JP3189540U - 2-way input / fixed-direction output gear set - Google Patents

Abstract

A two-way input / fixed-direction output gear set is applied to a power system driven by human power, an engine, an electric motor, or a fluid motor.
By changing the rotation direction of the input shaft, an output with the same speed ratio or different speed ratio is formed when the input is rotated in a different direction. Between the first drive rotation direction input gear set and the input shaft 2000 rotatable in the first drive rotation direction and the second drive rotation direction, and the first drive rotation direction output gear set and the output shaft 3000 rotatable in one direction. And unidirectional transmission devices 301, 302, and 303 provided between the output shaft 3000 and the input shaft 2000. At the same time as driving in the second driving rotation direction, pulling down the transmission unit in the first driving rotation direction avoids attenuation follow-up.
[Selection] Figure 1

Description

  The present invention relates to a gear set with two-direction input and constant-direction output.

  The conventional two-way input / constant-direction output gear set is driven when one of the two input rotational directions operates, and the other gear set is driven. It may become a load.

Japanese Utility Model Publication No. 61-190788

  The present invention is an improvement of a transmission gear set with two-direction input and constant-direction output, and avoids attenuation tracking by pulling the transmission unit in the first drive rotation direction simultaneously with driving in the second drive rotation direction.

  The two-way input / constant-direction output gear set of the present invention, which prevents attenuation tracking by changing the rotation direction of the input shaft, outputs the same speed ratio or different speed ratio output when rotating and inputting in different directions. Form. Its main feature is that it is rotated in one direction with the first drive rotation direction output gear set, between the first drive rotation direction input gear set and the input shaft rotatable in the first drive rotation direction and the second drive rotation direction. By installing a unidirectional transmission between the output shaft and between the output shaft and the input shaft, and driving in the second drive rotation direction, simultaneously pulling the transmission unit in the first drive rotation direction, Avoid attenuation tracking.

It is a schematic diagram which shows the gear set of the two direction input and the fixed direction output by 1st Embodiment of this invention. It is a schematic diagram which shows the gear set of the two-way input and the fixed direction output by 2nd Embodiment of this invention. It is a schematic diagram which shows the gear set of the two direction input and the fixed direction output by 3rd Embodiment of this invention. It is a schematic diagram which shows the gear set of the two direction input and the fixed direction output by 4th Embodiment of this invention. FIG. 10 is a schematic diagram showing a clutch device that is a two-way input / fixed-direction output gear set according to a fifth embodiment of the present invention and is added between an output shaft and a rotational load according to the first embodiment. FIG. 10 is a schematic diagram showing a clutch device that is a two-way input / fixed-direction output gear set according to a sixth embodiment of the present invention and is added between an output shaft and a rotational load according to the second embodiment. FIG. 10 is a schematic diagram illustrating a clutch device that is a two-way input / fixed-direction output gear set according to a seventh embodiment of the present invention and is added between an output shaft and a rotational load according to a third embodiment; FIG. 10 is a schematic diagram illustrating a clutch device that is a two-way input / fixed-direction output gear set according to an eighth embodiment of the present invention and is added between an output shaft and a rotational load according to a fourth embodiment.

Hereinafter, a two-way input / fixed-direction output gear set according to the present invention will be described with reference to the drawings.
Hereinafter, in a plurality of embodiments, substantially the same configuration is denoted by the same reference numeral, and description thereof is omitted.
(First embodiment)
FIG. 1 shows a two-way input / fixed-direction output gear set for preventing the counter-rotating gear set from following the attenuation according to the first embodiment of the present invention.
As shown in FIG. 1, the two-way input / fixed-direction output gear set is constituted by a planetary gear set, and the input shaft and the output shaft are provided coaxially. Its main configuration includes:

  One end of the input shaft 2000 passes through the shell 500 of the transmission gear set through a bearing structure. The other end of the input shaft 2000 passes through the output shaft 3000 via the unidirectional transmission device 302. A bearing is provided between the output shaft 3000 and the shell 500 of the transmission gear set.

