WO2012044087A2 - Generator using the force of a fluid flow, and magnetization water discharge apparatus comprising same - Google Patents

Abstract

The present invention relates to a generator using the force of a fluid flow, and to a water discharge apparatus comprising same. The generator of the present invention is configured such that a rotor having a permanent magnet for outputting N-pole magnetism and S-pole magnetism rotates outside a generator element having a coil so as to generate electrical energy. The generator of the present invention has a flow-channel-changing body which covers an outer surface of the rotor having the permanent magnet and which is coupled to a body having the generator element. The flow-channel-changing body has a channel-changing hole for feeding a fluid from the outside to the inside thereof. The fluid flowing from the outside to the inside of the channel-changing hole collides against an impeller blade of the rotor having the permanent magnet, and flows in the direction of rotation of the rotor having the permanent magnet. Thus, the generator of the present invention has excellent generation efficiency while being small.

Description

Generator using fluid flow force and magnetization water discharge device provided with it

The present invention relates to a generator for converting mechanical energy into electrical energy, and a water discharge device such as a shower device having the same. It relates to a water discharge device provided with it.

There are generators that convert mechanical energy such as hydro, wind and wave into electrical energy.

Such a generator is a form in which electrical energy is output from a coil-equipped power generation device having a coil when a rotor having an impeller is rotated.

The electrical energy output from the generator is supplied to the charging module for storage or directly to a specific device to be used as an energy source for driving.

Among the generators described above, a generator that generates power using a flow force through which a fluid such as water flows is also conceived.

By the way, the conventional power generator using the flow force of the fluid has a low rotational speed of the rotor was not able to achieve a smooth power generation, there was a problem that can only produce low-voltage electrical energy that does not meet expectations.

The smaller the size, the lower the power generation efficiency, and when installed on a fluid flow pipe, there is a significant difficulty in installation and the rotational speed of the rotor does not meet the expectations, the power generation efficiency is lower.

On the other hand, various technologies have been devised for the purpose of making the washing power of the water sprayed through the shower excellent and refreshing.

Korean Patent Application No. 20-2007-0015135 and Korean Patent Application No. 10-2008-0014155 are presented for a shower with a light that emits light when using a shower, and Korean Patent Application No. 10-2004-1017259 There is provided a far-infrared lamp that emits far-infrared rays when using the shower, but the technique of driving the far-infrared lamp is made by the electrical energy produced by the generator provided in the shower when using the shower.

By the way, such a shower is merely to improve the user's mood, but not to emit light for the purpose of sterilizing the water supplied.

That is, it is not a far-infrared lamp or a conventional lamp, but it is not able to emit light having bactericidal power, such as an ultraviolet lamp.

Indeed, even if the generator of the prior art is provided in the shower, the power generation efficiency is very low, it is difficult to drive the ultraviolet lamp for emitting light having sterilization power, there is also a problem that the drive of the far infrared lamp is difficult.

The present invention is to solve the above problems, and more particularly, to produce electrical energy through the flow force of the fluid, while miniaturizing and excellent power generation efficiency, to provide a generator that can be installed in a small pipeline.

Another object of the present invention is to provide a water discharge device such as a shower head or a faucet provided with a generator capable of producing strong electric energy enough to emit light having germicidal power and a germicidal lamp that emits light having germicidal power.

In addition, there is a purpose to ensure a smooth magnetization when water passes through the generator.

In the present invention, while the magnetized rotor having a permanent magnet for outputting the N pole and S pole magnetic force is rotated outside the coil-equipped power generation device to produce electrical energy, the generator is installed in a state that is covered on the outside of the magnet-driven rotor The path change hole is formed to be coupled to the body, and the fluid located at the outside flows inward, but the fluid flowing from the outside to the inside hits the impeller blades of the magnetized rotor and flows in the direction in which the magnetized rotor can rotate. By providing a flow path changing body is formed so as to be compact and excellent in power generation efficiency, to provide a generator using the flow force of the fluid that can be installed in a small pipeline, etc., and to ensure the smooth magnetization of water in the power generation process.

