A turning switching lever 15 which is displaced in a first direction by turning to perform the switching operation for reproducing operation and is displaced in a second direction by turning to perform the switching operation for fast-forwarding operation is displaced with a switching cam 20 formed in the switching gear 11 by turning, and the displacement direction is selected by a turning control member 6 provided on a trigger member 3 which is displaced to the trigger position by a plunger 1 at the time of trigger operation. Thus, the operability is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Field of Industrial Application The present invention relates to a tape recorder, and more particularly to an operation switching device for a tape recorder configured to switch operations using the rotational force of an electric motor.

(b) Conventional technology There are two types of operation switching devices for tape recorders: a mechanical type in which the drive mechanism is switched by pressing force on a switching operation button, and an electronic type in which the drive mechanism is switched by the suction force of a plunger. Although this is common, recently it has become popular to switch using the rotational force of an electric motor. A technique for switching operations using the rotational force of an electric motor is disclosed, for example, in Japanese Utility Model Application Publication No. 58-62461.

(c) Problems to be Solved by the Invention The technology disclosed in the above-mentioned gazette switches the operation by meshing a switching gear that performs operation switching with a driving gear that rotates when the rotation of the electric motor is transmitted during operation switching operation. However, the meshing operation of the gears, that is, the triggering operation is performed by the pressing force on the operation button. The method in which the trigger operation is performed by pressing force on the operation button has a problem in that the pressing force is smaller than that of the mechanical type described above, but the operability is poor.

The present invention aims to provide an operation switching device that is improved in this respect.

(d) Means for Solving the Problems The operation switching device of the present invention includes a switching drive gear rotatably driven by an electric motor, a control pin and a rotation control member that are displaced to the trigger position by a plunger when the trigger is operated. When the trigger member is displaced to the trigger position, the trigger member meshes with the switching drive gear and is moved from the stop position to the operating position by the rotational force of the switching drive gear, and from the operating position to the stop position. a first and second gear formed on a first surface of the switching gear and engaging a control pin provided on the trigger member to maintain the switching gear in a rest position and an operating position; a second engagement piece, which is formed on the first surface of the switching gear and controls the return operation of the trigger member from the trigger position to the non-trigger position and the rotation control when the trigger member is in the trigger position; a control cam that performs a selection operation of making contact with the member and rotationally displacing the rotation control member; and a control cam that is rotatably attached to a fixed substrate and that performs a switching operation for a regeneration operation by rotationally displacing the rotation control member in a first direction. and a rotational switching lever that performs a switching operation for the fast forward operation by rotational displacement in a second direction, which is the opposite direction; The switching cam includes a switching cam that rotates the rotation switching lever in a first direction or a second direction by cooperating with a switching pin formed on the lever.

(*) Function The present invention provides a rotary switching lever that performs a switching operation for playback operation by rotational displacement in a first direction, and performs a switching operation for fast forward operation by rotational displacement in a second direction. The switching cam formed on the switching gear causes rotational displacement, and the direction of the rotational displacement is selected by a rotation control member provided on the trigger member, which is displaced to the trigger position by the plunger when the trigger is operated. This is what I did.

(v) The drawings relate to the operation switching device of the present invention, and FIG. 1 is a plan view showing the stopped state, FIG. 2 is a plan view of the main parts showing the playback state, and FIG. 3 is a plan view showing the fast forward state. A plan view of the main parts shown, No. 4
The figure is an enlarged plan view of main parts showing a stopped state. (1) is a plunger fixed to a fixed board, and when a driving current is supplied, the suction rod (2) is in the storage position shown.
is configured to be displaced to a protruding position in the direction of arrow (A). (3) is a trigger member rotatably attached to a fixed board by a shaft (4);
A suction rod (2) incorporated into the plunger (1)
By the displacement operation to the protruding position, the trigger is rotated counterclockwise to the trigger position. (
5) is a control pin formed on the trigger member (3); (6) is a rotation control member rotatably attached to the trigger member (3) by a shaft (7); (8) and a pressing piece (9) are formed. (10
) is a switching drive gear rotationally driven by an electric motor (not shown), and (11) is a switching gear that meshes with the switching drive gear (10) and is rotationally driven and performs operation switching when the trigger is operated. , a first toothless portion (lla) and a second toothless portion (llb). (12) is a first engagement piece formed on the first surface of the switching gear (11), which engages with the control pin (5) formed on the trigger member (3). It has the function of holding the switching gear (11) at the stop position shown in FIG. 1, that is, at a position where the first toothless portion (lla) faces the switching drive gear (10). (13) is a second engagement piece formed on the first surface of the switching gear (11>), and is a second engagement piece formed on the first surface of the switching gear (11>);
2 and 3, the switching gear (11) is moved into the operating position shown in FIGS. 2 and 3, i.e. in the second
The toothless portion (11b) has the function of holding the switching drive gear (10) in a position facing it. (14) is a control cam formed on the first surface of the switching gear (11), and the inner cam part (14a) and the trigger member (
In cooperation with the control pin (5) formed in the trigger member (3), the trigger member (3) engages the switching gear (11) and the switching drive gear (10) and the trigger member (3)
) and the trigger member (3) so as to return the trigger member (3) to the non-trigger position.
) is configured to rotationally displace the rotation control member (6) in a counterclockwise direction by cooperation with a press pin (8) of the rotation control member (6) rotatably provided on the rotation control member (6). There is.