The transmission gear set shell 500 is coupled to the main body 600 and the transmission gear set shell 500 is provided with two-way input / fixed-direction output gear set components that prevent the reverse rotation gear set from following the damping.
The main body 600 is a structure that is relatively stationary.
A unidirectional transmission device 303 is installed between the input shaft 2000 and the sun gear 202.

A planetary gear 203 is provided between the outer annular ring 204 and the sun gear 202. The center of the planetary gear 203 rotates with the planetary gear shaft 201. One end of the planetary gear shaft 201 is fixed to the shell 500 of the transmission gear set.
A unidirectional transmission device 301 is provided between the annular structure of the outer annular ring 204 and the output shaft 3000.
The sun gear 202, the planetary gear 203, and the outer annular ring 204 can be configured by gears or friction wheels.

  In the above structure, when the input shaft 2000 is driven in the first drive rotation direction, the output shaft 3000 is driven through the unidirectional transmission device 302 to output in the first drive rotation direction. Thereby, a 1st transmission gear set is comprised. At this time, the one-way transmission device 301 and the one-way transmission device 303 idle.

In the above structure, when the input shaft 2000 is driven in the second drive rotation direction, the sun gear 202 is driven through the unidirectional transmission device 303. Further, the planetary gear 203 and the outer annular ring 204 are driven, and the output shaft 3000 is driven through the annular structure of the outer annular ring 204 and the unidirectional transmission device 301, thereby rotating in the same direction as the first drive rotation direction. Output in the direction. Thereby, a 2nd transmission gear set is comprised. At this time, the unidirectional transmission device 302 idles.
In the present embodiment, the unidirectional transmission device 301 corresponds to a “first unidirectional transmission device”, the unidirectional transmission device 302 corresponds to a “second unidirectional transmission device”, and is unidirectional. The transmission device 303 corresponds to the “third unidirectional transmission device”. The same applies to later-described embodiments.

(Second Embodiment)
FIG. 2 shows a two-way input / fixed-direction output gear set that prevents the reverse rotation gear set from following the attenuation according to the second embodiment of the present invention.
As shown in FIG. 2, the two-way input / fixed-direction output gear set is constituted by a planetary gear system, and the input shaft and the output shaft are provided coaxially. Its main configuration includes:

  One end of the input shaft 2000 passes through the shell 500 of the transmission gear set through a bearing structure. The other end of the input shaft 2000 passes through the output shaft 3000 via the unidirectional transmission device 302. A bearing is provided between the output shaft 3000 and the shell 500 of the transmission gear set.

The transmission gear set shell 500 is coupled to the main body 600 and the transmission gear set shell 500 is provided with two-way input / fixed-direction output gear set components that prevent the reverse rotation gear set from following the damping.
The main body 600 is a structure that is relatively stationary.
A unidirectional transmission device 303 is installed between the input shaft 2000 and the bevel gear 402.

  A planetary gear 403 is provided between the outer bevel gear 404 and the inner bevel gear 402. The center of the planetary gear 403 rotates with the planetary gear shaft 401. One end of the planetary gear shaft 401 is coupled to the planetary gear support rack 400. The planetary gear support rack 400 is fixed to the transmission gear set shell 500.

A unidirectional transmission device 301 is provided between the outer bevel gear 404 and the output shaft 3000.
The inner bevel gear 402, the planetary gear 403, and the outer bevel gear 404 can be configured by gears or friction wheels.
The transmission ratio of the planetary gear 403 driven by the inner bevel gear 402 is acceleration, deceleration, or constant speed.
The relationship of the transmission ratio of the outer bevel gear 404 driven by the planetary gear 403 is acceleration, deceleration, or constant speed.

  In the above structure, the input shaft 2000 is driven in the first drive rotation direction, and the output shaft 3000 is driven through the unidirectional transmission device 302 to output in the first drive rotation direction. Thereby, a 1st transmission gear set is comprised. At this time, the unidirectional transmission device 301 and the unidirectional transmission device 303 idle.

  In the above structure, the input shaft 2000 is driven in the second driving rotation direction, and the internal bevel gear 402 is driven through the unidirectional transmission device 303. Further, the planetary gear 403 and the outer bevel gear 404 are driven, and the outer bevel gear 404 and the unidirectional transmission device 301 are driven, whereby the output shaft 3000 is driven and output in the same rotation direction as the first drive rotation direction. To do. Thereby, a 2nd transmission gear set is comprised. At this time, the unidirectional transmission device 302 idles.