In addition, the generator and the sterilization lamp as described above is to be sterilized to be a water discharge device such as a shower or a faucet capable of supplying safe water.

The generator of the present invention as described above has a power plant self-installing body 10 in which a power plant self-installing hole is formed.

In addition, it has a coil-equipped power generation element which is located in the power generator installation hole and has a coil for power generation.

In addition, there is a permanent magnet for outputting the N pole and the permanent magnet for outputting the S pole is located outside the coil-equipped power generation element is located in the power plant magnetic installation hole is rotated, the fluid flowing Impeller wing to generate a rotational force is formed when it hits, and has a magnet-equipped rotor to generate electrical energy during rotation.

In addition, it is coupled to the generator installation body in a state that is covered on the outer side of the magnetic rotor, the path change hole is formed so that the fluid located on the outside flows inward, but the fluid flowing from the outside to the inside into the impeller wing It has a flow path changing body which is formed so as to be introduced into the direction in which the magnetic arm rotor can rotate.

The water discharge device of the present invention has a generator and a sterilization lamp for sterilizing the water supplied by being driven by the electrical energy of the generator or has a means for discharging the electrical energy by the generator to the water.

In the generator of the present invention, a magnet driven rotor provided with permanent magnets for outputting N-pole and S-pole magnetic forces is rotated outside the coil-driven power generation element to produce electrical energy, and is covered with the magnet-driven rotor. It is coupled to the power plant installation body, and the path change hole is formed so that the fluid located outside the inlet flows in, but the fluid flowing from the outside to the inside impinge the impeller blades of the rotor, the magnet driven rotor can be rotated Since the structure is provided with a flow path change body formed to flow in the direction, the power generation efficiency is excellent while being miniaturized, can be installed in a small pipeline, etc., the water is characterized in that the smooth magnetization of water during the power generation process.

In addition, the permanent magnet provided in the magnet-equipped rotor is a rod-shaped permanent magnet, the permanent magnet for outputting the N pole and the permanent magnet for outputting the S pole is arranged in a plurality of circumferential direction while changing the order The efficiency is more excellent, and the magnetization of water is made more smoothly.

In addition, while maintaining the state in which the power plant installation body is inserted into the inside of the magnetic rotor, the rotation of the magnetic gear rotor is to be made, a gap (T) between the power generator body and the magnetic gear rotor When the fluid is introduced into the gap (T), water acts as a lubricating oil, so that the rotation of the magnet-equipped rotor is more smooth, so that the power generation efficiency is excellent and the cooling effect is also obtained.

In addition, the water discharge device of the present invention is characterized by being capable of supplying safe water sterilized by the generator and the sterilization lamp as described above.

1 is a schematic view showing a generator cross section of the present invention installed on a pipeline through which fluid flows to illustrate the generator of the present invention;

Figure 2 is an exploded perspective view of the generator for explaining the generator of the present invention

Figure 3 is a schematic diagram for explaining the flow path change body component of the present invention

A: perspective view

B: side view

Figure 4 is a schematic diagram showing a magnet-controlled rotor in the front portion is cut state to explain the magnetized rotor, which is a component of the present invention;

Figure 5 is a schematic diagram showing a water discharge device (shower) with a generator of the present invention

Figure 6 is a partial cross-sectional perspective view of the power plant element installation body, the magnetic rotor, the flow path change body that is a component of the present invention;

7 is a schematic view for explaining the generator of the present invention having a magnetized water producer;

A: Sectional view of the state installed on the pipeline

B: exploded cross-sectional perspective view of the magnetizer

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

However, the accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the accompanying drawings.

The present invention relates to a generator for producing electrical energy through the flow force of a fluid.