The outer cam portion (14b) of the control cam (14)
) is associated with the abutment pressing operation of the pressing pin (8) of the rotation control member (6) to take place when said trigger member (3) is in the trigger member. (15)
is a rotary switching lever that is rotatably mounted on a fixed board by a shaft (16) and biased counterclockwise by a spring (17);
8) and a pressing portion (19) that is pressed by the pressing piece (9) of the rotation control member (6) provided on the trigger member (3). (20) is the switching gear. 11> and a switching pin (18) formed on the second surface of the rotary switching lever (15).
a switching cam that rotates the rotational switching lever (15) counterclockwise and clockwise in cooperation with the switching cam;
When the switching pin (18) of the rotation switching lever (15>) is located inside the switching cam (20), the rotation switching lever (15>) is rotated counterclockwise and the switching pin (18) is positioned inside the switching cam (20). The switching pin (18) of the rotation switching lever (15) is positioned outside the switching cam (20) by the pressing operation of the rotation control member (6) provided on the trigger member (3). In this case, the rotation switching lever (15)
is configured to rotate and displace clockwise.

(21> is a return cam formed on the second surface of the switching gear (11), and the rotation switching lever (15)
It comes into contact with the switching pin (18) formed in the pivot point and has the function of holding the rotary switching lever (15) in the non-operating position shown in FIG. (22) is the arrow (A) on the fixed board.
) (B) direction, and the spring (23) moves the arrow (
A regeneration switching member that is biased in the direction B), and when the rotation switching lever (15) is rotated counterclockwise, the first pressing portion provided on the rotation switching lever (15) It is configured to be displaced in the direction of arrow (A), which is the regeneration operation position, by the pressing force caused by (15a). (24) is a fast-forward switching member that is attached to the fixed board so that it can be moved in the directions of arrows (A) and (B). The moving switching lever (15) is configured to be displaced in the direction of arrow (A), which is the fast-forward operation position, by a pressing force from a second pressing portion (15b) provided on the dynamic switching lever (15). (25) is a first drive gear that rotates when the rotation of the electric motor is transmitted by a belt or the like, and (26> is rotatably attached to a shaft (27) and always meshes with the first drive gear (25>). The second drive gear (28) in the above-mentioned state is rotatably attached to the shaft (27) and is a rotating plate loosely connected to the rapid-forward switching member (24) as shown. The fast-forwarding transmission gear (30), which is urged to rotate counterclockwise by a spring (29) and is always in mesh with the second drive gear (26), is rotated by the shaft (31). (32) is rotatably attached to the regeneration switching member (22) by a shaft (33) and meshes with the second drive gear (26) to drive the rotation. 1 regeneration transmission gear (34) is a second regeneration transmission gear rotatably attached to the shaft (33) of the first regeneration transmission gear (32);
The rotation of the reproduction transmission gear (32) is controlled by a well-known clutch mechanism (
(not shown).

(35) serves as a driving source for the reel shaft, and the shaft (36)
This is a reel shaft driving gear rotatably attached to a fixed base plate, and during a playback operation, the second playback transmission gear (34) is meshed, and during a fast-forward operation, the fast-forward transmission gear (30) is meshed. Configured to match. When the reel shaft driving gear (35) rotates, the reel shaft is rotationally driven by a well-known mechanism. In such a configuration, the operation of supplying drive current to the plunger (1) that performs the trigger operation is performed in a short time, but is performed only once when switching to the regeneration operating state and when switching to the stop state. 0 is configured to be performed twice at a predetermined interval when switching to the fast forward operation state.
The operation switching device of the present invention is constructed as described above, and its operation will be explained next.