(Third embodiment)
FIG. 3 shows a 22-direction input / constant-direction output gear set for preventing the follow-up of the reverse rotation gear set according to the third embodiment of the present invention.
As shown in FIG. 3, the two-way input / fixed-direction output gear set is configured by the same structure of the transmission that rotates and transmits in different directions, and shows that the input shaft and the output shaft are provided coaxially. Its main configuration includes:

  One end of the input shaft 2000 passes through the shell 500 of the transmission gear set through a bearing structure. The other end of the input shaft 2000 passes through the output shaft 3000 via the unidirectional transmission device 302. A first bearing is provided between the output shaft 3000 and the shell 500 of the transmission gear set.

The transmission gear set shell 500 is coupled to the main body 600 and the transmission gear set shell 500 is provided with two-way input / fixed-direction output gear set components that prevent the reverse rotation gear set from following the damping.
The main body 600 is a structure that is relatively stationary.
The input shaft 2000 passes through the transmission gear 602, and a unidirectional transmission device 303 is provided between the input shaft 2000 and the transmission gear 602.

  The transmission gear 602 and the transmission gear 603 are transmitted in different rotational directions. Both the transmission gear 603 and the transmission gear 606 are coupled to the rotation shaft 604. A second bearing is provided between the rotating shaft 604 and the transmission gear set shell 500.

The transmission gears 602 and 603 are constituted by gears or friction wheels.
The transmission gears 605 and 606 are constituted by pulleys or sprockets.
The transmission gears 606 and 605 are configured by an inner gear set of a pulley, a sprocket, or a gear set that is transmitted in the same rotational direction, that is transmitted through the transmission belt 607.
A unidirectional transmission device 301 is installed between the transmission gear 605 and the output shaft 3000.

The transmission ratio relationship between gear sets that transmit in different rotational directions is acceleration, deceleration or constant velocity.
The transmission ratio relationship between gear sets that transmit in the same rotational direction is acceleration, deceleration, or constant speed.
A gear set that transmits in the same rotational direction includes an arrangement of a transmission belt 607. The transmission belt 607 is configured by a flat belt, a V-shaped belt, a toothed chain or a steel belt pulley, or a sprocket on which the chain is arranged.

  In the above structure, when the input shaft 2000 is driven in the first drive rotation direction, the output shaft 3000 is driven through the unidirectional transmission device 302 and outputs in the first drive rotation direction. Thereby, a 1st transmission gear set is comprised. At this time, the unidirectional transmission device 301 and the unidirectional transmission device 303 idle.

In the above structure, when the input shaft 2000 is driven in the second drive rotation direction, the transmission gear 602 is driven through the unidirectional transmission device 303, and the transmission gear 603 and the transmission gear 606 are driven by the transmission gear 602. Is done. Further, when the transmission gear 605 is driven by the transmission gear 606, the output shaft 3000 is driven via the unidirectional transmission device 301, thereby outputting in the first drive rotation direction. Thereby, a 2nd transmission gear set is comprised. At this time, the unidirectional transmission device 302 idles.
In the present embodiment, the transmission gear 602 corresponds to the “first transmission gear”, the transmission gear 603 corresponds to the “second transmission gear”, the transmission gear 606 corresponds to the “third transmission gear”, The transmission gear 605 corresponds to the “fourth transmission gear”.

(Fourth embodiment)
FIG. 4 shows a two-way input / fixed-direction output gear set for preventing the counter-rotating gear set from following attenuation according to a fourth embodiment of the present invention.
As shown in FIG. 4, in the two-way input / fixed-direction output gear set, the gear set or the friction gear set that rotates and transmits in different directions has the same structure, and the input shaft and the output shaft are provided coaxially. It shows that. Its main configuration includes:

  One end of the input shaft 2000 passes through the shell 500 of the transmission gear set through a bearing structure. The other end of the input shaft 2000 passes through the output shaft 3000 via the unidirectional transmission device 302. A first bearing is provided between the output shaft 3000 and the shell 500 of the transmission gear set.

