KR20040101105A - Device for generating power from flow velocity energy in pipe by using rotating shaft which rotates outside the pipe - Google Patents

Abstract

PURPOSE: A device for generating power from the flow velocity energy in a pipe is provided to generate power outside a pipe from the flow velocity energy of the pipe. CONSTITUTION: A turbine rotating when a fluid flows in a pipe is mounted. A magnet(5) is mounted on the surface of the turbine. Another magnet(10) is mounted on the surface of a turbine rotating outside the pipe. The turbine rotating by the flow velocity of the fluid flowing in the pipe and a wheel outside the pipe are rotated by the attractive force and the repulsive force operated between the magnets of the turbines.

Description

A device that powers flow velocity energy inside a pipe. {Omitted}

The present invention provides a magnet mounted on the surface of a turbine that rotates according to the flow rate of the fluid inside the pipe in order to apply the flow rate energy of the fluid flowing inside the pipe such as a water pipe, an oil supply pipe, and a gas pipe to the outside of the pipe, and a turbine installed outside the pipe. The present invention relates to a device for powering the flow velocity energy inside a pipe, which is invented for various uses of the power of a turbine installed outside a pipe due to an attraction force or repulsive force acting between surface mounted magnets.

The present invention provides a magnet mounted on the surface of a turbine that rotates according to the flow rate of the fluid inside the pipe to apply the flow energy of the fluid flowing inside the pipe such as a water pipe, an oil pipe, and a gas pipe to the outside of the pipe, and a turbine installed outside the pipe. The present invention relates to a device for powering the flow velocity energy inside a pipe, which is invented for various uses of the power of a turbine installed outside a pipe due to an attraction force or repulsive force acting between the magnets mounted on the surface.

Since the flow rate energy of the fluid flowing in various conventional pipes cannot be applied as power outside the pipe, there is a problem that the flow rate energy of the fluid cannot be applied outside the pipe.

In order to fundamentally solve many of these problems, the present invention works between a magnet mounted on a surface of the turbine and a magnet mounted on the surface of the turbine that rotates outside the pipe in order to fundamentally improve many of these problems. The wheel outside the pipe with the turbine to rotate by the flow of the fluid flowing inside the pipe by the attraction force or repulsive force to be described in detail by the accompanying drawings as follows.

1 is a perspective view of the present invention

1 (b) is a perspective view of the main part of the present invention

Figure 2 (a) is a longitudinal cross-sectional view and principle of operation of the present invention applying the annular magnet

Figure 2 (b) is a longitudinal cross-sectional view and principle of operation of the present invention applying a tubular magnet

Figure 2 (c) is a longitudinal cross-sectional view and principle of operation of the present invention applying a tubular magnet

Figure 2 (d) is a longitudinal cross-sectional view and principle of operation of the present invention

As shown in Figs. 1 (a) and 2 (a), the shaft hole 2 at the bottom of the upper end 1 of the U-shaped pipe (b) made of nonmagnetic material and the shaft hole 64 at the top of the base plate 6 are provided. The upper and lower ends of the rotary shaft 4 of the turbine (a) equipped with a plurality of blades 3 are laid out as bearings, and the magnets 5 are mounted on the upper ends of the blades 3, but the magnetic pole faces are on the upper ends of the rotary shafts 4. Install the turbine facing the side.

Then, the bottom plate 6 is mounted on the bottom of the U-shaped pipe (b) so that the fluid flows in the inside (7) of the pipe (b) and the turbine (a) rotates.

Rotating shaft penetrating the lower end of the rotating shaft 12 in which the gear 9 and the magnet 10 are mounted on the upper end 1 of the piping (b) and the shaft hole 14 of the c-shaped bearing 13 ( The bearings 13 are mounted on the upper end of 12), and the bearing 13 is firmly mounted on the upper end 1 of the U-shaped pipe (b).

The lower end of the rotary shaft 17 on which the gear 16 is mounted on the upper end 1 of the pipe (b) bearing 15 is formed as a bearing, and the rotating shaft 17 penetrating the shaft hole 19 of the c-shaped bearing 18. ) The upper end of the bearing to the gear (9) and the gear (16) is well engaged with the bearing 18 is configured to be firmly mounted on the upper end (1) of the pipe (b).

In such a configuration is configured to mount a variety of parts that can work, such as wheels or tools on the top of the rotary shaft 12 and the rotary shaft 17.

As shown in FIGS. 1A and 2B, a space is formed inside the protruding cap 21 formed at the upper end 20 of the U-shaped pipe (B) made of a nonmagnetic material, and then a plurality of wings ( 3) Mount the bearing 23 on the upper end of the rotary shaft 4 of the turbine (A) equipped with a bearing to be drilled with bearings with the female screw of the protruding cap 21, but the top end of the rotary shaft 4 The magnet 22 is mounted to the magnet 22, and the magnetic pole face is configured to be on the circumferential face.

