KR100440023B1 - Balance shaft apparatus - Google Patents

Abstract

An object of the present invention is to minimize the unbalance amount of the balance shaft in the idle and low speed operation of the engine, and to increase the unbalance amount in the medium and high speed areas of the engine to reduce the driving noise of the balance shaft in the idle and low speed driving. To provide a balanced shaft device having a variable unbalance mass.

To this end, the present invention is a balance shaft device to maintain the balance of the piston kinematic system of the engine by rotating through the gear drive mechanism to the crankshaft,

A rotational shaft rotated by a rotational force transmitted through the gear driving mechanism, and a central portion formed of a quadrilateral cross section axis;

And an unbalanced mass part that is engaged with the quadrangular cross-section axis and rotates together, and is allowed to move in proportion to the centrifugal force in the centrifugal force direction so that the amount of eccentricity is varied.

Description

Balance shaft apparatus with unbalanced mass variable according to engine operating condition

The present invention relates to a balance shaft device having a variable unbalanced mass for damping vibrations of an engine.

The crankshaft should rotate smoothly without vibration, but the center of the crank journal and the crank pin center are eccentric. Therefore, a balancing weight is installed on the crank arm on the opposite side of the crank pin to maintain balance during rotation, or when the engine vibrates due to the piston kinetic system during the explosion stroke, vibration is transmitted from the engine mounting to prevent the occurrence of indoor noise. In order to dampen the vibration of the engine, as shown in FIG. 4, two rotation shafts 21 and 22 are installed in parallel to the crank shaft 20, and the sprockets 23, 24, 25 and the chain 26 And by using the gears 28 and 28 to drive the rotary shafts 21 and 22 in opposite directions to each other and at twice the speed of the crank shaft 20. The vibration generated in a four-cylinder engine in series is reduced.

The rotating shafts 21 and 22 are commonly referred to as balance shafts, and are referred to as balance shaft apparatuses in a sense encompassing their peripheral configuration, and the balance shaft apparatus 30 has a crank shaft 20 as shown in FIG. 5. It is formed integrally by moving to one side so as to have an eccentric mass of the rotating shaft (21) 22 and the rotating shaft (21) (22) rotated at double speed by receiving power through the gear (28) by the driving force of the Two balance shaft devices 30 having a balance shaft formed of unbalanced mass portions 21a and 22a and having an unbalanced mass portion corresponding to a reciprocating mass (piston weight + conrod small end weight) in a series four-cylinder engine. As a result, an unbalance force generated by the piston kinematic system is canceled out.

However, according to the balance shaft device of the conventional structure, the effect of reducing the secondary vibration and the booming noise of the engine by canceling the unbalanced force in the medium and high speed operating range of the engine, Although the unbalance force by the balance shaft is not required during idling operation, it causes unnecessary power consumption under the same driving conditions as at medium and high speeds, and the unbalanced mass of the balance shaft is large, thereby driving the driving noise of the gear 28 accordingly. There was a problem causing.

Accordingly, the present invention has been proposed in view of the above-mentioned point, and its object is to minimize the unbalance amount of the balance shaft in the idle and low speed operation of the engine, and to increase the unbalance amount in the medium and high speed regions of the engine. The present invention provides a balance shaft device having a variable unbalanced mass capable of reducing driving noise of a balance shaft in a low speed drive.

In order to achieve the above object, the present invention is a balance shaft device that rotates through a gear drive mechanism on the crankshaft to maintain the balance of the piston kinematic system of the engine,

A rotational shaft rotated by a rotational force transmitted through the gear driving mechanism, and a central portion formed of a quadrilateral cross section axis;

And an unbalanced mass part that is engaged with the quadrangular cross-section axis and rotates together, and is allowed to move in proportion to the centrifugal force in the centrifugal force direction so that the amount of eccentricity is varied.

1 shows a balance shaft arrangement with a variable unbalanced mass according to the invention.

2 is a cross-sectional view of the in-phase device A-A

3 is a sectional view B-B of the in-phase device

4 is a prior art

5 is a prior art

※ Explanation of code for main part of drawing

1: balance shaft device 2: gear

3: rotation axis 4: unbalanced mass part

5 bolt 6 boundary part

7: rectangular space 8: square section axis

9: central axis 10: circular space

11: reference plane 12: return spring

Hereinafter, the configuration of the present invention will be described with reference to the accompanying drawings.

1 is a front sectional view showing a balance shaft device having a variable unbalanced mass according to the present invention, FIG. 2 is a sectional view taken along the line A-A of FIG. 1, and FIG. 3 is a sectional view taken along the line B-B of FIG.

The balance shaft device 1 is composed of a rotating shaft 3 that receives rotational force of the crankshaft through the gear 2 and drives rotation, and an unbalanced mass portion 4 assembled to the rotating shaft 3.

