JPH0643839U - Tape player mode switching transmission mechanism - Google Patents

Abstract

(57) [Abstract] [Purpose] In a tape player that transmits rotation of a drive gear to a reel gear via a transmission gear, even if a driven gear is arranged on a line connecting left and right reel gears, the gear can be smoothly disengaged. . A mechanism for selectively transmitting the rotation of a large-diameter gear 27 on the driving side and a small-diameter gear 32 integrated with the driving gear to a left and right reel gears 18a and 18b, and a driven gear of a swing plate 24 having a fulcrum shaft 30a as a fulcrum The large-diameter gear 22 and the small-diameter gear 22a integral therewith
The idle gear 20 that constantly meshes with the large diameter gear 22 is pivotally supported. [Effect] A large-diameter gear 27, which is a driven gear, is attached to the swing plate 24.
According to the configuration in which the small diameter gear 22a and the idle gear 20 that meshes with the large diameter gear 22 are pivotally supported, even if the driven gear is arranged on the line connecting the reel gears, the gear can be smoothly disengaged. Further, this mechanism can reduce the size of the rear part of the cassette, which is advantageous for the battery space.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to improvement of a mode switching transmission mechanism of a tape player.

[0002]

[Prior art]

 FIG. 10 shows a schematic configuration of a conventional general mode switching transmission mechanism. In addition, in order to easily understand the relationship with the configuration of the present invention, the same reference numerals as those of the embodiment of the present invention are attached in the figure.

In FIG. 10, 18a and 18b are left and right reel gears, 27 is a drive gear, 30a is an axis thereof, 22 and 22a are coaxial driven gears, 20 is an idle gear, and the large-diameter gears 22 and The small-diameter gear 22a is pivotally supported by a swing arm (not shown) and swings around a shaft center 30a. The reel gears 18a and 18b and the idle gear 20 are pivotally supported at fixed positions.

When switching between the fast forward (FF) and rewind (REW) modes of the tape or the play (FWD) and reverse (RVS) modes of the tape, the swing displacement of the swing arm causes the gear 22 to move. Meshes with either the reel gear 18a or the idle gear 20. In this way, the modes of FF and REW or FWD and RVS can be switched by the swing displacement of the gear 22, so that the idle gear 20 is required for one reel gear.

Further, the gear 22 which is pivotally displaced is placed at a position projecting above the line connecting the reel gears 18a and 18b in relation to the biting angle of the gear. According to this configuration, the biting force of the gear 22 is relatively small, and the contact angle B with the gear 22 is small when the gear 22 is disengaged from the mesh with the idle gear 20 (around 70 degrees is preferable). There are advantages that there is no danger of rotating the gear 20 and that the operating force becomes light.

[0006]

[Problems to be solved by the device]

 However, if the gear 22 is configured to project above the line connecting the reel gears 18a and 18b, in a small tape player or the like, an important space factor as a headphone is deteriorated, and in particular, a storage space for a battery cannot be taken. There is.

Therefore, in order to eliminate the above-mentioned drawbacks in space, it is conceivable to arrange the gear 22 on the reel gear line as shown in FIG. However, in this configuration, since the contact angle B of the gear 22 with respect to the gear 20 becomes large (90 degrees or more), when the gear 22 is disengaged from the mesh with the gear 20, the gear 20 is slightly rotated. When the gear 22 disengages at the end of the push, it requires an extremely large force. Therefore, lever operation becomes very heavy.

[0008]

[The purpose of the device]

 The present invention has been made to solve the above problems, and provides a mode switching transmission mechanism of a tape player that can smoothly disengage the gear even when the swinging gear is arranged on a line connecting the left and right reel gears. Its main purpose is to provide.

[0009]

[Means for Solving the Problems]

 The present invention relates to a tape player mode switching transmission mechanism that transmits the rotation of the drive gear to the reel gear via the transmission gear, and the transmission gear is always meshed with the drive gear on a swing plate provided to be swingable. It is composed of a first transmission gear supported and a second transmission gear which is always meshed with the first transmission gear and which is supported by the oscillating plate. When transmitting rotation to one reel gear, When the oscillating plate is oscillated in one direction to engage the first transmission gear, and when transmitting rotation to the other reel gear, the oscillating plate is oscillated in the other direction to engage the second transmission gear. The main idea is to let them do it.