The bottom plate 6 with the shaft hole 24 is attached to the lower end of the U-shaped pipe (b), and the lower end of the rotary shaft 4 is laid in the shaft hole 24 with a bearing.

The upper end of the rotating shaft 31 of the gear 30 in which the gear tube 29 is formed in the shaft hole 28 of the c-shaped bearing 27 in which the bearings 25 and 33 are formed is formed as a bearing, The magnet 32 is mounted on the inner wall, but the attraction or repulsive force acts between the two magnets 22 and 32, and the wheel or tool can be operated on the top of the rotating shaft 31 through the shaft hole 28. Configure to mount the part.

Then, the upper end of the rotary shaft 36, in which the gear 35 is mounted in the shaft hole 34 of the bearing 33, is laid out as a bearing, and the lower end of the rotary shaft 36 is formed as a bearing in the shaft hole 37, and then the bearing is supported. (27) is firmly mounted on the upper end 20 of the pipe (b).

And it is configured to mount a variety of parts that can work, such as wheels and tools on the top of the rotary shaft 36 penetrated through the shaft hole (34).

As shown in FIGS. 1 (b) and 2 (c) (d), the blade 41 is formed in the shaft hole 40 of the jab shaped bearing 39 formed in the inner wall of the cylindrical tube 38 made of a nonmagnetic material. ) Is installed in the shaft hole 40 by bearing the upper end of the rotary shaft 42 of the vertical turbine (C) equipped with a large number, and the magnet 43 is mounted on the outer circumferential ohms 50 of the wing 41.

Next, the cylindrical shaft made of nonmagnetic material is formed by bearing the lower end of the rotary shaft 42 of the vertical turbine (C) with a bearing in the shaft hole 47 of the cylindrical bearing 46 formed on the inner wall of the cylindrical tube 45 made of nonmagnetic material. Combination of the pipe 45 of the non-magnetic cylindrical tube 38 is configured to rotate the vertical turbine (C) when the fluid flows into the interior (7) of the non-magnetic cylindrical tube 38.

In the shaft hole 53 of the bearing 52 fixed to the tube 38 by covering the outer wall of the cylindrical tube 38 made of a nonmagnetic material, the upper end of the rotating shaft 55 of the gear 54 is formed as a bearing, and the cylindrical tube 45 In the shaft hole 57 of the bearing 56 secured by covering the lower end of the rotating shaft 55 of the gear 54 as a bearing, the magnet 48 is mounted in the groove 51 of the gear 54 to install two magnets ( 48) (43) is configured to apply the attraction or repulsive force.

In the shaft hole 59 of the right bearing 52 'fixed to the tube 38 by covering the outer wall of the cylindrical tube 38 made of nonmagnetic material, the upper end of the rotating shaft 61 of the gear 60 is formed as a bearing. The lower end of the rotating shaft 61 of the gear 60 is formed as a bearing in the shaft hole 63 of the right bearing 56 'fixed to the 45, and the magnet 49 is mounted in the groove 50 of the gear 60. It is configured so that the attraction force or repulsive force between the two magnets (49, 43).

In such a configuration is configured to mount a variety of parts that can work, such as wheels and tools on the top of the rotary shaft 55 and the top of the rotary shaft 61, respectively.

As described above, the principle of operation of the present invention is the magnet 5 because the turbine rotates when fluid flows in the interior 7 of the pipe as shown in FIGS. 1 and 2. ), The gear 9 and the magnet 10 rotate at the same speed as the turbine due to the attractive force or repulsive force acting between the magnet 10 and the magnet 10.

In this case, since the gear 16 and the rotating shaft 17 rotate, a lot of energy can be obtained from the rotating shaft 17 or the rotating shaft 12, and its application can be variously applied by a known technique.

As shown in Figs. 1 (a) and 2 (b), when the fluid flows in the interior (7) of the pipe (b), the turbine rotates and acts between the magnet (22) and the magnet (32). The gear tube 29, the gear 30, and the rotation shaft 31 rotate at the same speed as the turbine due to the attraction force and the repulsive force.

In this case, since the gear 35 and the rotating shaft 36 are rotated by the gear 30, a large amount of energy can be obtained at the top of the rotating shaft 36 or the upper end of the rotating shaft 31, and its application varies according to known techniques. Application.

As shown in FIGS. 1 (b) and 2 (c) (d), the vertical turbine (C) rotates as the fluid flows in the interior (7) of the cylindrical tubes 38 (45) made of non-magnetic material. The magnet 43 rotates together.

