JPS6125973A - Kinetic direction converting mechanism by blade - Google Patents

Abstract

PURPOSE:To perform a kinetic directional conversion in an efficient manner, by attaching plural blades to a setting shaft free of rocking motion and, with reciprocation of the whole body, rotating these blades in utilizing a variation in a flow of air received by these blades whereby making a rotary shaft rotatable. CONSTITUTION:A frame 5 extending in a diametral direction is attached to an upper end part of a rotary shaft 3 being reciprocated in vertical directions in use of a wave motion or the like, while each of blades 1 and 1' is attached to setting shafts 2 and 2' supported on this frame 5 so as to make them rockable freely within the range of stoppers 4 and 4'. With this constitution, when the rotary shaft 3 is pushed upward, air flows from top to bottom as in an arrow C so that these blades 1 and 1' are made upside down, and these blades 1 and 1', namely, the rotary shaft 3 is rotated in a P direction by dint of reaction force of a flow of air. In addition, when the rotary shaft 3 is moved to a lower part, reversely these blades 1 and 1' are made upturned, and the rotary shaft 3 is turned in the P direction as well.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a motion direction conversion device whose purpose is to convert reciprocating linear motion into rotational circular motion in a fixed direction by the action of a blade.

To explain its structure, the entire mechanism is shown in an overhead view (Fig. 1), and its a-a' cross-sectional view (Fig. 2) shows that the blades (1) and (1') are (2) (2')
The frame (5) is rotated freely within the range of the stoppers (4) (4'), as if on a hinge.
) in symmetrical positions about the rotation axis (3).

To explain the principle using (Figure 2), for example, if the shaft (3) is pushed up in the direction of arrow (A) in the air (
Figure 2) (A) The same thing happens if the air flows from top to bottom as shown in the missing mark (C), and the direction of the flow is determined by the stopper (4) on the blade in the state (1). is turned to the left as shown by arrow (C).

Next, when the shaft (3) is pushed down in the direction of the arrow (B) (Figure 2) (B), the air flow is the same as being blown up from the bottom to the top, as shown by the arrow (C'). The blade, which was in the state shown in Figure (A) (1), is pushed up to the position shown in Figure (B) (1), and the air flow moves as shown by the arrow (
C') direction is changed to the left.

That is, regardless of whether the shaft (3) is pushed up or down, the air flow is changed in the same left direction, and due to the reaction, the frame (5) and all the pairs attached to it are
The movement is in the direction of arrow (P).

Therefore, as shown in (Fig. 1), the vertical linear movement of the shaft (3) causes the frame (5) to And the whole accompanying thereto is converted into a continuous rotational motion in the (P) direction around the rotation axis (3).

A feature of this invention is that no matter how the stroke of the vertical movement of the shaft (3) changes, the frame (5) and the entire body on the shaft (3) will be rotated in the same direction. .

For example, if natural vertical movement or waves are used as a power source. Regardless of changes in the height of the wave crest, it can be converted into continuous circular motion in a fixed direction.

[Brief explanation of drawings]

[Figure 1] is an overall bird's eye view [Figure 2] is an explanatory diagram of the action taken along the a-a' section of [Figure 1] Applicant Address: 2-25 Sagami-cho, Koshigaya City, Saitama Name: Masahisa Shimizu

Claims (1)

[Claims] A plurality of blades (1) (1') are attached to the mounting shaft (2) (2'
) or rotate freely around the stopper (4)
A motion direction changing device that has a mechanism that rotates freely within (4').