[0010]

With the above structure, as shown in the schematic view of FIG. 12, the coaxial gears 22 and 22a and the idle gear 20 meshed with the gears 22 are swung about the axis 30a of the drive gear 27. This is a structure in which the oscillating plate is pivotally supported.

According to the above configuration, even when the gear 22 is arranged on the line connecting the reel gears 18a and 18b, the biting force between the reel gear 18b and the idle gear 20 is small, and the rotational moment of the rocking plate due to the biting force is small. Becomes F ₆ · L ₄ −F ₅ · L ₃ , and the amount of F ₅ · L ₃ is reduced, so the lever operating force can be small. However, F ₆ is the force in the direction perpendicular to the tooth surface received by the gear 18 b from the gear 20, and F ₅ is the resultant force of F ₁ and F ₂ .

[0012]

【Example】

 FIG. 1: (FF mode operation) In the figure, 18a and 18b are reel gears. A rocking plate 24 is rockable in the (Ero) direction with a supporting shaft 30a standing on the chassis side as a fulcrum. A gear in which a large-diameter gear 22 and a small-diameter gear 22a are integrated and an idle gear 20 which is constantly meshed with the large-diameter gear 22 are axially supported by the oscillating plate 24 (see FIG. 8). .

A large-diameter gear 27 and a small-diameter gear 32 centering on the support shaft 30a of the oscillating plate 24 are integrally arranged. An operating lever 23 is arranged below the rocking plate 24 so as to be able to move forward and backward. As shown in FIG. 9, the actuating lever 23 is provided with a wedge portion 23a and engaging protrusions 23b and 23c at required portions thereof. As shown in FIG. 7, when the operating lever 23 is in the retracted position, the integrated gear of the gears 22 and 22a is in the position biased by the coil spring 35, and the large-diameter gear 22 meshes with the reel gear 18a and the small-diameter gear 22 is engaged. The gear 22a is meshed with the large-diameter gear 27 on the driving side, and rotation of a motor (not shown) is performed by the pulley 9 → gear 9a → intermediate gear 28 → large-diameter gear 27 → small-diameter gear 22a → large-diameter gear 22 → It is transmitted through the route of the reel gear 18a and becomes the FF mode (or manual RVS mode).

Next, as shown in FIG. 6, when the operating lever 23 is slid to the forward position, the wedge portion 23 a engages with the boss slope 22 c of the large diameter gear 22 and resists the spring 35. Since the integrated gear of the gears 22 and 22a is slid in the axial direction, the motor rotation is transmitted through the path of the small diameter gear 32 → the large diameter gear 22 → the reel gear 18a, and the automatic reverse mode is set.

In FIG. 1, reference numeral 8 denotes an FF mode operation lever. When this is pushed in, the lever tip 8a pushes the right projection 24a (see FIG. 8) of the rocking plate 24, so The plate 24 swings around the fulcrum shaft 30 in the direction of arrow A, the gear 22 meshes with the reel gear 18a (see FIG. 7), and the FF mode is set.

FIG. 2: (REW mode operation) In FIG. 2, 7 is a REW mode operation lever, and when this is pushed in, the lever tip 7a causes the protrusion 24b on the right side of the rocking plate 24 (see FIG. 8). ) Is pressed, the swing plate 24 swings about the fulcrum shaft 30 in the direction of arrow B, the idle gear 20 meshes with the reel gear 18b, and the REW mode is set. In this case, as shown in FIG. 7, the gear 27 and the gear 22a mesh with each other.

FIG. 3: (Auto RVS Mode) When the tape end (end) is reached in the play mode, the end signal is detected and the FWD play is changed to the RVS play, and the RVS play is changed to the FWD play.