In this case, the attraction force or repulsive force acts between the magnet 48 and the magnet 43 mounted on the groove 51, and the magnet 48 and the gear 54 and the rotation shaft 55 rotate opposite to the vertical turbine (C). do.

And when the fluid flows in the interior (7) of the cylindrical tube 38, 45 made of a non-magnetic material, the vertical turbine (C) rotates while the magnet 43 rotates together.

In this case, the attraction force or repulsive force acts between the magnet 49 and the magnet 43 mounted in the recess 51 of the gear 60, and the magnet 49 and the gear 60 and the rotating shaft 61 are vertical turbines ( Rotate opposite to

When rotated in this way, a lot of energy can be obtained at the top of the rotary shaft 55 and the top of the rotary shaft 61, the application is various applications by a known technique.

The rotational speed of rotating the flow rate energy of the fluid flowing into the pipe outside the pipe has the effect of utilizing the flow rate energy inside the pipe as power.

Claims (1)

Rotating shaft 4 of turbine (a) equipped with a plurality of vanes 3 in the shaft hole 2 at the bottom of the upper end 1 of the U-shaped pipe (b) of nonmagnetic material and the shaft hole 64 at the top of the bottom plate 6. The upper and lower ends are respectively laid out with bearings, and the magnet 5 is mounted on the upper end of the wing 3, and the magnetic pole faces toward the upper end of the rotating shaft 4, and the bottom plate 6 is placed on the bottom of the U-shaped pipe (b). The lower end of the rotary shaft 12 on which the gear 9 and the magnet 10 are mounted, and the shaft hole 14 of the U-shaped bearing 13 is mounted on the upper end 1 of the pipe (b). The bearings 13 are mounted on the upper end of the rotating shaft 12 to penetrate, and then the bearings 13 are mounted on the upper end 1 of the U-shaped pipe (b), and the gears on the bearings (15) of the upper end (1) of the pipe (b). The lower end of the rotating shaft (17) is mounted with a bearing, and the upper end of the rotating shaft (17) passing through the shaft hole (19) of the c-shaped bearing (18) with the bearing, but the gear (9) and the gear ( 16), and the bearing 18 to the upper end (1) of the pipe (b) To be mounted on the upper end of the rotary shaft 4 of the turbine (a) with the blade (3) mounted on the female screw of the protruding cap (21) formed on the upper end (20) of the U-shaped pipe (b). Combine the perforated bearing 23 to the magnet 22 on the top of the rotating shaft 4, the bottom plate 6 with the shaft hole 24 is mounted to the bottom of the c-shaped pipe (b), the rotating shaft The lower end of the shaft 4 is formed in the shaft hole 24, and the rotation shaft 31 of the gear 30 in which the gear tube 29 is formed in the shaft hole 28 of the c-shaped bearing 27 on which the bearings 25 and 33 are formed. ), The magnet 32 is mounted on the inner wall of the gear tube 29, and the upper end of the rotary shaft 36, in which the gear 35 is mounted in the shaft hole 34 of the bearing 33, is formed by the bearing. The bearing shaft 27 is mounted on the upper end 20 of the pipe (b) after the lower end of the rotating shaft 36 is formed as a bearing in the shaft hole 37, and the parts are mounted on the upper ends of the rotating shafts 31 and 36. 형성된 formed on the inner wall of the cylindrical tube 38 The shaft hole 40 of the bearing 39 is formed in the shaft hole 40 by bearing the upper end of the rotary shaft 42 of the vertical turbine (C) in which the blade 41 is mounted, but the outer circumferential groove 50 of the blade 41 is formed. A magnet 43 is mounted on the cylindrical tube 45, and the lower end of the rotary shaft 42 of the vertical turbine (C) is formed as a bearing in the shaft hole 47 of the cylindrical bearing 46 formed on the inner wall of the cylindrical tube 45, and the cylindrical tube 45 (38) The shaft hole 57 of the bearing 56 fixed to the shaft hole 53 of the bearing 52 on the outer wall by placing the upper end of the rotary shaft 55 of the gear 54 as a bearing and covering the cylindrical pipe 45 with the bearing. ), The lower end of the rotary shaft 55 of the gear 54 as a bearing, and the magnet 48 is mounted in the groove 51 of the gear 54, and the gear 60 in the shaft hole 59 of the right bearing 52 '. And the lower end of the rotating shaft 61 of the gear 60 in the shaft hole 63 of the right bearing 56 'fixed by covering the upper end of the rotating shaft 61 of the bearing with a bearing. In the groove 50 of the gear 60 Seat apparatus for harnessing the energy of the flow rate inside the pipe, characterized in that the mounting (49).