JPH01208574A - Wind mill and irrigation pump - Google Patents

Abstract

PURPOSE:To increase turning force and reduce resisting force by forming a number of through holes on a wind receiving vane which is curved on one face side, rotatably providing closing plates for covering the through holes on the inner face side of the wind receiving vane, and allowing the closing plates to open/close the through holes in accordance with a wind direction. CONSTITUTION:In a wind mill 1, a rotary shaft 3 is provided on a supporting frame 2 while a number of wind receiving vanes 4 are provided on the rotary shaft 3 each being curved on one face side. In this case, a number of through holes 5 are formed in a plural number of lines arranged in parallel in the vertical direction on each wind receiving vanes 4. A number of closing plates 6 for covering the through holes 5, each for one line in the vertical direction are provided on the inner face side of the wind receiving vane 4. Each wind receiving plates 6 are formed with an elastic material such as rubber, etc. while one side thereof is rotatably installed on the wind receiving vane 4. Thereby, the closing plates 6 are allowed to open/close the through holes 5 in accordance with wind which blows against the plates 6 from the inside/outside of the curved portions of the wind receiving vanes 4, increasing turning force while reducing resisting force.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a wind turbine and a heat source pump that utilizes the rotational force of the wind turbine.

[Conventional technology and its problems]

Conventionally, when pumping irrigation water from a low-level irrigation canal to a high-level field, a powered pump or water wheel has been used.

However, when using a powered pump, an energy source such as electric power or heavy oil is required, resulting in a problem of high energy costs.

Another problem is that when electricity is required, electric wires must be run across the fields.

On the other hand, when using a water wheel, there is no energy cost, but there is a problem in that a water wheel cannot be installed unless there is a stream flowing near the fields.

Therefore, the first technical object of the present invention is to provide a heat source pump that uses the rotational force of a wind turbine and does not require energy costs.

In addition, conventional wind turbines have a structure in which a rotating shaft is rotatably provided on a support frame, a plurality of wind-blowing blades are fixed to the rotating shaft, and the wind-batch blades are curved to one side. In this type, the wind is easily caught on the inner surface of the curved wind fan blade, and therefore the wind fan rotates so that the outer surface of the curved wind fan blade is on the front side in the rotation direction.

However, the wind also hits the outside surface of the curved wind blade,
Since this force acts in the opposite direction to the direction of rotation of the wind blower, the rotational force of the wind blower is weakened.

Accordingly, a second technical object of the present invention is to provide a wind turbine in which the force of the wind hitting the outer surface of the wind blower blade is weakened and the rotational force of the wind blower blade is improved.

[Means to solve the problem]

In the wind turbine of the present invention, a large number of through holes are provided in the wind blowing blade, and a blocking plate that covers the through holes is provided on the inner surface side of the wind blowing blade that curves, and one side of the blocking plate is placed against the wind blowing blade. It is characterized by being rotatably mounted.

Next, the irrigation pump of the present invention utilizes the rotational force of the above-mentioned windmill, and its structure includes a water pump consisting of a cylindrical body with both upper and lower end surfaces open, and a receiving pipe on the upper outer periphery of the water pump. A water gutter is provided, a rotating shaft is installed along the axis of the water pumping tube, and a screw blade is fixed so as to be in contact with the inner surface of the water pumping tube from the lower end to the upper end of the rotating shaft. It is characterized in that the rotating shaft is connected to the rotating shaft of the wind turbine via a power transmission mechanism.

[Effect]

The operation of the wind turbine having the above structure is as follows.

First, when the wind hits the inside surface of the curved wind blower,
Since the wind presses the closing plate against the inner surface of the wind blowing blade, the closing plate closes the numerous through holes formed in the wind blowing blade. As a result, the wind hitting the inner surface of the wind blowing blade does not escape backward from the through hole, and imparts a rotational force to the wind blowing blade.

On the other hand, the wind hitting the outer surface of the curved wind blowing blade passes through the through hole of the wind blowing blade and pushes the closing plate in the direction of opening, so that the through hole is opened and the wind escapes from the through hole.

As a result, the force acting in the opposite direction to the rotating direction of the wind blower is weakened, so that the wind blower rotates more strongly.

Further, the action of the laminar liquid pump having the above structure is as follows.

When the rotating shaft of the wind turbine rotates and the rotating shaft inside the water pumping cylinder is rotated by the power transmission mechanism, the screw blades rotate. Therefore, the bottom end of the water pump is in the water? fr, ?
When M is reached, the water is scraped upward by the screw blade, and the water flows into the water receiving gutter from the upper end of the water pump.

〔Example〕

Embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in Figs. 1 and 2, the wind turbine 1 has a rotary shaft 3 rotatably mounted on a support frame 2, and four wind-batch blades 4 fixed to the rotary shaft 3 at intervals of 90 degrees. It is something. The wind receiving blade 4 is formed so as to be curved on one side. Moreover, the wind blowing blade 4 is formed with a large number of through holes 5 arranged in plural rows in the vertical direction. A closing plate 6 is attached to the inner surface of the curved wind blowing blade 4 to cover the through holes 5 one by one in the vertical direction. The closing plate 6 is formed of an elastic material such as rubber, and the negative side thereof is rotatably fixed to the wind blowing blade 4 .

