KR20050089552A - Power transmission - Google Patents

Abstract

The present invention relates to a power transmission device for rotating output in one direction the input linear reciprocating motion or left and right rotational motion.

A typical motion transfer device that converts a reciprocating linear motion into a rotational motion is to rotate a crankshaft by connecting a piston of an internal combustion engine of an automobile.

The present invention allows the input power source to continuously rotate in one direction of the input power in which linear reciprocating motion or forward rotation or reverse rotation is intermittently repeated. The driven gear of the driven shaft engaged with the drive gear of the drive shaft into which power is input is provided. The drive shaft and the driven shaft are composed of a drive shaft pulley and a driven shaft pulley connected by a belt, and between the drive shaft and the drive gear to rotate the shaft in one direction between the driven shaft and the driven gear and between the drive shaft and the drive shaft and the drive shaft pulley. By inserting the one-way clutch bearing, the input power input to the drive shaft causes the rotation output of the drive shaft to always be output in the forward rotation even if the drive shaft rotates forward and reverse.

Description

Power transmission device that converts reciprocating motion into rotary motion {Power Transmission}

The present invention relates to a power transmission device which rotates and outputs a linear reciprocating motion or a left and right rotational motion input in one direction.

The motion transfer method of an internal combustion engine such as a car converts a reciprocating linear motion into a rotational motion and then uses the rotational motion as a power. More specifically, the piston reciprocating in a cylinder is connected to a crankshaft by a connecting rod. And, it can be seen that it has a power transmission method for converting the linear motion to rotate the crankshaft to the rotary motion by connecting the reciprocating motion of the piston to the connecting rod.

The present invention relates to a power transmission device such that a reciprocating motion or a forward and reverse rotational power input source is rotated only in a forward rotation from a power generation source that reciprocates like a piston or whose forward rotation or reverse rotation changes intermittently. .

The linear reciprocating motion includes a power transmission device that converts rotational motion and a power transmission device that rotates and outputs power input in one direction only from a power input source that is forward or reverse rotation.

Representative power transmission device that converts the linear reciprocating motion to the rotary motion is to rotate the crankshaft by connecting rod to the reciprocating motion of the piston of the cylinder of the automobile engine and to the rear wheel when the pedal is rotated forward as in the power transmission method of the bicycle. Power is transmitted to the chain, and when the pedal is rotated backwards, the rear wheel spins off and the drive is not transmitted.

The power input from the linear reciprocating motion or the intermittent forward or reverse rotational power source is rotated in one direction, and the input of the linear reciprocating motion or the reverse or forward or reverse rotation occurs intermittently repeatedly. It is to provide a power transmission device that receives power and converts it into output power continuously rotating in one direction.

In the present invention, even if the input power is transmitted in both directions, such as forward rotation or reverse rotation or forward movement or backward movement, the output power is transmitted in one direction so that all of the input power is transmitted to the output power without wasting energy.

It has a drive shaft housing 11 and a driven shaft housing 21 on the left and right, respectively, the drive shaft bearing 12, the driven shaft bearing 22 and the drive shaft bearing cover on the left and right drive shaft housing 11 and the driven shaft housing 21, respectively. Both ends of the drive shaft 10 and the driven shaft 20 are fastened by the 13 and the driven shaft bearing cover 23, and both ends of the drive shaft 10 protrude out of the left and right drive shaft housings 11. A pulley 31 and a wheel 32 are attached to the end of the protruding drive shaft 10, and the drive gear 14 and the driven gear 24 rotated to be engaged with the drive shaft 10 and the driven shaft 20. And a first driving shaft one-way clutch bearing 15 between the drive shaft 10 and the drive gear 14, and a driven shaft one-way clutch bearing 25 between the driven shaft 20 and the driven gear 24. The drive shaft timing pulley 16 and the driven shaft other than the drive shaft 10 and the driven shaft 20 are connected to each other by a timing belt 33 It has a min pulley 26, has a second drive shaft one-way clutch bearing 17 between the drive shaft timing pulley 16 and the drive shaft 10, the driven shaft timing pulley 26 and the driven shaft 20 is integral with each other The coupling rod 35 is fixed to the driving gear 14 by a bolt 19.

In addition, instead of the connecting rod 35 for driving the drive gear 14 may have a structure for fixing the power input gear integrally with the drive gear (14).

In the drawings, reference numeral 41 denotes a bearing 42 and a bushing 44 to a mounting housing.

Looking at the present invention having such a structure in more detail and at the same time describe the operation as follows.

According to the present invention, even if the input power applied to the drive shaft 10 is rotated forward (clockwise) or counterclockwise (counterclockwise), the drive shaft 10 is always output in the forward rotation even if input to the drive shaft 10 It is to provide a delivery device.

Drive shaft 10 supported by the drive shaft bearing 12 and the driven shaft bearing 22 and the drive shaft and the driven shaft bearing cover 13, 23 inside the left and right drive shaft housing 11 and the driven shaft 12, respectively. And the driven shaft 20 is freely rotatable in the left and right drive shafts and the driven shaft housings 11 and 21, and the drive shaft 10 and the driven shaft 20 are respectively coupled to the drive gear 14 and the driven gear. (24) interlocked with each other.

