KR101552808B1 - Energy generating device resistance plate structure - Google Patents

Abstract

According to the present invention, a resistive plate structure of an energy generating apparatus includes: a housing which comprises a generator; a rotor which is combined to the housing as being able to rotate; a rotation support which is combined to an outer circumference of the rotor, and rotates around the housing in a body with the rotor; a resistive plate which is formed in a shape of a plate, and has a fixing groove which is dented at one side and is inserted with the rotation support as being able to rotate, and generates resistance by a gas or a fluid; and an angle limiting part which combines the resistive plate to the rotation support to be able to rotate so that the resistive plate is vertical to generate resistance at a forward direction for the gas or the fluid to move and the resistive plate is horizontal in order not to generate resistance at a reverse direction, and limits rotation angle width of the resistive plate. The rotor is rotated by the resistance generated by the resistive plate, and the generator generates energy by rotary force of the rotor. According to the present invention, the rotor is rotated by the resistance generated by the resistive plate, and the generator generates energy by the rotary force of the rotor which is rotated.

Description

[0001] The present invention relates to an energy generating device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a resistance plate structure of an energy generating device, and more particularly, to a resistance plate generated by a resistance plate of a resistance plate of an energy generating device, The present invention relates to a resistance plate structure of an energy generating device.

Generally, hydroelectric power generation, tidal power generation, thermal power generation, nuclear power generation, wind power generation, and photovoltaic power generation are generally used as methods for producing electricity. Among them, thermal power generation and nuclear power generation facilities are used for operation A large amount of energy consumption, high technology, manpower, high-tech equipment and the like are required, as well as a considerable installation and maintenance cost, as well as the inverse function of generating a large amount of environmental pollutants which are particularly harmful to the environment.

Therefore, considering the domestic geographical conditions rich in mountainous areas where the three sides are surrounded by the sea and the good mobility of the wind, there is a great interest in the development of environmentally friendly, low carbon renewable green energy using wind or tidal power.

On the other hand, the conventional wind turbine apparatus which is installed / used the most heretofore is a so-called propeller type rotation, in which a power transmission unit is mounted on the upper end of a vertically installed support, and about three to four wings The conventional wind turbine generator having such a structure has a structure in which one rotary blade arranged in a constant radial shape within a predetermined diameter range is vertically mounted toward the wind direction, It is impossible to expect only a small amount of electric power generated by the rotational drive of the single rotary wing. Therefore, in order to increase the electric power generation, it is required to increase the number of the above-mentioned structures to a large extent in a large area. There is a limit to the place of installation and the amount of power that can be obtained compared to the investment cost.

In addition, conventionally, the exact position is determined only by the pushing force of the resistance plate according to the flow of water. However, when the resistance plate is heavy, it is difficult to utilize all of the pressing force.

Korean Registered Patent Publication No. 10-1026930 Korean Registered Patent Publication No. 10-1228298

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above and its object is to provide a resistance plate that is vertical in order to generate a resistance in a forward direction in which a gas or a fluid moves, In order to provide a resistance plate structure of an energy generating device in which a rotating body is rotated by a resistance force generated by a resistance plate by combining a supporting plate and a resistance plate and the power generating device can generate energy by the rotating force of the rotating rotating body to be.

It is another object of the present invention to provide a method of manufacturing a semiconductor device in which when a resistance plate is in a horizontal state, a minimum angle of resistance is formed between the latching jaw and the horizontal plane as the protrusion is caught by the protrusion, A resistance is generated by a minimum resistance angle so that the resistance plate is rapidly and easily rotated around the rotating body and becomes a vertical state to generate a resistance and to rotate the rotating body. It is for this reason.

It is also an object of the present invention to provide a method of controlling the resistance of a resistance plate by adjusting the angle of rotation of the resistance plate in accordance with an angle formed between both sides of a protrusion controlled by an angle adjusting unit, The present invention is to provide a resistance plate structure of an energy generating device that can control a rotation speed, prevent an overload of a power generation device, thereby facilitating maintenance and reducing maintenance costs.

According to an aspect of the present invention, there is provided a power supply apparatus including: a housing having a power generating unit therein; A rotating body rotatably coupled to the housing; A rotary support coupled to an outer circumferential surface of the rotary body and rotated about the housing integrally with the rotary body; A resistance plate which is formed in a plate shape and has a fixing groove into which one end of the rotation support is rotatably inserted and which generates resistance by a gas or fluid; And the resistance plate is rotatably coupled to the rotation support so that the resistance plate is in a vertical state such that a resistance is generated in the forward direction in which the gas or the fluid moves, and the resistance plate is in a horizontal state such that no resistance is generated in the reverse term, And an angle restricting unit for restricting an angular width of the rotary member. The rotary member is rotated by a resistance force generated by the resistance plate, and the generator generates energy by the rotational force of the rotary member.