(1) While the tape is running, the portion 12a of the release arm 12 is constantly urged by the cam portion 27a of the gear 27 and the detection spring 21 via the detection arm 19 to the portion 12c of the release arm 12. Therefore, it swings between the portions 12a to 12d. (2) At the tape end, the rotation of the gear 32 stops, and the rotation of the detection spring 21 also stops, and the protrusion of the gear 27 causes the protrusion of the gear 27 to fly to the position of the portion 12a. (3) The release arm 14 is rotated in the direction of arrow E about the same rotation shaft 30b. (4) At the portion 14a, the switching arm 13 is operated in the direction from arrow F to G or from T to F. (5) At the portion 13a of the switching arm 13, the slide plate 2 is slid in the direction of d when the arrow C is shown, and in the direction of C when the arrow is shown c. (6) By the operation of the slide plate 2, the pinch rollers are brought into pressure contact with the capstan shafts 31a and 31b, and the rotation of the reel is alternately switched. In the case of Ha, it will be FWD play, and in the case of D, it will be RVS play.

FIG. 3: (Manual / RVS) (1) When the operation lever 1 is pushed, the release arm 14 is pushed in the direction of arrow E. (2) Hereafter, the same as the above items 4 to 6, the FWD → RVS play is alternately switched each time the lever 1 is pressed.

FIG. 7: (Gear mechanism) The gear consisting of the large-diameter gear 22 and the small-diameter gear 22 a is constantly urged by the spring 35 in the direction of the arrow, but when the FF mode lever 8 of FIG. 1 is pushed, The gear 22 meshes with the reel gear 18a.

FIG. 6: (Gear mechanism) In FIG. 1, when the FWD mode lever 5 is pushed, the tip projection 10 a of the head plate 10 pushes the engagement projection 23 b of the actuating lever 23, so that the actuating lever 23 moves forward. Then, the wedge portion 23a engages with the boss slope 22c of the gear 22, and slides the gears 22 and 22a against the spring 35 in the direction of arrow C. Then, the gear 22 meshes with the gear 32 and is decelerated, and the rotation is transmitted to the other reel gear 18b via the one reel gear 18a or the idle gear 20, and the play rotation is performed.

FIG. 4: (FWD play mode) When the slide plate 2 is located in the direction of arrow C. (1) When the play lever 5 is pushed, the head plate 10 which is an integral member advances. (2) As the head plate 10 moves forward, the operating lever 23 moves forward, the gear 22 moves and meshes with the gear 32, and a rotation transmission path with the reel gear 18a is formed. (3) At the same time, the sub slide plate 6 is advanced together with the head plate 10 to push the tip projection 24c of the swing plate 24 along the inclined portion 6a to fix the sub slide plate 6 in the groove of the sub slide plate 6. (4) The oscillating plate 24 oscillates about the fulcrum shaft 30a in the direction of arrow a, and the gear 22 meshes with the reel gear 18a. (5) As the head plate 10 advances, the pinch roller 33a comes into contact with the capstan shaft 31a, and the FWD play is performed.

FIG. 5: (RVS play mode operation) When the slide plate 2 is located in the direction of arrow D. (1) When the lever 5 is pushed, the head plate 10 which is an integral member moves forward. (2) The tip projection 10a of the head plate 10 pushes the engagement projection 23b of the operating lever 23. (3) Then, according to the above description, the gear 22 moves to form a rotation transmission path of gear 32 → gear 22 → idle gear 20 → reel gear 18b. (4) At the same time, the sub-slide lever 6 is also moved forward by operating the lever 5, and the tip projection 24c of the swing plate 24 is pushed along the inclined portion 6a to be fixed in the groove of the sub-slide plate 6. (5) The swing plate 24 swings about the fulcrum shaft 30a in the direction of arrow B, and the idle gear 20 meshes with the reel gear 18b. (6) As the head plate 10 advances, the pinch roller 33b comes into contact with the capstan shaft 31b, and the RVS play is performed. (7) When the slide plate 2 is switched to the predetermined position by the switching operation, the lever 38 is urged by the panel 38. Since the boss 2a of the slide plate 2 is inserted in the long hole 37a of the lever 37, the slide plate is the reversing panel 38 through the lever 37, so that the FWD play is always performed in the direction of "c" while the FDS play is always performed in the direction of "c". Is urged in the direction.