The transmission gear set shell 500 is coupled to the main body 600 and the transmission gear set shell 500 is provided with two-way input / fixed-direction output gear set components that prevent the reverse rotation gear set from following the damping.
The main body 600 is a structure that is relatively stationary.
The input shaft 2000 passes through the transmission gear 602, and a unidirectional transmission device 303 is provided between the input shaft 2000 and the transmission gear 602.

  The transmission gear 602 and the transmission gear 603 rotate and transmit in different directions. Both the transmission gear 603 and the transmission gear 616 are coupled to the rotation shaft 604. A second bearing is provided between the rotating shaft 604 and the transmission gear set shell 500.

  The transmission gear 616 drives a transmission gear 615 via a transmission gear 617 that rotates together with the rotary shaft 618, and constitutes a gear set that transmits in the same rotation direction.

The rotating shaft 618 is coupled to the shell 500 of the transmission gear set. The transmission gear 617 rotates together with the rotation shaft 618. Alternatively, the transmission gear 617 is coupled to the rotation shaft 618, and the transmission gear 617 and the rotation shaft 618 rotate together. A third bearing is provided between the rotating shaft 618 and the shell 500.
The transmission gear 615 is provided coaxially with the output shaft 3000, and the unidirectional transmission device 301 is installed between the transmission gear 615 and the output shaft 3000.

The transmission gears 602, 603, 615, 616, 617 are constituted by gears or friction wheels.
The relationship of the transmission ratio between the gear sets that rotate and transmit in different directions is acceleration, deceleration, or constant speed.
The transmission ratio relationship between gear sets that transmit in the same rotational direction is acceleration, deceleration, or constant speed.
The gear set that transmits in the same rotational direction is constituted by an internal gear set or an internal friction gear set.

  In the above structure, when the input shaft 2000 is driven in the first drive rotation direction, the output shaft 3000 is driven through the unidirectional transmission device 302 and outputs in the first drive rotation direction. Thereby, a 1st transmission gear set is comprised. At this time, the unidirectional transmission device 301 and the unidirectional transmission device 303 idle.

  In the above structure, when the input shaft 2000 is driven in the second drive rotation direction, the transmission gear 602 is driven through the unidirectional transmission device 303, and the transmission gear 603 and the transmission gear 616 are driven by the transmission gear 602. Is done. Furthermore, the transmission gear 615 is driven by the transmission gear 616 through the transmission gear 617. Further, when the output shaft 3000 is driven by the transmission gear 615 via the unidirectional transmission device 301, the output is output in the first drive rotation direction. Thereby, a 2nd transmission gear set is comprised. At this time, the unidirectional transmission device 302 idles.

In the present embodiment, the transmission gear 602 corresponds to the “first transmission gear”, the transmission gear 603 corresponds to the “second transmission gear”, the transmission gear 616 corresponds to the “third transmission gear”, The transmission gear 617 corresponds to the “fourth transmission gear”, and the transmission gear 605 corresponds to the “fifth transmission gear”.
The rotation shaft 604 corresponds to the “first rotation shaft”, and the rotation shaft 618 corresponds to the “second rotation shaft”.

(Fifth to eighth embodiments)
As shown in FIG. 5 to FIG. 8, the two-way input / fixed-direction output gear set according to the fifth to eighth embodiments of the present invention further advances the first to fourth embodiments. By installing the clutch device CL100 between the output shaft 3000 and the rotational load 3001, clutch control is performed on the output.
In the fifth embodiment shown in FIG. 5, a clutch device CL100 is added between the output shaft 3000 and the rotary load 3001 of the first embodiment shown in FIG.
In the sixth embodiment shown in FIG. 6, the clutch device CL100 is added between the output shaft 3000 and the rotary load 3001 of the second embodiment shown in FIG.

In the seventh embodiment shown in FIG. 7, the clutch device CL100 is added between the output shaft 3000 and the rotary load 3001 of the third embodiment shown in FIG.
In the eighth embodiment shown in FIG. 8, the clutch device CL100 is added between the output shaft 3000 and the rotary load 3001 of the fourth embodiment shown in FIG.

