KR20180105547A - A oxygen equipment for water-bloom from running water - Google Patents

Abstract

The present invention relates to an oxygen introduction device for green tide. To this end, a turbine body capable of floating on the surface of flowing water such as river is placed on the water, and is rotated in accordance with rotation by force of flowing water. A high-speed wing coupled to the turbine body supplies oxygen in water by introducing air in the water by relatively fast rotation. By connecting and fixating steel rods to both sides, rotation is kept all the time regardless water level fluctuation, while generating electricity.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an oxygen-

More particularly, the present invention relates to an oxygen inflow apparatus for generating a green tide, and more particularly, to an oxygen inflow apparatus according to the present invention for rotating a rotating body at high speed To allow a large amount of oxygen in the air to flow into the water, and to connect the both sides of the turbine body with the steel rods in an axial direction so that the air can be always introduced regardless of the water level fluctuation, .

 The problem of global warming due to the global environmental crisis is due to the pollution and eutrophication of the water due to the watershed, and the days when the river is green, the river is unavailable or the water is scarcely damaged, The need for utilization is growing.

 These rivers are endangering the use of drinking water as well as agricultural water.

There is a problem in that it is difficult to manage the water resources such as the existing green river phenomenon of the river is solved by rain.

 Accordingly, in order to solve the above-mentioned problem, the present invention has been devised in order to solve the above-mentioned problem, and in order to utilize the kinetic energy of flowing water (river), a fixing member is installed on both sides, And an object of the present invention is to provide an oxygen inflow device capable of easily and easily converting kinetic energy of water (river) flowing slowly or rapidly into rotational energy, thereby allowing air to flow in.

 Other objects of the present invention will become apparent as the description proceeds.

 In order to achieve the above-mentioned object, the present invention provides a greenhouse oxygen inflow device comprising: a fixing member (400) provided so as to be fixedly installed on a ground or a sea floor so as to be spaced apart from each other; A generator 501 and a bearing 205 installed on the upper portion of the other one through a generator support 208 and a bearing support 209 so as to be coupled to a steel bar support 406 fixedly connected to the fixing member 400, A spring steel rod portion 200 rotatably provided at one end of each of the generator 501 and the bearing 205 and a spring spring portion 200 fixedly connected to the other end of the spring steel rod portion 200, The high-speed blade 104 coupled to the floating turbine body 101 is rotated by rotating the spring steel rod portion 200 as it floats while rotating in response to the flow of water, and the turbine portion (100) .

In addition, when the water level of the generator 501 or the bearing 205 is lowered, the water level is lowered by the water level sensor to control the rotation of the spring steel rod portion 200 fixedly connected to the turbine portion 100 And a brake is further provided.

 As described above, according to the present invention, when the water flows into the surface water of a certain depth of the river, the kinetic energy of the water horizontally lies on the water and is installed in the direction perpendicular to the water flow. The turbine rotates the high speed wing faster by a long circumferential length, rotates the generator with the connected spring steel, generates electricity, and sends the generated electricity to the transmission line. Here, the left and right spring steel rods of the same length are horizontally arranged perpendicularly to the water flow at a certain angle so that the integral turbine blades become one floating turbine body and the buoyancy of the water by the air tanks is canceled by the floating turbine body load The turbine blades are driven by the rotational force as much as the depth of the depth of the water immersed in the water, and the high-speed blades are rotated by a large force as much as the energy of the sectional area of the flowing water, A balanced amount of oxygen can be introduced.

 In addition, the integrated turbine blade of the floating turbine body rotates even in the water flow of weakly flowing surface water (at a speed of less than 0.2m / s), and it is supported by the spring steel bar with strong tensile strength and elasticity, , It can rotate without any right-handed flow and can flow in air.

 In addition, it is possible to maximize the turning force by receiving the flowing water regardless of the twisting moment with a strong spring steel rod. Since the power generation part is installed at a high level on the upper part of the fixing member from the water surface, the packing part is exposed only to the air, so that it can stably generate electricity irrespective of the leakage of water, which is a generative water, and the inflow of foreign matter or water is intrinsically It is safe to remove the generator body, especially during repair. In other words, it is possible to replace the whole generator and parts with bolts and tighten them, so it is always convenient and convenient to repair and replace frequently. It also makes it easier to replace parts with a certain lifetime, such as bearings. It is possible to have a long facility that can withstand the flow of strong water (river), and can enlarge the receiving area of water (river). Because the turbine is cylindrical, it is strong enough to withstand the bending strength. Therefore, it is possible to produce a long and large diameter, and by appropriately adjusting the air volume of the air tank inside the turbine, the depth of the turbine can be adjusted by controlling the depth of the water. Of course, the left and right are strong enough to withstand torsion and can withstand spring with a strong steel bar.