Stop operation: When the lever 3 is pushed in each mode, a lock plate (not shown) is actuated to unlock each lever to enter the stop mode.

[0025]

[Effect of device]

 As described above, according to the structure of the present invention, even if the swing transmission gear is arranged on the line connecting the left and right reel gears, it is possible to obtain the mode switching transmission mechanism of the tape player which can smoothly disengage the gear. Therefore, the size of the entire cassette can be reduced, and in particular, the size behind the center of the cassette can be reduced, so that a player can be constructed that is advantageous in terms of battery space.

[Submission date] July 28, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content] [Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to improvement of a mode switching transmission mechanism of a tape player.

[0002]

[Prior art]

 FIG. 10 shows a schematic configuration of a conventional general mode switching transmission mechanism. In addition, in order to easily understand the relationship with the configuration of the present invention, the same reference numerals as those of the embodiment of the present invention are attached in the figure.

[0003] In FIG. 10, 18a, 18b are the left and right reel, 27, 32 drive gear which is coaxial, 30a is the axis, 22, 22a are driven gear 20 which is coaxially is A Idorugiya, the large The small-diameter gear 22 and the small-diameter gear 22a are pivotally supported by a swing arm (not shown) and swing about a shaft center 30a. The reel gears 18a, 18b and the idle gear 20 are pivotally supported at fixed positions.

When the tape is fast-forwarded (FF), rewound (REW), or switched between play (FWD) and play (RVS), the gear 22 moves due to the swing displacement of the swing arm. It meshes with either the reel gear 18a or the idle gear 20. In this way, the modes of FF and REW or FWD and RVS can be switched by the swing displacement of the gear 22, so that the idle gear 20 is required for one reel gear.

Further, the gear 22 which is pivotally displaced is placed at a position projecting above the line connecting the reel gears 18a and 18b in relation to the biting angle of the gear. According to this configuration, the biting force of the gear 22 is relatively small, and when the gear 22 is disengaged from meshing with the idle gear 20, the contact angle β with the gear 22 is small (around 70 degrees is good). There are advantages that there is no danger of rotating the gear 20 and that the operating force is reduced.

[0006]

[Problems to be solved by the device]

 However, if the gear 22 is configured to project above the line connecting the reel gears 18a and 18b, in a small tape player or the like, an important space factor as a headphone is deteriorated, and in particular, a storage space for a battery cannot be taken. There is.

Therefore, in order to eliminate the above-mentioned drawbacks in space, it is conceivable to arrange the gear 22 on the reel gear line as shown in FIG. However, in this configuration, since the contact angle β of the gear 22 with respect to the gear 20 becomes large (90 degrees or more), when the gear 22 disengages from the meshing with the gear 20, the gear 20 is slightly rotated. When the gear 22 disassociates at the end of the tape, it requires an extremely large force. Therefore, lever operation becomes very heavy.

[0008]

[The purpose of the device]

 The present invention has been made to solve the above problems, and provides a mode switching transmission mechanism of a tape player that can smoothly disengage the gear even when the swinging gear is arranged on a line connecting the left and right reel gears. Its main purpose is to provide.

[0009]

[Means for Solving the Problems]

 The present invention relates to a tape player mode switching transmission mechanism for transmitting the rotation of the drive gear to the reel gear via the transmission gear, and the transmission gear is constantly meshed with the drive gear on a swing plate provided swingably. It is composed of a first transmission gear supported and a second transmission gear which is always meshed with the first transmission gear and which is supported by the oscillating plate. When transmitting rotation to one reel gear, When the oscillating plate is oscillated in one direction to engage the first transmission gear, and when transmitting rotation to the other reel gear, the oscillating plate is oscillated in the other direction to engage the second transmission gear. The main idea is to let them do it.

[0010]

[Action]

 As shown in the schematic view of FIG. 12, the above-described structure has a swing plate that swings coaxial gears 22 and 22a and idle gear 20 meshed with the gears 22 around a shaft center 30a of the drive gear 27. It is a structure that is supported by.