  The clutch device CL100 of the fifth to eighth embodiments is coupled with the output shaft 3000 and the rotary load 3001 by being coupled by human power, mechanical force, torque, centrifugal force, electromagnetic force, or fluid, and is transmitted. This includes disconnecting the transmission relationship between the output shaft 3000 and the rotary load 3001 by detaching.

201: Planetary gear shaft 202: Sun gear 203: Planetary gear 204: Outer annular ring 301: Unidirectional transmission device (first unidirectional transmission device)
302: Unidirectional transmission device (second unidirectional transmission device)
303: Unidirectional transmission (third unidirectional transmission)
400: Planetary gear support rack 401: Planetary gear shaft 402: Inner bevel gear 403: Planetary gear 404: Outer bevel gear 500: Shell of transmission gear set 600: Main body 602: Transmission gear (first transmission gear)
603: Transmission gear (second transmission gear)
605: Transmission gear (fourth transmission gear)
606: Transmission gear (third transmission gear)
615: Transmission gear (fifth transmission gear)
616: Transmission gear (third transmission gear)
617: Transmission gear (fourth transmission gear)
604: Rotation axis (first rotation axis)
618: Rotating shaft (second rotating shaft)
607: Transmission belt 2000: Input shaft 3000: Output shaft 3001: Rotating load CL100: Clutch device

Claims (7)