 As described above, it is possible to make the area receiving the water (river) flow of the surface water of a certain depth of the water more efficiently and more convenient, and it can be conveniently rotated in many rivers, rivers and the sea.

 Particularly, the surface water is advantageous for large rotation because the water flow rate is relatively higher than that of the lower layer or the middle layer.

 This can reduce the amount of existing water polluted by green algae and keep the aquatic ecosystem healthy. Since the turbine is cylindrical, it is strong against bending strength and can be made large in diameter and especially long. Thus, it is possible to supply many large rotational force and a large amount of oxygen to the water by receiving a large river flow cross-sectional area.

FIG. 1 is a view showing a brine oxygen inflow apparatus according to the present invention.
2A is a cross-sectional view of a floating turbine body of a brine oxygen inflow device according to the present invention.
FIG. 2B is a left side view of a floating turbine body of a greenhouse oxygen inflow apparatus according to the present invention. FIG.
2c is a right side view of a floating turbine body of a brine oxygen inflow device according to the present invention.
2d is a cross-sectional enlarged view of the floating turbine body in the greenhouse oxygen inflow apparatus according to the present invention.
FIG. 2E is a high speed blade cross-sectional view of a brine oxygen inflow apparatus according to the present invention. FIG.
FIG. 2f is a schematic view of a wing oxygen inflow apparatus according to the present invention.
FIG. 2G is an explanatory view of a turbine blade diameter of a greenhouse oxygen inflow apparatus according to the present invention. FIG.
FIG. 2h is a view showing the rotational effective area of the greenhouse oxygen inflow apparatus according to the present invention.
FIG. 3A is a view illustrating a state where a floating turbine body of a brine oxygen inflow device according to the present invention is installed.
FIG. 3B is an explanatory view of a floating turbine body of a brine oxygen inflow apparatus according to the present invention.
FIG. 3c is an operational view of a spring steel bar of a greenhouse oxygen inflow apparatus according to the present invention. FIG.
4 is a view showing a brake of a brine oxygen inflow apparatus according to the present invention.
FIG. 5A is an explanatory diagram according to a change in water surface of a floating turbine body of a brine oxygen inflow apparatus according to the present invention. FIG.
5B is an explanatory view of a position of a generator and a bearing of a brine oxygen inflow device according to the present invention.
5c is an enlarged view of a generator and a bearing of a brine oxygen inflow device according to the present invention.
FIG. 6A is a schematic illustration of a cylinder buoy of an aerosol oxygen inflow apparatus according to the present invention. FIG.
6b is a cylinder buoy operation diagram of a brine oxygen inflow device according to the present invention.

 Hereinafter, an embodiment of a tide oxygen inflow apparatus according to the present invention will be described in detail.

 First, it should be noted that the same components or parts in the drawings denote the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the gist of the invention.

 1 to 6, the tidal oxygen inflow apparatus 800 according to the present invention includes a turbine section 100, a spring steel rod section 200, a flowing water 300, a fixing member 400, A generator unit 500, a brake unit 600, and a safety unit 700. [

 First, the fixing member 400 may be fixedly installed at a place where water flows through a plurality of fixing wires 402, one end of which is fixed to a plurality of buried anchors 403 embedded in the ground, Respectively.

 A generator support 208 and a bearing support 209 coupled to the steel bar support 406 are installed on either the upper portion or the upper portion of any one of the fixing members 400. The generator 501 and the bearing 205 are installed do.

 In addition, each of the ends of the rotatable spring steel bar 200 is connected to the generator 501 and the bearing 205, respectively.

 The spring steel rod portion 200 includes a uniform steel rod 204 having a uniform diameter connected to the generator 501 and the bearing 205 and a spring portion 205 extending further from the uniform steel rod 204 in one direction, A spring steel bar 201 having a tapered spring steel bar 203 having a tapered spring steel bar 203 and a rigid bracket 202 formed at an end of the taper spring spring bar 203 so as to be fixedly connected to the turbine part 100, .

