KR960008896Y1 - Motion converting device - Google Patents

Abstract

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Description

Motion converter

1 is a partially cutaway perspective view of the present invention.

FIG. 2 (a) is an operation state diagram of the rotary shaft when the reciprocating operation tool moves up, and (b) is an operating state diagram of the rotary shaft when the reciprocating operation tool moves down.

Figure 3 (a) is a front view of the present invention, (b) is a plan view seen from the line A-A of (a).

* Explanation of symbols for main parts of the drawings

1: rotating shaft 20,30: sprocket

20a, 20b: tooth 40: reciprocating operation port

40a: Tooth 42, 43: First and second slotting members

The present invention relates to a motion conversion device for receiving a linear reciprocating motion to achieve a continuous one-way rotational movement, in particular to a plurality of sprockets installed at one end of the rotating body so that the rotating body to maintain a large rotational force It relates to a motion conversion device configured to apply a tangential force so that the rotating body can be rotated with a constant rotational force in one direction.

Specific means of the present invention is to form a reciprocating operating tool having a first and a second slotting member in which a plurality of teeth are formed at regular intervals in changing the linear motion into a rotary motion, the first and the first The slotting member of 2 is attached to both sides of the operating tool with its teeth facing both sides, and the teeth are engaged with the teeth of the pair of first and second sprockets, which are fixedly fixed to the rotary shaft, so that the rotary shaft is in one direction. Achieved by rotating.

Hereinafter, described in detail with reference to the accompanying drawings.

Both ends of the rotating shaft 10 are freely installed by a supporting member (not shown), and a pair of first and second sprockets 20 and 30 are fixed to each other by being fixed to a central portion of the rotating shaft 10.

The sprocket wheels 20 and 30 are arranged to be rotatable in one direction by the bite force of the conventional latch gear and the latch stopper installed therein, and the reverse rotation is the bite of the latch gear and the latch stopper as described above. The rotational force is not induced to the rotary shaft 10 by release, and is configured to idle.

That is, the first and second sprockets 20 and 30 are rotated in the reverse direction so that the latch gear and the latch stopper are released in the rotational direction to be obtained in order to drive the rotational shaft 10 in one direction. ) And install it.

In addition, the first and second sprockets 20 and 30 are installed in the reciprocating actuator 40, so that the reciprocating actuator 40 drives and rotates the first and second sprockets 20 and 30. will be.

The reciprocating actuator 40 is provided with first and second slotting members 42 and 43 at left and right sides, and a plurality of first and second slotting members 42 and 43 at regular intervals. Holes are penetrated to form the perforations 40a.

The tooth 40a is configured such that teeth 20a and 30b of the first and second sprockets 20 and 30 enter and engage with the tooth 40a. That is, the linear movement of the reciprocating operation member 40 causes the tooth 40a of the first slotting member 42 to contact the tooth 20a of the first sprocket 20 and at the same time the second slotting member 43 The teeth 40a are in contact with the teeth 30b of the second sprocket 30.

The first and second sprockets 20 and 30 may be configured to transfer power to the first and second sprockets 20 and 30 in a linear rocking motion of the reciprocating actuator 40 having a predetermined stroke. Since a constant rotational force is continuously transmitted to the outer circumferences of the two sprockets 20 and 30, a quiet rotation of the rotation shaft 10 can be obtained.

Next, the rotational state of the rotary shaft 10 will be described with reference to (a) of FIG. 2 when the reciprocating actuator 40 is operated upward.

When the reciprocating actuator 40 having a predetermined stroke is acted in the A direction (upward direction), the tooth 40a of the first slotting member 42 is continuously bited by the lower tooth 40a while being first bited. The rotary shaft 10 is rotated clockwise by receiving the rotational force by the bite of the latch gear and the latch stopper to the sprocket 20. At this time, the rotating shaft 10 is installed freely rotating the support member (not shown).

Simultaneously with the rotation of the rotary shaft 10, the second sprocket 30 is guided to the tooth 40a of the slotting member 43 and rotates counterclockwise, but the rotary shaft 10 is released by the bite of the latch gear and the latch stopper. There is no idling force and idling.

Next, the rotational state of the rotary shaft 10 will be described with reference to (b) of FIG. 2 when the reciprocating actuator 40 operates downward.

When the reciprocating actuator 40 having a predetermined stroke is operated in the B direction (lower direction), the second sprocket (while the tooth 40a of the second slotting member 43 is bitten by the upper tooth 40a, 20) The rotary shaft 10 is idling in the clockwise direction by receiving the rotational force by the bite of the latch gear and the latch stopper, and at the same time, the first sprocket 20 is idling in the counterclockwise direction by releasing the latch and the latch stopper. It does not induce a rotational force on the rotation shaft (10).

The present invention, which operates as described above, is a motion for continuously driving a rotating shaft with a pair of strokes in a straight stroke of the Wangbo actuator, and the rotating force of the rotating shaft is applied to a pitch circle of the sprocket at a constant rotational force. It is a very useful design as a motion conversion device that can replace the reciprocating crank motion mechanism applied to a generator, an internal combustion engine, etc. to obtain a quiet rotational movement.

Claims (1)

In the device for converting a linear movement into a rotational movement, a reciprocating actuator 40 having a first and a second slotting member having a plurality of teeth (40a) at a predetermined interval and the first and second slotting member ( The teeth 40a of the 42 and 43 and the teeth 20a and 30b of the pair of the first and second sprockets 20 and 30 arranged in a predetermined manner are engaged with each other, and the first and second sprockets are engaged. Motion conversion device characterized in that the (20,30) is installed in the reciprocating operation (40) to rotate the rotating shaft (10) in one direction.