A two-way input / fixed-direction output gear set applied to a power system driven by human power, an engine, an electric motor, or a fluid motor,
Between the first drive rotation direction input gear set and the input shaft rotatable in the first drive rotation direction and the second drive rotation direction, and between the first drive rotation direction output gear set and the output shaft rotatable in one direction. And a unidirectional transmission device provided between the output shaft and the input shaft,
A two-way input / fixed-direction output gear set characterized by avoiding attenuation follow-up by driving the transmission unit in the second driving rotation direction and simultaneously pulling the transmission unit in the first driving rotation direction. Consists of a planetary gear set, the input shaft and the output shaft are provided coaxially,
One end of the input shaft (2000) passes through the bearing structure, and penetrates the shell (500) of the transmission gear set.
The other end of the input shaft (2000) passes through the output shaft (3000) via a second unidirectional transmission (302),
A bearing is provided between the output shaft (3000) and the shell (500) of the transmission gear set,
The transmission gear set shell (500) is coupled to the main body (600), which is a relatively stationary structure, and is a two-way input / fixed-direction output gear set that prevents the reverse rotation gear set from following attenuation. Parts are installed,
A third unidirectional transmission (303) is installed between the input shaft (2000) and the sun gear (202),
A planetary gear (203) is provided between the outer annular ring (204) and the sun gear (202),
The center of the planetary gear (203) rotates with the planetary gear shaft (201),
One end of the planetary gear shaft (201) is fixed to the shell (500) of the transmission gear set,
A first unidirectional transmission (301) is provided between the annular structure of the outer annular ring (204) and the output shaft (3000),
The sun gear (202), the planetary gear (203), and the outer annular ring (204) are constituted by gears or friction wheels,
When the input shaft (2000) is driven in the first driving rotation direction, the output shaft (3000) is driven by the first transmission gear set via the second unidirectional transmission device (302). Output in one drive rotation direction,
When the input shaft (2000) is driven in the second driving rotation direction, the sun gear (202) is driven by the second transmission gear set via the third unidirectional transmission device (303), and The planetary gear (203) and the outer annular ring (204) are driven, and the output shaft (301) passes through the annular structure of the outer annular ring (204) and the first one-way transmission (301). 3000) are driven and output in the same rotational direction as the first driving rotational direction,
When the input shaft (2000) is driven in the first drive rotation direction, the first unidirectional transmission device (301) and the third unidirectional transmission device (303) are idled,
The two-way input / fixed direction according to claim 1, wherein when the input shaft (2000) is driven in the second driving rotation direction, the second one-way transmission (302) is idled. Output gear set. It is constituted by a planetary gear system, and the input shaft and the output shaft are provided coaxially,
One end of the input shaft (2000) passes through the bearing structure, and penetrates the shell (500) of the transmission gear set.
The other end of the input shaft (2000) passes through the output shaft (3000) via a second unidirectional transmission (302),
A bearing is provided between the output shaft (3000) and the shell (500) of the transmission gear set,
The transmission gear set shell (500) is coupled to the main body (600), which is a relatively stationary structure, and is a two-way input / fixed-direction output gear set that prevents the reverse rotation gear set from following attenuation. Parts are installed,
A third unidirectional transmission (303) is installed between the input shaft (2000) and the bevel gear (402),
A planetary gear (403) is provided between the outer bevel gear (404) and the inner bevel gear (402).
The center of the planetary gear (403) rotates with the planetary gear shaft (401),
One end of the planetary gear shaft (401) is coupled to a planetary gear support rack (400) fixed to the shell (500) of the transmission gear set;
A first unidirectional transmission device (301) is provided between the outer bevel gear (404) and the output shaft (3000).
The inner bevel gear (402), the planetary gear (403), and the outer bevel gear (404) are constituted by gears or friction wheels,
The transmission ratio relationship of the planetary gear (403) driven by the inner bevel gear (402) is acceleration, deceleration or constant speed,
The relationship of the transmission ratio of the outer bevel gear (404) driven by the planetary gear (403) is acceleration, deceleration or constant speed,
When the input shaft (2000) is driven in the first driving rotation direction, the output shaft (3000) is driven by the first transmission gear set via the second unidirectional transmission device (302). Output in one drive rotation direction,
When the input shaft (2000) is driven in the second drive rotation direction, the inner gear (402) is driven by the second transmission gear set via the third unidirectional transmission device (303), Further, the planetary gear (403) and the outer bevel gear (404) are driven, the outer bevel gear (404) and the first one-way transmission (301) are driven, and the output shaft (3000) is driven. Driven and output in the same rotation direction as the first drive rotation direction,
When the input shaft (2000) is driven in the first drive rotation direction, the first unidirectional transmission device (301) and the third unidirectional transmission device (303) are idled,
The two-way input / fixed direction according to claim 1, wherein when the input shaft (2000) is driven in the second driving rotation direction, the second one-way transmission (302) is idled. Output gear set. The input shaft and the output shaft are provided coaxially,
One end of the input shaft (2000) passes through the bearing structure, and penetrates the shell (500) of the transmission gear set.
The other end of the input shaft (2000) passes through the output shaft (3000) via a second unidirectional transmission (302),
A first bearing is provided between the output shaft (3000) and the shell (500) of the transmission gear set,
The transmission gear set shell (500) is coupled to the main body (600), which is a relatively stationary structure, and is a two-way input / fixed-direction output gear set that prevents the reverse rotation gear set from following attenuation. Parts are installed,
The input shaft (2000) passes through the first transmission gear (602),
A third unidirectional transmission (303) is provided between the input shaft (2000) and the first transmission gear (602).
The first transmission gear (602) and the second transmission gear (603) rotate and transmit in different directions,