However, the present invention has the purpose of providing a generator that is small in size and has excellent power generation efficiency and can be installed in a small pipeline, and has the purpose of making the magnetization smooth when water passes through the generator.

The generator of the present invention for this purpose has a power plant self-installing body 10 is formed a power plant self-installing hole (11).

In addition, it has a coil-equipped power generation element 20 which is located in the power generation plant installation hole 11 and has a coil for power generation.

In addition, the permanent magnet 31 and the S pole which is located outside the coil-equipped power generation element 20 located in the power plant magnetization installation hole 11 and rotates and outputs the N pole toward the coil-equipped power generation device 20. The output permanent magnet 32 is located, the impeller wing 33 for generating a rotational force is formed when the flowing fluid hits, and has a magnet-driven rotor 30 to generate electrical energy during rotation .

Since the structure of the generator having the generator body 10, the coil-equipped power generating element 20, the magnet-equipped rotor 30 as described above is already known, a detailed description thereof will be omitted.

However, only the configuration as described above can not achieve the object of the present invention.

The inventors of the present application devised a structure provided with a flow path changing body 40 coupled to the power generator installation body 10 in a state covered with the outer side of the magnet-equipped rotor 30.

The path changing hole 41 is formed in the flow path changing body 40 such that the fluid located outside the flow path changing body 40 flows inward.

By the way, simply forming the path changing hole 41 can not achieve the object of the present invention, the path changing hole 41 is the fluid flow inflow from the outside of the flow path changing body 40 to the magnetic ball assembly The impeller wing 33 of the electron 30 is formed so as to flow in a direction in which the magnetic rotor rotor 30 can be rotated. (The path changing hole 41 is formed to each path changing hole 41. At this point, the perforations are formed while forming an angle θ of 30 ° to 60 ° with the line L extending to the center of rotation of the magnetoresistive rotor 30, thereby smoothly rotating the magnetoresistive rotor 30 and thereby It is desirable because the power generation efficiency is smooth.)

According to this configuration, the fluid outside the flow path changing body 40, which has been flowed into the wide space, enters the relatively narrow path changing hole 41, and receives a higher pressure, and the inner space of the flow path changing body changes the path. Since the cross-sectional area of the hole 41 is wider, the flow velocity of the fluid flowing into the path changing hole 41 becomes very high.

In addition, since the fluid flowing from the outside of the flow path changing body 40 to the strong impingement of the impeller blades 33 of the magnetic rotor rotor 30, the magnetic rotor rotor 30 is rotated very quickly.

In addition, since the flow direction of the fluid is changed by the flow path changing body 40, the generator of the present invention can be installed on the flow path (flow path) of the fluid without changing the piping or the like. It is good to implement so that the water located in the rear can be moved to the front of the generator only via the path change hole 41.)

In addition, the fluid introduced into the flow path changing body 40, in particular, the water passes through the magnetic region output by the permanent magnet of the magnet-driven rotor 30 that is rotated at high speed. The positions of the permanent magnets 31 outputting the N pole and the permanent magnets 32 outputting the S pole rapidly change while being rapidly rotated, and the fluid is discharged by spreading a small amount widely. .

In the present invention, the permanent magnets 31 and 32 provided in the magnet-equipped rotor 30 are rod-shaped permanent magnets, permanent magnets 31 for outputting the N pole, and permanent magnets 32 for outputting the S pole. It is preferable that a plurality of are arranged in the circumferential direction while changing the order.

According to this configuration, the power generation efficiency can be greatly increased, and the magnetization of the water passing through the generator is more smoothly performed.

Permanent magnets 31 and 32 of the magnet-controlled rotor 30 as described above is preferably implemented in a form such as located inside the magnet-driven rotor 30 so as not to come into contact with the fluid in consideration of durability.

In the present invention, in order to increase the voltage of the electrical energy produced, the transformer 50 for increasing the voltage output by the coil-equipped power generation device 20 may be further provided.