 Here, the above-mentioned spring steel rod 201 is made of steel or the like having a large elasticity and having a large tensile strength and a torsional strength.

 Therefore, the tide oxygen inflow device 800 can rotate while strongly supporting natural disasters due to the strong tension and elastic force of the spring steel rod 201 described above.

 The turbine unit 100 is coupled to the steel bar bracket 202 formed at the other end of the spring steel bar 201 of the spring steel bar unit 200 through a plurality of bolts 206 as shown in FIG. And is rotatably provided so as to correspond to the flow of water while floating on the water.

 That is, the turbine section 100 is provided with a plurality of bolts 206 on one side and a plurality of opposite surfaces, respectively, so as to be coupled to the steel bar bracket 202 formed at the other end of the spring steel bar 201 of the spring steel bar 200, The water turbine comprises a cylindrical floating turbine body 101 in which a bolt hole 207 is formed and an air tank 105 is floatably formed in the water tank 105, And a plurality of turbine blades 102 radially provided to efficiently utilize the energy of the water by using the area.

 Since the turbine unit 100 is constructed as described above, it is convenient to separate or assemble the floating turbine body 101 as one body.

 Here, the turbine blades 102 can be always rotated when water (river water) of the surface water flows or moves.

 When the water (river) of the surface water flows, the water hits the turbine blades 102, and a drag force is generated in the floating turbine body 101 to rotate.

 That is, moment is generated and rotation occurs.

 As shown in FIG. 2A, the floating turbine body 101 is formed into a cylindrical shape, and the inside of the turbine body 101 is made to be an air tank 105, and the air is sealed at an atmospheric pressure like the outside.

 The float turbine body 101 is installed horizontally in parallel to the water surface 301 and long in a direction perpendicular to the water flow direction.

 In addition, the floating turbine body 101 is in a state in which the air tank 105 is permanently sealed at 1 atm, so that leakage and air can not escape, and the water tank 101 is in an optimal state to float on the water surface 301 of surface water .

 The weight of the spring steel bar 201 coupled with the bolts 206 on one side surface and the other side surface can withstand the weight and the floating turbine body 101 always floats on the water surface 301.

 As shown in FIGS. 2A and 2H, a curved turbine blade 102 is formed outside the floating turbine body 101 so as to maximize resistance of the water in the water flowing direction 302, and is formed radially at the centerline of the cylinder do. A high speed blade 104 having a larger diameter than the outer diameter of the turbine blade 102 is installed in the middle of the turbine blade 101 and welded to the turbine body 101. When the turbine body 101 rotates, the high speed blade 104 rotates together .

 Then, as shown in FIG. 2H, a torque is generated due to the rotation of the turbine blade 102 by receiving the force of water along the water flowing direction 302.

 A torque is generated in accordance with the torque, and the floating turbine body 101 rotates, and the high-speed vane 104, which is also fixed together, rotates together. 2G, the outer diameter D1 of the turbine blade 102 of the floating turbine body 101 rotates at the same speed as the flow rate of the flowing water 300, while the larger diameter larger blade 102 (D2) As the diameter increases, the outer diameter moves faster. That is, if the diameter D1 of the turbine blade 102 is 1 m and the diameter of the high-speed blade 104 is 2 m

 When the floating turbine body 101 makes one revolution

  D1 day rotation → 1m × 3.14 = 3.14m

  D2 day rotation → 2m × 3.14 = 6.28m

 Since the diameter of D2 moves faster than the diameter of D2 by the diameter of D1, the outer diameter per rotation moves fast, so that the water sweeps the water more than the flowing water and the high speed blade 104 moves twice the flow speed. In addition to this, the water moves strongly, forming a vortex in the water, allowing the air to flow into the water. Usually in fish farms, the aquarium of aquariums is rotated by an electric device, thus supplying oxygen to the fish in the water. Therefore, the larger the diameter of the high-speed wing 104 D2 welded to the floating turbine body 101 is larger than the diameter of the turbine wing 102, the faster and more the water can be moved and the more air can be dissolved in the water. If the diameter of D2 is three times larger than the diameter of D1, the outer diameter of D2 rotates at a speed three times faster than that of D1, so more air is mixed into the water to increase the effect. However, since the resistance of the turbine blade 102 is increased as the diameter of the turbine blade D2 increases and the turbine blade 102 increases the length of the turbine blade 102 to obtain the power, the turbine blades 102 are spaced apart from each other, So that the flow of water (300) flowing through the water pipe (101) has sufficient power. The flowing force of water is such that the mass of water is 1,000 kg (1 ton) per cubic meter, so that it has a very large kinetic energy and can maintain a large rotational force on the turbine 100. In this way, the air is mixed with air to supply oxygen, so that the fish in the river flowing through the river can be saved and the water that rotates can be purified and kept clean. Water resources can be effectively managed and water supply can be smoothly performed.