The support frame 2 includes a base 7 assembled in a cross shape, four vertical frames 8 erected on the base 7, an upper horizontal frame 9 and a lower horizontal frame that connect the vertical frames 8 to each other. 10, and a circular frame 11. The upper horizontal frame 9 is fixed to the upper end of the opposing vertical frame 8, and is assembled in a cross shape by two parallel channel members. The lower horizontal frame 10 is fixed at a position near the bottom of the vertical frame 8 where a predetermined space is formed between it and the base 7, and this lower horizontal frame 10 also has enough space to connect the opposing vertical frames 8 to each other. It is set in the shape of a letter. The circular frame 11 connects the ends of the lower horizontal frame 10 to each other.

Bearings 12 and 13 of the rotating shaft 3 are attached to the intersections of the upper horizontal frame 9 and the lower horizontal frame 10, respectively, and the lower end of the rotating shaft 3 projects below the lower horizontal shaft 10. .

The irrigation pump 21 of the present invention utilizes the rotational force of the windmill 1 and is installed on the base 7 of the windmill 1. This pump 21 includes a water pump 22 made of a cylindrical body with both upper and lower end surfaces open, a water receiving rod 23 provided on the outer periphery of the upper part of the water pump 22, and a rotating shaft provided along the axis of the water pump 220. 24, a screw blade 25 provided on this rotating shaft 24, and a power transmission mechanism 26 that connects the rotating shaft 24 to the rotating shaft 3 of the wind turbine 1.

The water pumping tube 22 is fixed to the base 7 of the wind turbine 1 via a support fitting 27. Further, the rotating shaft 24 is also attached to the base 7 of the wind turbine 1 via a bearing 28.

The screw blade 25 is provided from the lower end to the upper end of the rotary shaft 24, and its tip is in contact with the inner surface of the water pump 22 via a pawl 29.

The power transmission mechanism 26 includes, for example, a pair of sprockets 3
0.30' and chain 31, sprocket 3
0 is fixed to the lower end of the rotating shaft 3 of the wind turbine 1, and the sprocket 30' is the screw blade iiF! 25 is fixed to the upper end of the rotating shaft 24.

A discharge channel 32 is provided in the water receiving gutter 23.

Next, the operation of the above embodiment will be explained.

As shown in FIG. 5, when the wind hits the inner surface of the curved wind blower blade 4, the closing plate 6 closes the through hole 5 of the wind blower blade 4, so that the wind does not escape backward from the through hole 5. While applying rotational force to the wind blowing blade 4, the wind hitting the outer surface of the curved wind blowing blade 4 is applied to the wind blowing blade fl! Since the closing plate 6 is pushed in the direction of opening through the through holes 5 of No. 4, the wind escapes from the through holes 5. As a result, the force acting in the opposite direction to the rotating direction of the wind blower blade 4 is weakened, so that the wind blower tlt4 rotates more strongly.

In this way, when the rotating shaft 3 of the wind turbine 1 rotates, this rotational force is transmitted to the screw blades 25 by the power transmission mechanism 26.
rotates vigorously. When the lower end of the screw blade 25 is immersed in water, the screw blade 25
The water is raked upward, and the raked water flows into the water receiving gutter 23 from the upper end of the water pump 22, and the water is discharged from the discharge channel 32, whereby the water is pumped up to a height H. .

〔Effect of the invention〕

According to the present invention, as described above, the force of the wind hitting the outer surface of the wind blowing blade can be weakened, so there is an effect that a wind turbine with strong rotational force can be obtained.

Further, by utilizing the rotational force of the wind turbine of the present invention, an irrigation pump that does not require energy costs can be obtained.

[Brief Description of the Drawings] Figure 1 is a front view of an irrigation pump using a windmill of the present invention, Figure 2 is a plan view of the same, and Figure 3 is a partially enlarged view of the same!
1lliIi side view, Figure 4 is a partially enlarged cross-sectional view of the same as above,
FIG. 5 is a cross-sectional view of the wind blower. 1...Windmill, 2...Support frame, 3...Rotating shaft, 4...Blowing blade, 5...Through hole, 6...
Closure plate, 21...Pump, 22...
... Water pump, 23 ... Water receiving gutter, 24 ...
... Rotating shaft, 25 ... Screw blade. Fig. 1;,jZ 2.Fig.

Claims (2)

[Claims] (1) In a wind turbine in which a rotary shaft is rotatably provided on a support frame, a plurality of wind blowing blades are fixed to this rotary shaft, and the wind blowing blade is curved to one side, a large number of A wind turbine characterized in that a through hole is provided, a closing plate covering the through hole is provided on the inner surface of a curved wind blower, and one side of the closing plate is rotatably attached to the wind blower. . (2) A water pump consisting of a cylindrical body with both upper and lower end surfaces open is provided, a water receiving gutter is provided on the outer periphery of the upper part of the water pump, a rotating shaft is installed along the axis of the water pump, and a rotating shaft is installed along the axis of the water pump. The screw blade is fixed so as to be in contact with the inner surface of the water pumping cylinder from the lower end to the upper end, and the fixed shaft and the rotating shaft of the wind turbine according to claim (1) are connected via a power transmission mechanism. Features: Irrigation pump.