The second transmission gear (603) and the third transmission gear (606) are both coupled to the rotating shaft (604),
A second bearing is provided between the rotating shaft (604) and the shell (500) of the transmission gear set,
The first transmission gear (602) and the second transmission gear (603) are constituted by gears or friction wheels,
The third transmission gear (606) and the fourth transmission gear (605) are constituted by pulleys or sprockets,
The third transmission gear (606) and the fourth transmission gear (605) are constituted by an inner gear set of a pulley, a sprocket or a gear set that transmits in the same rotational direction, which is transmitted through a transmission belt (607),
A first unidirectional transmission device (301) is installed between the fourth transmission gear (605) and the output shaft (3000),
The transmission ratio relationship between gear sets that transmit in different rotational directions is acceleration, deceleration or constant velocity.
The transmission ratio relationship between gear sets that transmit in the same rotational direction is acceleration, deceleration or constant speed,
A gear set that transmits in the same rotational direction includes the transmission belt (607) constituted by a flat belt, a V-shaped belt, a pulley of a toothed chain or a steel belt, or a sprocket on which the chain is arranged,
When the input shaft (2000) is driven in the first driving rotation direction, the output shaft (3000) is driven by the first transmission gear set via the second unidirectional transmission device (302). Output in one drive rotation direction,
When the input shaft (2000) is driven in the second driving rotation direction, the first transmission gear (602) is driven by the second transmission gear set via the third unidirectional transmission device (303). The second transmission gear (603) and the third transmission gear (606) are driven by the first transmission gear (602), and the fourth transmission gear is transmitted by the third transmission gear (606). The gear (605) is driven, and the output shaft (3000) is driven through the first unidirectional transmission device (301) to output in the first driving rotation direction,
When the input shaft (2000) is driven in the first drive rotation direction, the first unidirectional transmission device (301) and the third unidirectional transmission device (303) are idled,
The two-way input / fixed direction according to claim 1, wherein when the input shaft (2000) is driven in the second driving rotation direction, the second one-way transmission (302) is idled. Output gear set. The input shaft and the output shaft are provided coaxially,
One end of the input shaft (2000) passes through the bearing structure, and penetrates the shell (500) of the transmission gear set.
The other end of the input shaft (2000) passes through the output shaft (3000) via a second unidirectional transmission (302),
A first bearing is provided between the output shaft (3000) and the shell (500) of the transmission gear set,
The transmission gear set shell (500) is coupled to a main body (600), which is a relatively stationary structure, and is a two-way input / fixed-direction output gear set that prevents the reverse rotation gear set from following the damping. Parts are installed,
The input shaft (2000) passes through the first transmission gear (602),
A third unidirectional transmission (303) is provided between the input shaft (2000) and the first transmission gear (602).
The first transmission gear (602) and the second transmission gear (603) rotate and transmit in different directions,
The second transmission gear (603) and the third transmission gear (616) are both coupled to the first rotating shaft (604),
Between the first rotating shaft (604) and the shell (500) of the transmission gear set, a second bearing is provided,
The third transmission gear (616) drives the fifth transmission gear (615) via the fourth transmission gear (617) rotating with the second rotation shaft (618), and transmits in the same rotational direction. Configure the gear set to
The second rotating shaft (618) is coupled to the shell (500) of the transmission gear set;
The fourth transmission gear (617) rotates with the second rotation shaft (618), and between the second rotation shaft (618) and the shell (500) of the transmission gear set, A third bearing is provided,
The fifth transmission gear (615) is provided coaxially with the output shaft (3000),
A first unidirectional transmission device (301) is installed between the fifth transmission gear (615) and the output shaft (3000),
The transmission gears (602), (603), (615), (616), (617) are constituted by gears or friction wheels,
The transmission ratio relationship between gear sets that transmit in different rotational directions is acceleration, deceleration, or constant speed,
The transmission ratio relationship between gear sets transmitting in the same direction of rotation is acceleration, deceleration, or constant speed,
The gear set that transmits in the same rotational direction is constituted by an internal gear set or an internal friction gear set,
When the input shaft (2000) is driven in the first driving rotation direction, the output shaft (3000) is driven by the first transmission gear set via the second unidirectional transmission device (302). Output in one drive rotation direction,
When the input shaft (2000) is driven in the second driving rotation direction, the first transmission gear (602) is driven by the second transmission gear set via the third unidirectional transmission device (303). The second transmission gear (603) and the third transmission gear (616) are driven by the first transmission gear (602), and the fourth transmission gear is driven by the third transmission gear (616). The fifth transmission gear (615) is driven through the gear (617), and the output shaft (3000) is driven by the fifth transmission gear (615) through the first unidirectional transmission device (301). Is driven and output in the first drive rotation direction,
When the input shaft (2000) is driven in the first drive rotation direction, the first unidirectional transmission device (301) and the third unidirectional transmission device (303) are idled,
The two-way input / fixed direction according to claim 1, wherein when the input shaft (2000) is driven in the second driving rotation direction, the second one-way transmission (302) is idled. Output gear set.   The clutch control for the output is performed by installing a clutch device (CL100) between the output shaft (3000) and the rotational load (3001). The two-way input / fixed-direction output gear set described in 1.   The clutch device (CL100) couples and transmits the output shaft (3000) and the rotational load (3001) by being coupled by human power, mechanical power, torque, centrifugal force, electromagnetic force, or fluid. 7. The two-way input / fixed-direction output gear set according to claim 6, wherein the transmission relationship between the output shaft (3000) and the rotational load (3001) is cut off.

Images