Meanwhile, the first drive shaft one-way clutch bearing 15 is provided between the drive shaft 10 and the drive gear 14, and the driven shaft one-way clutch bearing 25 is provided between the driven shaft 20 and the driven gear 24.

Therefore, when the drive shaft 10 rotates forward, the first drive shaft one-way clutch bearing 15 between the drive gear 14 and the drive shaft 10 engages the drive gear 14 and the drive shaft 10 to secure the drive shaft 10. In the forward rotation, the driven gear 24 meshed with the drive gear 14 is rotated in reverse, but the driven gear 24 is idling without rotating the driven shaft 20.

That is, when the drive gear 14 rotates forward, the driven gear 24 engaged with the drive gear 14 rotates in reverse. However, when the driven gear 24 rotates in reverse, the driven shaft one direction between the driven gear 24 and the driven shaft 20 is reversed. The clutch bearing 25 does not engage the driven shaft 20 and the driven gear 24 so that only the driven gear 24 idles without rotating the driven shaft 20.

When the drive gear 14 rotates forward to rotate the drive shaft 10 forward, the drive shaft timing pulley 10 connected to the drive shaft 10 is slipped by the second drive shaft one-way clutch bearing 17 to drive the drive shaft timing pulley 16. The furnace does not transmit the driving force.

However, when the drive gear 14 is rotated in reverse, the first drive shaft one-way clutch bearing 15 does not engage the drive gear 14 and the drive shaft 10 so that the drive gear 14 idles with respect to the drive shaft 10. The driven gear 24 meshed with the gear 14 is rotated forward, and the forward rotation of the driven gear 24 is driven by the driven shaft one-way clutch bearing 24 between the driven gear 24 and the driven shaft 20. Combining the driven gear 24 and the driven shaft 20 to the forward rotation of the driven shaft 20, the forward rotation of the driven shaft 20 is to rotate the driven shaft timing pulley 26 fixed thereto, The driven shaft timing pulley 26 that rotates forward is connected to the timing belt 33, and the drive shaft timing pulley 16 and the drive shaft are driven by the second drive shaft one-way clutch bearing between the drive shaft timing pulley 16 and the drive shaft 10. Combining the (10) is to rotate the drive shaft 10 forward.

As such, whether the rotational force input from the drive gear 14 coupled to the drive shaft 10 to the first drive shaft one-way clutch bearing 15 is forward rotation or reverse rotation, the drive shaft always generates forward rotation drive force.

The power transmission method for driving the drive gear 14 of the drive shaft 10 may drive the drive gear 14 with a connecting rod 35 fixed with bolts as shown in the drawing, the drive gear 14 to The driving gear 14 may be driven by attaching a power input gear instead of the connecting rod.

As such, the flywheel 32 is attached to one end of the drive shaft 10 which is always rotated forward regardless of the input direction, thereby stabilizing the rotational force, and driving power through the pulley 31 of the other end of the drive shaft 10. It is to be transmitted, by attaching a gear instead of the pulley 31 is to be configured to transmit power in a geared manner.

As a representative power transmission method for converting a linear reciprocating motion into a rotary motion, for example, a power transmission device of an internal combustion engine that rotates a crankshaft by connecting rods with a reciprocating piston motion.

As described above, the present invention provides a reciprocating piston or other reciprocating motion such that a power source generated as a power generating source outputs power generated at a constant one direction at all times from a reciprocating linear motion or a power source in which full rotation and reverse rotation are made variably. It is a very useful idea to drive the drive shaft in a constant direction at all times by the power input from the engine or the forward and reverse power source.

1-a cross sectional view of the present invention;

Fig. 2-A-A cross sectional view of Fig. 1;

Fig. 3-B-B cross sectional view of Fig. 1;

4-C-C cross sectional view of FIG.

Claims (2)

It has a drive shaft housing 11 and a driven shaft housing 21 on the left and right, respectively, the drive shaft bearing 12, the driven shaft bearing 22 and the drive shaft bearing cover on the left and right drive shaft housing 11 and the driven shaft housing 21, respectively. Both ends of the drive shaft 10 and the driven shaft 20 are fastened by the 13 and the driven shaft bearing cover 23, and both ends of the drive shaft 10 protrude out of the left and right drive shaft housings 11. A pulley 31 and a wheel 32 are attached to the end of the protruding drive shaft 10, and the drive gear 14 and the driven gear 24 rotated to be engaged with the drive shaft 10 and the driven shaft 20. And a first driving shaft one-way clutch bearing 15 between the drive shaft 10 and the drive gear 14, and a driven shaft one-way clutch bearing 25 between the driven shaft 20 and the driven gear 24. The drive shaft timing pulley 16 and the driven shaft other than the drive shaft 10 and the driven shaft 20 are connected to each other by a timing belt 33 It has a min pulley 26, has a second drive shaft one-way clutch bearing 17 between the drive shaft timing pulley 16 and the drive shaft 10, the driven shaft timing pulley 26 and the driven shaft 20 is integral with each other Is coupled to, the drive gear 14 is a power transmission device for converting the reciprocating motion into a rotational movement, characterized in that the connecting rod 35 is fixed to the integral with the bolt (19). The power transmission device as set forth in claim 1, characterized in that the drive gear (14) is fixed to the power input gear instead of the connecting rod (35).