According to the above configuration, even when the gear 22 is arranged on the line connecting the reel gears 18a and 18b, the biting force between the reel gear 18b and the idle gear 20 is small, and the rotational moment of the rocking plate due to the biting force is small. Becomes F ₆ · L ₄ −F ₅ · L ₃ , and the amount of F ₅ · L ₃ is reduced, so the lever operation force can be small. However, F ₆ is the force in the direction perpendicular to the tooth surface that the gear 18 b receives from the gear 20, and F ₅ is the resultant force of F ₁ and F ₂ .

[0012]

【Example】

 FIG. 1: (FF mode operation) In the figure, 18a and 18b are reel gears. A rocking plate 24 is rockable in the (Ero) direction with a supporting shaft 30a standing on the chassis side as a fulcrum. A gear in which a large-diameter gear 22 and a small-diameter gear 22a are integrated and an idle gear 20 which is constantly meshed with the large-diameter gear 22 are axially supported by the oscillating plate 24 (see FIG. 8). .

A large-diameter gear 27 and a small-diameter gear 32 centering on the support shaft 30a of the oscillating plate 24 are integrally arranged. An operating lever 23 is arranged below the rocking plate 24 so as to be able to move forward and backward. As shown in FIG. 9, the actuating lever 23 is provided with a wedge portion 23a and engaging protrusions 23b and 23c at required portions thereof. As shown in FIG. 7, when the operating lever 23 is in the retracted position, the integrated gear of the gears 22 and 22a is in the position biased by the coil spring 35, and the large-diameter gear 22 meshes with the reel gear 18a and the small-diameter gear 22 is engaged. The gear 22a is meshed with the large-diameter gear 27 on the driving side, and rotation of a motor (not shown) is performed by the pulley 9 → gear 9a → intermediate gear 28 → large-diameter gear 27 → small-diameter gear 22a → large-diameter gear 22 → It is transmitted through the route of the reel gear 18a and becomes the FF mode .

Next, as shown in FIG. 6, when the operating lever 23 is slid to the forward position, the wedge portion 23 a is engaged with the conical base portion 22 c formed on the boss portion of the large diameter gear 22. and, since the sliding of the integral-gear in the axial direction of the gear 22,22a against Sprint grayed 35, the motor rotation is transmitted through the path of the small-diameter formic ya 32 → the large-diameter gear 22 → reel gear 18a, the Play (FWD ) It becomes a mode.

In FIG. 1, reference numeral 8 denotes an FF mode operation lever. When this is pushed in, the lever tip 8a pushes the right projection 24a (see FIG. 8) of the rocking plate 24, so The plate 24 swings around the fulcrum shaft 30a in the direction of arrow A, the gear 22 meshes with the reel gear 18a (see FIG. 7), and the FF mode is set.

FIG. 2: (REW mode operation) In FIG. 2, 7 is a REW mode operation lever, and when this is pushed in, the lever tip 7a causes the protrusion 24b on the right side of the rocking plate 24 (see FIG. 8). ) Is pressed, the swing plate 24 swings about the fulcrum shaft 30a in the direction of arrow B, the idle gear 20 meshes with the reel gear 18b, and the REW mode is set. In this case, as shown in FIG. 7, the gear 27 and the gear 22a are in mesh with each other.

FIG. 3: (Auto RVS Mode) When the tape end (end) is reached in the play mode, the end signal is detected and the FWD play is changed to the RVS play, and the RVS play is changed to the FWD play.

(1) While the tape is running, the portion 12a of the releasing arm 12 is moved by the cam portion 27a of the gear 27 and the detection spring 21 lightly pressed against the gear 32 , so that the releasing arm 12 moves through the detection arm 19. Since the portion 12c is constantly urged, it swings between the portions 12a to 12d. (2) At the tape end, the rotation of the gear 32 stops, so that the rotation of the detection spring 21 also stops, and the protrusion of the gear 27 rotates it to the position of the portion 12a. (3) The release arm 14 is rotated in the direction of arrow E about the same rotation shaft 30b. (4) At the portion 14a of the release arm 14 , the switching arm 13 is operated in the direction from arrow F to G or from T to F. (5) At the portion 13a of the switching arm 13, the slide plate 2 is slid in the direction of d when the arrow C is shown, and in the direction of C when the arrow is shown c. (6) By the operation of the slide plate 2, the pinch rollers are brought into pressure contact with the capstan shafts 31a and 31b, and the rotation of the reel is alternately switched. In the case of Ha, it becomes FWD play, and in the case of D, it becomes RVS play.