 Then, the spring steel bar 201 coupled with the bolt 206 is rotated on one side surface and the other side surface, and the integral spring steel bar 201 is rotated

 As shown in FIG. 3C, the tapered spring 203 is rotated while bending due to the rotation of the spring steel rod 201, and thus a bending stress is generated. As stress is stored and released, there is little energy consumption and waste.

 In other words, the compression energy is stored in "F", and it becomes maximum like "G" while it rotates. When it continues to rotate further, it helps the rotational force and releases energy.

 In other words, the spring is the principle of storing and discharging energy. Therefore, the taper spring 203 bends and rotates and transfers energy to the uniform steel bar 204 with little energy consumption due to the bending rotation.

 The tapered spring 203 is manufactured by making the floating turbine body 101 have a thickness of a size sufficient to withstand a large resistance force of flowing water, It is equipped to be wide.

 Then, the tapered spring 203 bends and warps in a bent state, and springs and transfers energy without losing energy.

 Most of the portion where the resistance of the bending force is greatly increased is tapered to conform to the sequential stress through the thick tapered spring 203 so as to be able to bear a strong bending force and the remaining long portion is covered by the uniform steel bar 204 .

 The upper portion of the fixing member 40 to which the end of the uniform steel bar 204 is fixed is largely opened larger than the length of the floating turbine body 11 to greatly alleviate the angle at which the taper spring 203 is bent.

 The uniform steel rods 204 mainly endure torsion or tensile force rather than warpage.

 The generator 501 is subjected to the force of the uniform steel bar 204 having the tensile force and the turning force and the tensile force is maintained by the thrust bearing provided in the generator 501 and the rotating force of the uniform steel rod 204 is transmitted to the generator 501, To be converted into electric energy.

 The generator 501 is connected and fixed to the steel rod support 406 of the fixing member 400 by the generator support 208 as shown in FIG.

 The bearing 205 at the end of the uniform steel rod 204 withstands the tensile force by the thrust bearing and allows the rotating force of the uniform steel rod 204 to idle without resistance with the shaft bearing.

 The bearing 205 is fixedly connected to the support rod 406 of the fixing member 400 by a bearing support 209.

 3A, the spring steel rods 21 connected to one side surface and the other side surface of the floating turbine body 101 are connected to each other at the angle of? 1, as described above.

 The fixing member 40 is provided with a fixing wire 402 as shown in Fig. 1 to withstand the water resistance of the floating turbine body 11. The fixing wire 40 has a buried anchor 403 at the lower end of the fixing wire 402 Deeply beneath ground 404.

 The buried anchor 403 is made of reinforced concrete or the like and is made to be relatively long and deeply buried. The stationary wire 402 is resistant to several radial force forces.

 As shown in FIG. 3A, the spring steel rod 201 has the angle? 1 at the left and right sides of the floating turbine body 101, and if the floating turbine body 101 moves to the right as shown in FIG. 3B, The water force 303 of the total resistance of the water acts on the floating turbine body 101 in the direction of water flow and the floating turbine body 101 is inclined from the vertical direction in the direction of water flow The water is deflected to the right as viewed from above, and this force causes the side force 304 to be generated to the right.

 This force causes a reaction to the floating turbine body 101 so that the reaction force 305 acts to the left.

 Then, the floating turbine body 101 moves to the left and moves, and the floating turbine body 101, which had originally moved to the right, returns to its original position and again takes the form of FIG. 3A.

The principle that the floating turbine body 101 is restored even if it is moved to the left side is only different from the above direction.

That is, even if there is any movement of the floating turbine body 101 to the left or right, it is restored to the floating turbine body 101 of the vertical flow of the water, so that it is always stable.

 As shown in FIG. 5A, even when there is a variation in the water surface, the floating turbine body 101 can sustain the power generation at any water level since the weight of the spring steel rod 201 is always covered with water.

 A brake is built in the generator 501, and when the vehicle is in an emergency or when it is repaired, or when the water level is low, the water level sensor lowers the water level to operate the brake.