The state shown in FIG. 1 is a stopped state, in which the trigger member (3) is in a non-triggering position, and the control pin (5) formed on the trigger member (3) is connected to the switching gear. The first engagement piece (12) formed on (11)
The switching gear (11) is held in the illustrated stop position. In addition, the rotation switching lever (15>) is in the non-operating position and does not have the same effect on the playback switching member (22) and the fast forwarding switching member (24). When the user performs the regeneration operation, power is supplied to the electric motor and the plunger (1
) can be supplied with drive current for a short time. When power is supplied to the electric motor, the electric motor starts rotating and its rotational force is transmitted to the switching drive gear (10) and the first drive gear (
25) is rotated. In addition, the plunger (
When a driving current is supplied to 1), the suction rod (2) that was in the retracted position is displaced to the protruding position in the direction of arrow (A), and the displacement force causes the trigger member (3> to move counterclockwise. When the trigger member (3) is rotated to the trigger position, the engagement state between the control pin (5) and the first engagement piece (12) is released and the control pin (5) is rotated to the trigger position. ) is formed on the control cam (14) of the switching gear (11).
4c) and rotate the switching gear (11) slightly counterclockwise. When the switching gear (11) rotates counterclockwise, it engages with the switching drive gear (10) which is rotated clockwise by an electric motor, and the switching gear (11) engages with the switching drive gear (10). Gear (10)
is rotated counterclockwise by the driving force of. When the switching gear (11) rotates counterclockwise, the control pin (5) receives a pressing force from the first return cam portion <14d formed on the control cam (14) of the switching gear (11). The trigger member (3) on which the control pin (5) is formed is rotated clockwise and returned to the non-trigger position shown in FIG. When the trigger member (3) rotationally returns to the non-trigger position, the suction rod (2) of the plunger (1>) is displaced to the storage position by the rotational return force. In this state, the switching gear (11) rotates counterclockwise, and the second missing tooth portion (llb) is formed at a predetermined position, that is, the switching gear (11).
When the switch rotates to the operating position facing the switching gear (10), the second engagement piece (13> formed on the switching gear (11) and the trigger member (3) which has been returned to the non-trigger position Due to the engagement with the formed control pin (5), the switching gear (11) is held in the operating position shown in FIG. When the operation is performed, the switching gear (1
1) rotates from the stop position shown in FIG. 1 to the operating position shown in FIG. 2, but at this time, the switching cam (20) and the return cam ( 2
1) also rotates in the same way. When such an operation is performed, the trigger member (3) is in a state returned to the non-trigger position, so that the pressing pin of the rotation control member (6) rotatably provided on the trigger member (3) (8) is the outer cam part (14) of the control cam (14) of the switching gear (11).
b), and the rotation control member (6) is not subjected to any rotational displacement force. Therefore, the rotation switching lever (
15) is not subjected to clockwise rotational displacement force,
The rotation switching lever (15) is rotated counterclockwise with the rotation of the return cam (21) by the urging force of the subunong (17). As a result, the switching pin (18) formed on the rotation switching lever (15) is located inside the switching cam (20) formed on the switching gear (11), and the switching cam (20), the rotation switching bar (15>) is rotated counterclockwise.When the rotation switching lever (15) is rotated counterclockwise, the rotation switching bar (15>) is rotated counterclockwise. The first pressing part (15a) provided on the lever (15) comes into contact with the end (22a) of the regeneration switching member (22), and the regeneration switching member (22>) is pushed by the urging force of the nubring (23). When the regeneration switching member (22) is slid to the regeneration operation position, the first regeneration transmission gear is moved as shown in FIG. (32) is the second drive gear (
26), and the second reproduction transmission gear (34) also meshes with the reel shaft drive gear (35). Therefore, the rotational force of the electric motor is transmitted to the first drive gear (25), the second drive gear (26), the first reproduction transmission gear (32), the second reproduction transmission gear (34), and the reel shaft drive gear (35). )
The signal is transmitted to the take-up reel shaft via the magnetic tape, and the magnetic tape is driven for reproduction operation. The state shown in FIG. 2 shows such a regeneration operation state, in which the rotation switching lever (15) and the regeneration switching member (22)
is a switching cam (20) formed on the switching gear (11).
) and a switching pin (18) provided on the rotation switching lever (15), and the rotation switching lever (15) is held in the regeneration operation position.