FIG. 3: (Manual / RVS) (1) When the operation lever 1 is pressed, the release arm 14 is rotated in the direction of arrow E. (2) Hereafter, the same as the above items 4 to 6, the FWD → RVS play is alternately switched each time the lever 1 is pressed.

FIG. 7: (Gear mechanism) The gear consisting of the large-diameter gear 22 and the small-diameter gear 22 a is constantly urged by the spring 35 in the direction of the arrow, but when the FF mode lever 8 of FIG. 1 is pushed, The gear 22 meshes with the reel gear 18a.

FIG. 6: (Gear mechanism) In FIG. 1, when the FWD mode lever 5 is pushed, the tip projection 10 a of the head plate 10 pushes the engagement projection 23 b of the actuating lever 23, so that the actuating lever 23 moves forward. Then, the wedge portion 23a is engaged with the conical base portion 22c formed on the boss portion of the gear 22, and the gears 22 and 22a are slid against the spring 35 in the direction of arrow C. There, the gear 22 meshes with the gear 32 and is decelerated, and the rotation is transmitted to the other reel gear 18b via the one reel gear 18a or the idle gear 20, and the play rotation is performed.

FIG. 4: (FWD play mode) When the slide plate 2 is located in the direction of arrow C. (1) When the play lever 5 is pushed, the head plate 10 which is an integral member advances. (2) As the head plate 10 moves forward, the operating lever 23 moves forward, the gear 22 moves and meshes with the gear 32, and a rotation transmission path with the reel gear 18a is formed. (3) At the same time, the auxiliary slide play 6 is advanced together with the head plate 10 and the tip projection 24c of the swing plate 24 is pushed along the inclined portion 6a to be fixed in the groove of the auxiliary slide plate 6. (4) The oscillating plate 24 oscillates about the fulcrum shaft 30a in the direction of arrow a, and the gear 22 meshes with the reel gear 18a. (5) As the head plate 10 advances, the pinch roller 33a comes into contact with the capstan shaft 31a, and the FWD play is performed.

FIG. 5: (RVS play mode operation) When the slide plate 2 is located in the direction of arrow D. (1) When the lever 5 is pushed, the head plate 10 which is an integral member moves forward. (2) The tip projection 10a of the head plate 10 pushes the engagement projection 23b of the operating lever 23. (3) Then, according to the above description, the gear 22 moves to form a rotation transmission path of gear 32 → gear 22 → idle gear 20 → reel gear 18b. (4) At the same time, the sub-slide lever 6 is also moved forward by operating the lever 5, and the tip projection 24c of the swing plate 24 is pushed along the inclined portion 6a to be fixed in the groove of the sub-slide plate 6. (5) The swing plate 24 swings about the fulcrum shaft 30a in the direction of arrow B, and the idle gear 20 meshes with the reel gear 18b. (6) As the head plate 10 advances, the pinch roller 33b comes into contact with the capstan shaft 31b, and the RVS play is performed. (7) When the slide plate 2 is switched to the predetermined position by the switching operation, the lever 38 is urged by the panel 38. Since the boss 2a of the slide plate 2 is inserted in the long hole 37a of the lever 37, the slide plate is the reversing panel 38 through the lever 37, so that the FWD play is always performed in the direction of "c" while the FDS play is always performed in the direction of "c". Is urged in the direction.

Stop operation: When the lever 3 is pushed in each mode, a lock plate (not shown) is actuated to unlock each lever to enter the stop mode.