 4, the brake includes a brake drum 601, a brake shoe 602, a servo motor 609, and a housing 614. The brake includes a generator 501, A brake drum 601 inserted in the brake drum 601 to be fixedly connected to the uniform steel rod 204 and driven by a power source applied through an electric power source 612 to be connected to the inside of the worm gear case 610 A servomotor 609 which is controllably provided through a control wire 503 so that the worm gear and the worm wheel provided on the worm wheel shaft 611 can be engaged with each other and is operable to be driven by the servomotor 609 And a roller shaft 605 which is formed by a reduction in diameter by a diameter and a spring 608 in correspondence with the rotation of the brake cam 604, The brake drum 601 To be controls the entire one end is composed of a brake shoe 602 is provided and equipped with a brake lining 603 to be connected to the pin 615 in lower housing 614.

 The brake constructed as described above is also incorporated in the bearing 205, so that one side and the other side of the brake are operated by the control wire 503 at the same time. For such a facility, the wire 407 is connected to the upper end of the fixing member 400 and the insulator 408 is installed in the middle of the wire 407 as shown in Fig. 5B.

 The electric power source 612 and the control electric wire 503 are connected under the insulator 408 to protect the electric power source 612 and the control electric wire 503 from the lightning strike and are connected to the electric power source 612 and the control electric wire 503 Sensors and brakes.

 The operation of the brakes is engaged with the servo motor 609 so that the worm gear and the worm wheel are engaged with each other and operated within the worm gear case 610. The servo motor 609 is operated by the electric power source 612, The worm gear in the worm gear case 610 is rotated by the principle that the rotation of the worm gear case 610 is operated by the electric wire 503 and the rotation is adjusted by the constant speed, A worm wheel having a rotation speed greatly reduced compared to the speed of the servo motor 609 induces a large torque force in inverse proportion to the number of rotations, The S brake cam 604 connected to the worm wheel shaft 611 is rotated to stop the rotation of the worm wheel shaft 611 when the rotation of the servo motor 609 stops. The worm wheel shaft 611, which rotates slowly with a relatively large torque from tens to hundreds of times that of the servo motor 609, is connected at right angles to the worm wheel shaft 611 due to the nature of the worm gear, It is impossible to rotate the worm wheel shaft 611 due to the moment from the S brake cam 604 even if the S brake cam 604 receives a rotational moment in any direction. That is, the speed of the servo motor 609 is relatively slow, but the S brake cam 604 rotates at a large moment, but the reverse rotation due to the S brake cam 604 is impossible. Is very useful for devices that need to be installed.

 A lightning rod 405 is provided at an upper portion of the fixing member 400 to prevent lightning.

 6a and 6b, a cylindrical buoy 701 is provided to enable a person to catch the floating turbine body 101 in preparation for floating in the surface water, can do.

 The cylindrical buoy 701 floats on the buoy wire 702 connected to the fixing member 400 and floats vertically to the flow of the water without causing any left- Is stably held transversely to the center of the fixing member 400 in front of the floating turbine body 101. There is no problem in river or river because the direction of flow of water is constant.

 As shown in FIG. 5A, even when there is a variation in the water surface, the floating turbine body 101 can sustain the power generation at any water level since the weight of the spring steel rod 201 is always covered with water.

 A brake is built in the generator 501, and when the vehicle is in an emergency or when it is repaired, or when the water level is low, the water level sensor lowers the water level to operate the brake.

 The S brake cam 604 rotates at a large moment although the speed is relatively slow due to the rotation of the servo motor 609. However, reverse rotation due to the S brake cam 604 is impossible and the brake is broken by a large force for a long time, It is very useful for the necessary devices.

 A lightning rod 405 is provided at an upper portion of the fixing member 400 to prevent lightning.

 As shown in FIGS. 5A and 5B, a cylindrical buoy 601 is provided to enable a person to catch the floating turbine body 101 in preparation for floating on the surface water, can do.

 The cylindrical buoy table 601 floats on the buoy wire 602 connected to the fixing member 400 and floats on the water vertically to the flow of the water, Is stably held transversely to the center of the fixing member 400 in front of the floating turbine body 101. There is no problem in river or river because the direction of flow of water is constant.

 Since it floats in the water due to the long steel bar even in the flood, it can rotate the high-speed wing 104, which is a water wheel, through the year round all year round, so that it can purify water and can generate electric energy.