As described above, the switching operation from the stopped state to the reproducing operating state is performed.Next, the operation when the stopping operation is performed while in the reproducing operating state will be explained. If you perform the stop operation while in the regeneration operation state shown in Figure 2, the plunge will occur.
-(1) A driving current is supplied for a short time. As a result, the suction body (2) that was in the storage position is displaced to the protruding position in the direction of arrow (A), and the displacement force causes the trigger member (3) to be rotationally displaced to the trigger position in the counterclockwise direction. . When the trigger member (3) is rotationally displaced to the trigger position, the engagement state between the control pin (5) and the second engagement piece (13) is released, and the control pin (5) is moved to the switching gear (11). A second control cam (14) formed on the control cam (14) of
It comes into contact with the trigger cam part (14e), and the switching gear (1
1) Rotate slightly counterclockwise. When the switching gear (11) rotates counterclockwise, the switching gear (10) is rotated clockwise by an electric motor.
), and the switching gear (11) is rotated counterclockwise by the driving force of the switching drive gear (10). When the switching gear (11) rotates counterclockwise, the control pin (5) receives a pressing force from the second return cam part (14f) formed on the control cam (14>) of the switching gear (11>). , the trigger member (3) on which the control pin (5) is formed is rotated clockwise and returned to the non-trigger position shown in FIG. When the rotation returns to the trigger position, the plunger (1
) is moved to the storage position. In this state, the switching gear (11) rotates counterclockwise, and the first toothless portion (lla) formed on the switching gear (11) faces the switching drive gear (10). When it rotates to the stop position, the first engagement piece (12) formed on the switching gear (11) and the control pin (5> formed on the trigger member (3) that has been returned to the non-trigger position) The switching gear (11)
can be held at the stop position shown in FIG. As described above, when the trigger member (3) performs the trigger operation in conjunction with the stop operation, the switching gear (11) switches to the second position.
It rotates from the operating position shown in the figure to the stop position shown in Figure 1, but at this time, the switching cam (20> and return cam (21) formed on the switching gear (11) also rotate. When the switching cam (20) rotates, the switching pin (18) formed on the rotation switching lever (15) and the switching cam (20) are disconnected from each other, and the rotation switching lever (15) is rotated clockwise in cooperation with the return cam (21) and is held in the non-operating position shown in Fig. 1.As a result, the regeneration switching member (22) is slid into the non-operating position in the direction of arrow (B) by the biasing force of the spring (23), and the second regeneration transmission gear (34) attached to the regeneration switching member (22) is connected to the reel. It is separated from the shaft drive gear (35).After this operation, the power supply to the electric motor is cut off and the tape recorder is brought to a halt.

As described above, the switching operation from the stopped state to the reproducing operating state and the switching operation from the reproducing operating state to the stopped state are performed.Next, the switching operation to the fast-forward operating state will be explained.