[0025]

[Effect of device]

 As described above, according to the structure of the present invention, even if the swing transmission gear is arranged on the line connecting the left and right reel gears, it is possible to obtain the mode switching transmission mechanism of the tape player which can smoothly disengage the gear. Therefore, the size of the entire cassette can be reduced, and in particular, the size behind the center of the cassette can be reduced, so that a player can be constructed that is advantageous in terms of battery space.

[Brief description of drawings]

FIG. 1 is a plan view of a mode switching transmission mechanism in an FF mode according to an embodiment of the present invention.

FIG. 2 is a plan view of the transmission mechanism in REW mode.

FIG. 3 is a plan view of a transmission mechanism in a play mode (FWD → RVS).

FIG. 4 is a plan view of a transmission mechanism in a play mode (FWD).

FIG. 5 is a plan view of the transmission mechanism in a play mode (RVS).

FIG. 6 is a sectional view of a gear transmission mechanism portion.

FIG. 7 is a sectional view of a gear transmission mechanism portion before gear conversion.

FIG. 8 is a plan view of a rocking plate that supports a driven gear and an idle gear.

FIG. 9 is a plan view of an operating plate.

FIG. 10 is a schematic diagram of a conventional mode switching transmission mechanism.

FIG. 11 is a schematic view of an example in which gears are arranged in a line.

FIG. 12 is a schematic view of a mode switching transmission mechanism according to the present invention.

[Explanation of symbols]

 18a, 18b reel gear 22 swinging large diameter gear on driven side 22a small diameter gear 20 idle gear 27 large diameter gear on driving side 32 small diameter gear 10 head plates 33a, 33b pinch rollers 31a, 31b capstan shaft 2 slide plate 1 stop operating lever 3 Lever 5 FWD operation lever 7 REW operation lever 8 FF operation lever

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] July 28, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of device] Mode switching transmission mechanism of tape player

[Scope of utility model registration request]

[Brief description of drawings]

1 is a plan view of a mode switching transmission mechanism in an FF mode according to an embodiment of the present invention.

FIG. 2 is a plan view of the transmission mechanism in REW mode.

FIG. 3 is a plan view of a transmission mechanism in a play mode (FWD → RVS).

FIG. 4 is a plan view of a transmission mechanism in a play mode (FWD).

FIG. 5 is a plan view of a transmission mechanism in a play mode (RVS).

FIG. 6 is a sectional view of a gear transmission mechanism portion.

FIG. 7 is a sectional view of a gear transmission mechanism portion before gear conversion.

FIG. 8 is a plan view of an oscillating plate that supports a driven gear and an idle gear.

FIG. 9 is a plan view of an operating plate.

FIG. 10 is a schematic diagram of a conventional mode switching transmission mechanism.

FIG. 11 is a schematic diagram of an example in which gears are arranged in a line.

FIG. 12 is a schematic view of a mode switching transmission mechanism according to the present invention.

[Explanation of symbols] 18a, 18b Reel gear 22 Swing large diameter gear on driven side 22a Small diameter gear 20 Idle gear 27 Large diameter gear on driving side 32 Small diameter gear 10 Head plate 33a, 33b Pinch roller 31a, 31b Capstan shaft 2 Slide Plate 1 Stop operating lever 3 Lever 5 FWD operating lever 7 REW operating lever 8 FF Operating lever

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Fig. 12

[Correction method] Change

[Correction content]

[Fig. 12]

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Creator Takao Higuchi 2-3-17 Kaga, Itabashi-ku, Tokyo Tokyo Pigeon Co., Ltd.

Claims (1)

[Scope of utility model registration request] 1. A mode switching transmission mechanism of a tape player for transmitting rotation of a drive gear to a reel gear via a transmission gear, wherein the transmission gear is constantly meshed with a swing plate provided on a swingable plate. And a second transmission gear that is always meshed with the first transmission gear and is supported by the oscillating plate. When transmitting rotation to one reel gear, When the swing plate is swung in one direction to engage the first transmission gear and the rotation is transmitted to the other reel gear, the swing plate is swung in the other direction to move the second transmission gear. A mode switching transmission mechanism for a tape player, characterized in that they are engaged with each other.