The unbalanced mass part 4 is manufactured by dividing the cylinder into two, and then fastened by bolts 5, and a rectangular space 7 is formed in the interface 6 along the axial direction, and the rectangular space 7 ), A quadrilateral cross section shaft 8, which is a central portion of the rotary shaft 3, is mounted therethrough.

The unbalanced mass portion 4 is concentric with the rotating shaft 3 in a state in which the quadrilateral cross section shaft 8 is in close contact with one side, and in this case, the circular space 10 formed on the opposite side beyond the central axis 9 is 4. A return spring 12 is provided which always exerts a force on the angular section axis 8 toward the reference plane 11 located on the central axis 9, ie, a force in a direction that is opposed to the direction of action of the centrifugal force. .

The height of the space 7 of the rectangular cross section can be set equal to or slightly larger than the diameter of the rotation shaft 3.

The operation of the present invention will be described below.

When the engine is idle, the rotating shaft 3 rotates in conjunction with the crankshaft, the centrifugal force acts on the unbalanced mass portion 4 and the force moving in the direction of the arrow while compressing the return spring 12 acts. Since the elastic force of the return spring 12 is greater than the centrifugal force at the time of idling, the quadrilateral cross section 8 is brought into close contact with the reference plane 11 of the rectangular space 7 and rotates so that the rotating shaft 3 and the unbalanced mass part 4 are rotated. Since the concentricity is small, it is possible to reduce the driving noise (Rattle noise) of the gear 2 due to the small unbalanced force.

However, in the medium and high speed operation of the engine, the centrifugal force acting on the unbalanced mass part 4 is greater than the elastic force of the return spring 12 so that the unbalanced mass part 4 compresses the return spring 12 in proportion to its rotational speed. While moving in the direction of centrifugal force (see dotted line), the outer end 4a of the unbalanced mass portion 4 moves away from the center axis 9, so that the amount of eccentricity increases, thereby increasing the unbalanced force. Will be reduced.

According to the present invention as described above, the unbalanced mass portion is concentric with the rotation shaft when the engine is idle when the unbalanced mass portion is formed separately from the rotating shaft of the balance shaft device and fitted to the rotating shaft so as to move in the direction of the centrifugal force acting upon rotation. Or by rotating with an eccentricity close to the concentricity, the gear driving noise is reduced by lowering the unbalanced force during idling driving.In the middle and high speed operation of the engine, the unbalanced mass moves in the direction of centrifugal force, increasing the amount of eccentricity with the centerline of the rotating shaft By increasing the unbalance, the secondary vibration caused by the reciprocating mass at high speed can be effectively reduced.

Claims (7)

In the balance shaft device to rotate the crankshaft through the gear drive mechanism to maintain the balance of the piston kinematic system of the engine, A rotational shaft rotated by a rotational force transmitted through the gear driving mechanism, and a central portion formed of a quadrilateral cross section axis; Variable unbalance mass according to the operating conditions of the engine, characterized in that it comprises a; unbalanced mass portion that is coupled to the four-sided cross-axis and rotated together, the movement of the centrifugal force in proportion to the centrifugal force is allowed to vary the amount of eccentricity Balance shaft device having a. The method of claim 1, The unbalanced mass part is a cylindrical body which is manufactured by dividing into two and fastened by bolts, and located in a rectangular space and a rectangular space in which a height is greater than a quadrangular section axis through which the quadrilateral section axis passes through the divided interface. And a return spring for applying an elastic force in a direction opposite to the direction of centrifugal force action, wherein the balance shaft apparatus has a variable unbalanced mass according to an operating condition of the engine. The method of claim 2, The return spring is accommodated in a circular space formed on a line formed in a line perpendicular to the center line in communication with the rectangular space portion balance shaft apparatus having a variable unbalanced mass according to the operating conditions of the engine. The method of claim 3, wherein And said unbalanced mass portion is maintained in concentricity with said rotating shaft in a stationary state, said balance shaft apparatus having a variable unbalanced mass according to an operating condition of an engine. The method of claim 4, wherein The balance shaft device having a variable unbalance mass according to the operating conditions of the engine, characterized in that the height of the rectangular space portion is set equal to the diameter of the rotating shaft. The method of claim 5, wherein The elastic force of the return spring is a balance shaft device having a variable unbalanced mass according to the operating conditions of the engine, characterized in that it is set to a size that can cancel the centrifugal force acting on the unbalanced mass portion during the idle driving of the engine. The method of claim 6, The unbalanced mass unit has a variable unbalanced mass according to the driving conditions of the engine, characterized in that as the rotational speed of the engine increases, the return spring moves in the direction of centrifugal force while compressing the return spring to increase the amount of eccentricity with respect to the rotation axis.