When the user performs a fast forward operation while in the stopped state shown in FIG. 1, power is supplied to the motor and driving current is supplied for a short time to the plunger (1). The operation of supplying drive current to is performed twice, once during a fast-forward operation and once after a predetermined time. When the first supply of drive current to the plunger (1) is performed in conjunction with a fast-forward operation, the trigger member (3) is moved from the retracted position to the protruding position. is displaced to the trigger position, and the switching gear (11) and the switching drive gear 10) are engaged with each other. The switching gear (
11) is rotated counterclockwise by the switching drive wheel (10), the control cam (11) of the switching gear (11)
The control pin (5) receives a pressing force from the first return cam part (14d) formed in the control pin (5).
The trigger member (3) on which the trigger member (3) is formed is rotated clockwise and returned to the non-trigger position shown in FIG. When the trigger member (3) rotates back to the non-trigger position, the suction body (2) of the plunger (1) is displaced to the storage position by the rotational return force. Then, when the trigger member (3) is returned to the non-trigger position and the suction body (2) is moved to the storage position, the driving current is supplied to the plunger (1) for the second time. A supply operation is performed. When a driving current is supplied to the plunger (1), the suction body (2) which has been in the retracted position is moved to the protruding position, so that the trigger member (3) is rotated to the trigger position. When the switching gear (11) rotates while the trigger member (3) remains in the trigger position, the rotation control member (6) rotatably provided on the trigger member (3)
) of the control cam (1) of the switching gear (11)
4> and comes into contact with the outer cam part (14b) of the cam part (14b).
The rotation control member (6) is rotated by the pressing force received from the rotation control member (6)
) is rotated counterclockwise about the shaft (7). When the rotation control member (6>) is rotationally displaced in the counterclockwise direction, the pressing piece (9) formed on the rotation control member (6) changes to the pressing portion formed on the rotation switching lever (15). (19), the rotation switching lever (15) is rotated slightly clockwise about the shaft (16).When the rotation switching bar (15) is rotated clockwise, The switching pin (18) formed on the rotation switching lever (15) is located outside the switching cam (20) formed on the switching gear (11), and the switching cam (20) is formed on the switching gear (11). As the rotation switching bar (15) is rotated clockwise, the rotation switching bar (15) is rotated clockwise. 15) provided in the second pressing part (1
5b) comes into contact with the end (24a) of the fast-forward switching member (24), and presses and displaces the fast-forward switching member (24) to the fast-forward operating position in the direction of arrow (A). When the fast-forward switching member (24) is slid to the fast-forward operating position, the rotating plate (28) loosely connected to the fast-forward switching member (24) is rotated clockwise, and the third As shown in the figure, the fast-forward transmission gear (30) is in mesh with the reel shaft drive gear (35). Therefore, the rotational force of the electric motor is transmitted to the first drive gear (25), the second drive gear ( 26
), is transmitted to the take-up reel shaft via the fast-forward transmission gear (30) and the reel shaft drive gear (35), and the magnetic tape is driven for fast-forward operation. On the other hand, the trigger member (3), which had been displaced to the trigger position, was moved to the control cam (14) of the switching gear (11).
) is rotated to return to the non-trigger position shown in FIG. 1 by the pressing force on the control pin (5) by the third return cam portion (14g) formed in the third return cam portion (14g). The trigger member (
3) returns to the non-trigger position, the suction body (2) of the plunger (1) is displaced to the storage position by the return force of the rotation. In such a state, that is, the trigger member (3
) is in the non-trigger position, the switching gear (1
1) rotates counterclockwise to a predetermined position, that is, the switching gear (
When the second toothless portion (llb) formed on the switching gear (11) rotates to the operating position where it faces the switching drive gear (10), the second engagement piece 13) formed on the switching gear (11) rotates.
and a control pin (5) formed in the trigger member (3).
3, so that the switching gear (11) is held in the operating position shown in FIG. The state shown in FIG. 3 shows such a fast forward operation state,
Rotation switching lever (15) and fast forward switching member (24)
is a switching cam (20) formed on the switching gear (11).
) and the switching pin (18), it is held in the rapid-forward operation position.

As described above, the switching operation from the stopped state to the fast-forward operation state is performed.Next, the operation when a stop operation is performed while in the fast-forward operation state will be explained. If a stop operation is performed in the fast forward operating state shown in FIG. 3, a driving current is supplied to the plunger (1) for a short time. As a result, the suction body (2) that was in the storage position is displaced to the protruding position in the direction of arrow (A), and the displacement force rotationally displaces the trigger member (3> to the trigger position in the counterclockwise direction). When the trigger member (3) is rotated to the trigger position, the control pin (5) and the second engagement piece (13
) is released and the control pin (5)
comes into contact with the second trigger cam portion (14e) formed on the control cam (14) of the switching gear (11), causing the switching gear (11) to rotate slightly counterclockwise.

When the switching gear (11) rotates counterclockwise, it engages with the switching drive gear (10) which is rotated clockwise by an electric motor, and the switching gear (
11) is rotated counterclockwise by the driving force of the switching drive gear (10). The switching gear (11)
When the switch rotates counterclockwise, the second return cam portion (14f) formed on the control cam (14) of the switching gear (11)
), the control pin (5) receives a pressing force, and the trigger member (3) on which the control pin (5) is formed is rotated clockwise to the non-trigger position shown in FIG. He is forced to return.

When the trigger member (3) rotates back to the non-trigger position, the suction body (2) of the plunger (1) is displaced to the storage position by the rotational return force.

