JP2009144691A - Air turbine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a turbine rotated by using the air jetted from the rotating spindle of the turbine by feeding compressed air into a hole formed in the rotating spindle. <P>SOLUTION: In this turbine, the hole for an air path 4 directly communicating with an air suction port 2 is formed in the rotating spindle 1 along the axis. A ball bearing 3 is installed in the hole, the inner diameter side of the ball bearing is secured to the air suction port 2, and the outer diameter side of the ball bearing is secured to the inner diameter side of the hole of the rotating spindle 1. The turbine incluldes an air tube 5 to discharge air to the outside through the hole. An air jetting hole 6 is formed at the end of the tube in the direction reverse to that in which the spindle is desired to be rotated. The air tube 5 includes an acceleration plate 7 for accelerating the air tube to accelerate the rotation. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a turbine in which air to which pressure is applied is applied to a rotating main shaft, the air ejected from the rotating main shaft is used, and the rotating main shaft is rotated with the momentum.

  Conventionally, a turbine mainly applies fluid to an impeller and converts fluid energy into rotational motion to obtain power.

This has the following drawbacks.
Conventionally, a turbine obtains rotation by applying fluid pressure or kinetic energy to an impeller provided on a rotating shaft, but in order to maintain this rotation, a large force is required to rotate the impeller. Needed. When pressure is applied from the outside, the energy efficiency is extremely poor, and thus a large facility is required in proportion to the size of the rotating spindle to generate such pressure.

First, a hole is formed in the air passage (4) to be directly connected from the air suction port (2) along the rotation main shaft (1). A ball bearing (3) is installed in the hole, the inner diameter side of the ball bearing is fixed to the air suction port (2), and the outer diameter side is fixed to the inner diameter side of the hole of the rotating main shaft (1). Next, an air pipe (5), which is a cylinder through which air escapes from the air passage, is directly connected, and an air outlet (6) is opened in the direction opposite to the direction in which the shaft is to be rotated. An acceleration plate (7) for accelerating the air tube (5) is attached to the air tube (5) to accelerate the rotation.
The present invention is an air turbine having the above-described configuration.

  By ejecting the applied pressure from the shaft, it is possible to obtain a large rotational motion with less force than the pressure applied from the outside so far. Therefore, the energy required for rotating the turbine can be minimized, and the rotational energy can be generated safely and efficiently. Further, since it is not necessary to attach a blade to the rotating main shaft, the apparatus itself can be made simple and small. If this device is used to increase energy efficiency, it is possible to construct a fuel-free and pollution-free power generation system.

Hereinafter, the best mode for carrying out the present invention will be described.
A hole is made in the center of the rotation main shaft (1) along the axis.
This is the air passage (4) through which the air entered from the air inlet (2) passes.
The ball bearing (3) is inserted into the opened air passage (4), the air suction port (2) is fixed to the inner diameter side of the ball bearing (3), and the outer diameter side is fixed to the rotating main shaft (1).
A cylindrical air pipe (5) is attached from the air passage (4) to the outside from the rotating main shaft.
An air outlet (6) is opened in the direction opposite to the direction in which the shaft is to be rotated at the tip of the air pipe (5).
The compressed air that has entered from the air inlet (2) passes through the air passage (4) and the air pipe (5), and is ejected from an air outlet (6) provided at the tip of the air pipe (5). The rotation main shaft (1) rotates with this momentum.
In addition, the rotation can be further stabilized by providing an acceleration plate (7) for accelerating the rotation as required on the side of the air pipe.
In addition, a cover for covering these devices is provided, and the air ejected from the air outlet (6) is applied to the cover, the device itself is attached to both ends of the rotating main shaft (1), or the air pipe (5) is rotated. By adjusting the distance from the main shaft (1) and increasing the number of air pipes (5), it is possible to further increase the efficiency of the rotational motion.
The present invention has the above structure.
When this is used, the compressed air may be transferred to the rotating main shaft (1) with a compressor or the like, and rotated to use it as a turbine for power generation or the like. It is also possible to use a liquid such as water instead of a gas such as air.

It is sectional drawing of this invention. It is a top view of the present invention.

Explanation of symbols

1. Rotating spindle 2. 2. Air intake port 3. Ball bearing 4. Air way Air tube 6. Air outlet 7 Acceleration plate

Claims (1)

1. A hole of an air passage (4) to be directly connected from the air suction port (2) is made in the rotary main shaft (1) along the main shaft.
2. The ball bearing (3) is installed in the hole, the inner diameter side of the ball bearing is fixed to the air suction port (2), and the outer diameter side is fixed to the inner diameter side of the hole of the rotating main shaft (1).
3. Next, an air pipe (5), which is a cylinder through which air escapes from the air passage, is directly connected, and an air outlet (6) is opened in the direction opposite to the direction in which the shaft is to be rotated.
4). Next to the air tube (5), an acceleration plate (7) for accelerating it is attached.
5). Compressed air is transferred to the rotating spindle (1), and the air passes through the air passage (4) and the air pipe (5) and uses the momentum ejected from the air outlet (6) to rotate the rotating spindle (1). Rotate.
An air turbine having the above configuration.

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