The transformer 50 may be implemented integrally with the coil-equipped power generation device 20, or may be provided separately.

In the present invention, while maintaining the state in which the power plant self-installing body 10 is inserted into the inside of the magnet armature rotor 30 is implemented to achieve the rotation of the magnet arm rotor 30, the power plant body mounting body ( A gap (T) is formed between 10) and the magnetoresistive rotor (30), and the fluid may be introduced into the gap (T).

According to such a configuration, the water flowing into the gap T between the power plant element installation body 10 and the magnetoresistive rotor 30 acts as a lubricating oil so that the magnetoresistive rotor 30 can be more smoothly rotated. It also acts as a coolant to cool off the heat generated.

In the accompanying drawings, the rear of the magnet-equipped rotor 30 is blocked, but the perforated hole 34 is formed in the partition wall forming the rear, so that a small amount of fluid introduced into the perforated hole 34 is installed in the generator body ( 10) is introduced into the gap (T) between the magnet rotor rotor (30).

This configuration is a configuration that can minimize the disturbance to the rotation of the magnetic rotor rotor 30 due to the fluid flowing into the gap (T) between the power plant generator body 10 and the magnetic rotor rotor (30). .

The generator of the present invention described above can be used for various purposes.

As a specific example, since the generator 100 is embedded, the generator 100 may be implemented in the form of a water discharge device such as a shower head or a faucet that produces electric energy by a fluid flowing in use.

Since the generator 100 of the present invention can output a very high voltage, it is sufficient to drive the germicidal lamp 200 that emits light having germicidal power such as ultraviolet rays.

Therefore, the generator 100 of the present invention is provided with a water discharging device, and the fluid flowing in particular when provided with a sterilizing lamp 200 in the water discharging device to receive the electric energy generated by the generator to emit light having a sterilizing power As a result, the water can be sterilized to provide safe water.

In the water discharge device as described above, it may further include a bubble generating means (not shown) that can generate bubbles of small particle size in the fluid to be flow using the pressure of the fluid to be flowed.

Such bubble generating means is preferably installed in front of the sterilizing lamp so that the fluid containing the bubble via the sterilizing lamp.

Since a technique for generating a small particle size bubble in the fluid to be flowed using the pressure of the fluid to be flowed is already known through Korean Patent Registration No. 10-0942589 and the like, a detailed description thereof will be omitted.

Since the generator of the present invention described above is installed in a pipeline through which a fluid flows, it is implemented in a waterproof type, and the implementation of the waterproof type is a well known technique, and thus a detailed description thereof will be omitted.

In the above description has been described a configuration having a sterilization lamp 200 for sterilization of the fluid.

However, for sterilizing the fluid, it may be possible to discharge the electrical energy generated by the generator 100 to the fluid.

Of course, it can also be implemented to be discharged together with the sterilizing lamp 200.

In the present invention, the magnetization of the fluid passing through the generator 100 is made smoothly, so that the magnetization water production unit 60 in the generator may be further provided in order to make the magnetization water production efficiency excellent.

The magnetized water maker 60 may be implemented in various forms known in the art, but as shown in FIG. 7, the permanent magnet 61a outputting the N pole toward the center and the permanent magnet 61b outputting the S pole are changed in the circumferential direction. The magnetic force is output toward the permanent magnets (61a, 61b) provided in the magnetized water production rotary body 61 from the center of rotation of the magnetized water production rotary body 61 and the magnetized water production rotary body 61 are arranged in a plurality It is preferable to implement in the form having a center of rotation permanent magnet (62).

At this time, the rotation center permanent magnet 62, it is preferable to output the N-pole magnetic force toward one side and the S-pole magnetic force toward the opposite direction on the basis of the rotation center of the magnetized water production rotating body 61, The permanent magnets 61a and 61b provided in the magnetized water production rotating body 61 are preferably implemented in a rod shape.