In this state, the switching gear (11) rotates counterclockwise, and the first toothless portion (lla) formed on the switching gear (11) faces the switching drive gear (10). When the switching gear rotates to the stop position, the first engagement piece (12) formed on the switching gear 11) and the control pin (5) formed on the trigger member (3) which has been returned to the non-trigger position , the switching gear (1) is engaged.
1) will be held at the stop position shown in FIG. When the trigger member (3) performs the trigger operation in conjunction with the stop operation, the switching gear (11)
It rotates from the operating position shown in Fig. 3 to the stop position shown in Fig. 1, but at this time, the switching cam (20) and return cam (21) formed on the switching gear (11) also do the same. Rotate to. When the switching cam (20) rotates, the switching pin (18) formed on the rotation switching lever (15) rotates.
) and the switching cam (20) are broken, and the rotating switching lever (15) is displaced and held in the non-operating position shown in FIG. 1 by cooperation with the return cam (21). It turns out. As a result, the fast forward switching member (24) is slid to the non-operating position in the direction of arrow (B) due to the biasing force of the spring (29) that biases the rotating plate (28) counterclockwise. The rapid feed transmission gear (30) attached to the rotation plate (28) is spaced apart from the reel shaft drive gear (35). After this operation, the power supply to the machine is cut off, and the tape recorder is brought to a halt.

In this embodiment, the drive mechanism of the reel shaft is switched by the rotational displacement operation of the rotational switching lever (15), but the rotational displacement operation of the rotational switching lever (15) accompanying the playback operation is changed. It is also possible to use this to move the sliding substrate on which the magnetic head is mounted to an operating position, that is, a position where the magnetic head contacts the magnetic tape.

(G) Effects of the Invention The operation switching device of the present invention provides a tape recorder configured to perform operation switching using the rotational force of an electric motor. The switching cam formed on the switching gear rotates the switching lever, which performs the switching operation for the fast-forward operation by rotational displacement in the second direction, and triggers the direction of the rotational displacement. Since the selection is made by the rotation control member provided on the trigger member which is moved to the trigger position by the plunger during operation, two different switching operations can be performed by the same rotational movement of the switching gear, and the plunger... −
Since the switching operation is performed by the control operation, the present invention has the advantages of excellent operability and a simple configuration.

[Brief explanation of drawings]

The drawings all relate to the operation switching device of the present invention, and FIG. 1 is a plan view showing the stop state, FIG. 2 is a plan view of the main part showing the playback state, and FIG. 3 is a plan view of the main part showing the fast forward state. Figure, 4th
The figure is an enlarged plan view of main parts showing a stopped state. Explanation of main drawing numbers (1)... Plunger (2)... Suction rod,
(3)...Trigger member, (5)...Control pin,
(6)...Rotation control member, (lO)...Switching drive gear, (11)...Switching gear, (12)...
・First engaging piece, (13)...Second engaging piece, (14
)...control cam, (15)...rotation switching lever
(18)...Switching pin, (2o)...Switching cam, (21)...Return cam, (22)...Regeneration switching member, (24)...Fast forward switching member , (2
5)...First drive gear, (26)...Second drive gear, (28)...Rotating plate, (30)...Transmission gear for rapid feed, (32)...First Regeneration transmission gear, (
34)...Second reproduction transmission gear, (35)...Reel shaft drive gear.

Claims (1)

[Claims] (1) A switching drive gear rotationally driven by an electric motor, a trigger member that is displaced to the trigger position by a plunger when the trigger is operated and is provided with a control pin and a rotation control member, and the trigger position of the trigger member a switching gear that meshes with the switching drive gear and is rotated from the stop position to the operating position and from the operating position to the stop position by the rotational force of the switching drive gear; a first surface formed on the trigger member for engaging a control pin on the trigger member to maintain the switching gear in a stop position and an operating position;
and a second engagement piece, which is formed on the first surface of the switching gear, and which returns the trigger member from the trigger position to the non-trigger position and rotates when the trigger member is in the trigger position. a first control cam which is rotatably attached to the fixed base plate and which performs a selection operation of making contact with the control member and rotationally displacing the rotation control member;
A rotary switching lever that performs a switching operation for a playback operation by rotational displacement in a direction, and performs a switching operation for a fast-forward operation by a rotational displacement in a second direction, which is the opposite direction; and the rotational switching lever. A switching pin formed on the lever cooperates with a switching pin formed on the second surface of the switching gear and also formed on the rotation switching lever to move the rotation switching lever in the first direction or the rotation switching lever. The switching cam is configured to rotate in two directions, and the rotation direction of the rotation switching lever by the switching cam is selected by the rotation displacement operation of a rotation control member provided on the trigger member. 1. An operation switching device for a tape recorder, characterized in that the switching operation between a playback operation and a fast-forward operation is selectively performed.