 The sensor detects the height of the water and can activate the brakes.

 In places where water does not flow deeply, as shown in FIG. 2f, a straight wing (103) is provided to tighten the steel rods and wind can be used to purify the water by turning the turbine using wind energy. You can try it because it is usually windy along valley or river valleys.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

800; Greenhouse oxygenation device 402: Fixed wire
100: turbine portion 403: buried anchor
101: floating turbine body 404: ground
102: turbine blade 405: lightning rod
103: straight wing 406: steel bar support
104: high speed wing 407: wire
105: air tank 408: insulator
106: rotation 500: generator base
107: angle 501: generator
109: welding 502: transmission line
200: spring steel rod portion 503: control wire
201: spring steel rod 600: brake part
202: Steel rod bracket 601: Brake drum
203: Tapered spring steel rod 602: Brake shoe
204: uniform steel bar 603: brake lining
205: bearing 604: S brake cam
206: bolts 605: rollers
207: Bolt hole 606: Roller holder
208: generator support 607: brake shoe jaw
209: Bearing support 608: Return spring
300: Flowing water 609: Servo motor
301: Sleep 610: Worm gear case
302: Flow direction of water 611: Worm wheel shaft
303: Power of water 612: Power
304: Side force 613: Control wire
305: reaction force 614: housing
306: effective area 615: pin
307: water bottom 616: outer cylinder
308: drag coefficient differential generation 700: safety part
400: Fixing member 701: Cylinder buoy
401: pylon 702: buoy wire

Claims (5)

The tidal oxygen inflow device,
A fixing member 400 fixedly installed on the ground or the sea floor so as to be spaced apart from each other;
The upper portion or the upper portion of any one of the fixing members 400 is coupled to a steel bar support 406 fixed to the fixing member 400 via a generator support 208 and a bearing support 209 A generator (501) and a bearing (205) installed;
A spring steel rod portion 200 rotatably provided at one end of each of the generator 501 and the bearing 205;
The other end of the spring steel rod portion 200 is fixedly connected to one surface and the other surface to rotate the spring steel rod portion 200 as it rotates corresponding to the flow of water while floating in water so as to be rotated by the generator 501 A turbine section (100) provided with the turbine section;
Wherein the turbine section (100) is coupled with a high speed vane (104). The method according to claim 1,
The generator 501 or the bearing 205 is provided with a brake for controlling the rotation of the spring steel rod portion 200 fixed to the turbine portion 100 by reducing the water level by the water level sensor when the water level is low, Further comprising: an oxygen supply unit for supplying oxygen to the aerobic tank. 3. The method according to claim 1 or 2,
The turbine section 100 is provided with a plurality of bolt holes 202 at one surface and at the other surface so as to be coupled to the steel rod bracket 202 formed at the other end of the spring steel rod 201 of the spring steel rod section 200 through a plurality of bolts 206, A cylindrical floating turbine body 101 in which an air tank 103 is formed so as to be able to float in the inside of the floating turbine body 201 and an area where water (river) And a plurality of turbine blades (12) radially provided to utilize the energy of water. 3. The method according to claim 1 or 2,
The spring steel rod portion 200 includes a uniform steel rod 204 having a uniform diameter connected to the generator 501 and the bearing 25 and a plurality of spring rods 204 extending further in one direction from the uniform steel rod 204, A tapered spring steel bar 203 and a spring steel bar 201 which is extended from the tapered spring steel bar 203 in one direction and has a steel bar bracket 202 fixedly connected to the turbine part 100 at an end thereof Of the oxygen concentration. 3. The method of claim 2,
The brake includes a brake drum 601 inserted in the generator 501 and fixedly connected to the uniform steel bar 204 and driven by a power source applied to the brake drum 601 through the electric power source 612 A servomotor 609 which is controllably provided through a control wire 503 so that the worm gear and the worm wheel provided inside the worm gear case 610 can be engaged and operated with each other and a servo motor 609 fixed to the worm wheel shaft 611, An S-shaped brake cam 604 provided so as to be rotatable in correspondence to the driving of the motor 609 and a brake cam 604 which is shrunk by the diameter and spring 608 in correspondence with the rotation of the brake cam 604 A brake shoe 607 provided with a brake lining 603 connected to a pin 615 at a lower portion of the housing 614 so as to control the rotation of the brake drum 601 via a roller 605, that consists of Features a kelp oxygen inflow device.

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