Reference numeral 42 not only prevents the back of the flow path changing body 40 from coming into close contact with the inner wall of the shower when the generator 100 of the present invention is inserted into an object such as a shower, and the flow path changing body 40. Spacing protrusions are formed to evenly distribute water hitting the back of the).

The spacing forming protrusion 42 is evenly dispersed in the water hitting the radially formed in the center of the rear of the flow path change body (40).

In addition, the spacing forming projections 42 are preferably formed in a form in which the rear portion of the flow path changing body 40 is divided at the same angle in consideration of even dispersion of water.

Claims (6)

In a generator that converts the mechanical energy of a fluid into electrical energy, A power plant self-installing body having a power plant self-installing hole formed therein; A coil-equipped power generation element located in the power generation unit installation hole and having a coil for power generation; Rotated outside the coil-equipped power generation element located in the power plant magnetic installation hole, the permanent magnet for outputting the N pole and the permanent magnet for outputting the S pole is located toward the coil-equipped power generation device, the fluid flowing there If the impeller wings for generating a rotational force is formed, the magnet-equipped rotor to generate electrical energy during rotation; And Coupled to the generator installation body in a state that is covered on the outer side of the magnet arm rotor, a path change hole is formed so that the fluid located on the outside flows into the inside, but the fluid flowing from the outside to the inside hit the impeller wing And a flow path changing body configured to flow in a direction in which the magnet-equipped rotor can rotate. The generator using the flow force of the fluid. The method of claim 1, The permanent magnets provided in the magnet-equipped rotor are rod-shaped permanent magnets, and the permanent magnets outputting the N pole and the permanent magnets outputting the S pole are arranged in plural in the circumferential direction while changing the order. , A generator that uses the fluid's flow force. The method of claim 1, The path changing hole is perforated while forming an angle of 30 ° to 60 ° with a line extending to the center of rotation of the magnetized rotor at the point to form each path changing hole, using the flow force of the fluid generator. The method of claim 1, The generator mounting body is made to rotate the magnet equipped rotor while maintaining the state inserted into the inside of the magnet equipped rotor, A gap is formed between the power generator body and the magnet-equipped rotor, A perforated hole is formed in the partition wall forming the rear of the magnetized rotor so that the rear of the magnetized rotor becomes clogged so that fluid introduced into the punched hole flows into the gap between the power plant installation body and the magnetized rotor. And lubricating and cooling water. The method of claim 1, A magnetized water production rotating body in which a plurality of permanent magnets outputting the N pole toward the center and a permanent magnet outputting the S pole are arranged in the circumferential direction while changing the order; And A magnetization water maker having a rotational permanent magnet that outputs a magnetic force toward the permanent magnet provided in the magnetization water production rotation body at the rotational center of the magnetization water production rotation body; further comprising: using the flow force of the fluid generator. In a water discharge device such as a shower or a faucet that has a generator for converting the mechanical energy of the fluid into electrical energy to produce electrical energy by the fluid flowing in use, It has a sterilization lamp that emits light having sterilization power by receiving the electrical energy generated by the generator, The generator is a power plant self-installed body formed with a power plant self-installed hole; A coil-equipped power generation element located in the power generation unit installation hole and having a coil for power generation; Rotated outside the coil-equipped power generation element located in the power plant magnetic installation hole, the permanent magnet for outputting the N pole and the permanent magnet for outputting the S pole is located toward the coil-equipped power generation device, the fluid flowing there If the impeller wing for generating a rotational force is formed, the magnetic rotor for generating electrical energy during rotation: And Coupled to the generator installation body in a state that is covered on the outer side of the magnet arm rotor, a path change hole is formed so that the fluid located on the outside flows into the inside, but the fluid flowing from the outside to the inside hit the impeller wing And a flow path changing body formed to flow in a direction in which the magnet-equipped rotor can rotate. The magnetized water discharge device having a generator using a flow force of a fluid.

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