The angle restricting portion may include a protrusion protruding from the outer circumferential surface of the rotation support and having a first outer side surface and a second outer side surface and a protruding portion protruding outwardly to have a radius larger than a radius of the fixing groove, And a first engaging jaw and a second engaging jaw formed at both ends thereof to be inserted thereinto and including a clearance groove into which the projection of the rotation support is inserted, The jaw is caught by the protruding portion to restrict rotation and is in a vertical state or a horizontal state according to the moving direction of the gas or the fluid.

Also, the clearance groove of the resistance plate is formed such that the angle between the first and second engaging jaws is greater than 90 degrees and smaller than 180 degrees, and the first protrusion of the protrusion and the first protrusion of the clearance groove, The second outer side surface of the protrusion and the second protrusion jaw of the clearance groove are formed parallel to each other so that the resistance plate is in surface contact with each other as the resistance plate is rotated, When the rotation angle is less than 90 占 and when the horizontal state is attained, a minimum resistance angle is formed between the locking protrusion and the horizontal plane as the locking protrusion is caught by the protrusion, and when the forward direction of the gas or fluid faces the end face of the rotation support A resistance is generated by the minimum resistance angle and is rotated about the rotation support and becomes a vertical state.

The resistance plate may have an upper resistance portion and a lower resistance portion protruding from upper and lower portions with respect to the fixing groove, and the protrusion length of the upper resistance portion and the lower resistance portion may be longer, And the resistance plate is vertically arranged to generate resistance when the rotating body is rotated toward the forward direction which is the traveling direction of the gas or the fluid and when the rotating body is rotated toward the reverse direction, So that it is not influenced by the flow direction of gas or fluid.

In addition, the resistance plate may have a coupling hole penetrating the fixing groove on an outer surface thereof. The rotation support plate may have an engaging groove inserted in the fixing groove and inwardly along the periphery of the outer circumferential surface facing the coupling hole, And a release prevention pin inserted into the coupling hole and having an end engaged with the retaining groove so that the rotation support is not separated from the retaining groove.

And an angle adjusting unit coupled to at least one of side surfaces of both sides of the protrusion so as to adjust the angle at which both side surfaces of the protrusion are spaced apart from each other, And the angle adjusting part adjusts the length of the protrusion to be inserted into one side of the protrusion and the length of the protrusion protruding outward is adjustably fixed to the one side of the protrusion, And a length adjusting member coupled to an outer circumferential surface of the length adjusting bar and extending or protruding outwardly from the one side of the length adjusting bar as it rotates and an angle adjusting member coupled to an end of the length adjusting bar, , The rotation support base includes a rotation center shaft which is inserted into a coupling hole of the resistance plate, The distance between the side surface of the protrusion and the angle adjusting member is increased or decreased according to the length of the length adjusting bar protruding or inward from the one side surface of the protruding member by the diaphragm member, Wherein the length adjusting bar is inserted and fixed to one side of the protruding portion in a threaded manner and the length adjusting member is engaged with the length adjusting bar in a screw engagement manner, It is possible to adjust the length of the adjustment bar projected or inserted into one side of the projection.

The rotation center axis may include a first bearing at a rotation center axis facing the one side of the resistance plate and a second bearing at an end of the rotation center axis to smooth the rotation of the resistance plate, The outer diameter of the first bearing is formed to correspond to the outer diameter of the protrusion of the rotation center shaft and the outer diameter of the second bearing is formed to correspond to the inner diameter of the fixing groove so as to be inserted into the fixing groove of the resistance plate, The first bearing provided at the intermediate portion is larger than the second bearing provided at the end portion.

As described above, according to the present invention, there is provided a resistance plate structure of an energy generating device in which a rotating body is rotated by a resistance force generated by a resistance plate, and a power generating device can generate energy by a rotating force of the rotating rotating body .

In addition, according to the present invention, it is possible to rotatably couple the resistance plate to the supporting base of the rotation support, and by regulating the number, it is possible to further generate resistance by the fluid, It is possible to provide a resistance plate structure of an energy generating device capable of further improving electric power generation.

1 is a perspective view illustrating a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention.
2 is a perspective view showing a resistance plate of a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention.
3 is an exploded perspective view showing a resistance plate of a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention.
4 is a side view showing a resistance plate of a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for explaining a resistance plate structure of an energy generating device according to embodiments of the present invention.

FIG. 1 is a perspective view showing a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention, FIG. 2 is a perspective view showing a resistance plate of a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention, 3 is an exploded perspective view showing a resistance plate of a resistance plate structure of an energy generating device according to a preferred embodiment of the present invention, and FIG. 4 is a side view showing a resistance plate of the resistance plate structure of the energy generating device according to a preferred embodiment of the present invention .

First, the resistance plate structure of the energy generating device according to the present invention is to generate electricity by rotating along the direction of the fluid flow.

1 to 4, a resistance plate structure of an energy generating apparatus according to the present invention includes a housing 110, a rotating body 120, a rotation support 130, a resistance plate 140, and an angle limiting unit 150, .

The housing 110 is provided therein with a power generation device.

The rotating body (120) is rotatably coupled to the housing (110).

The rotation support 130 is inserted into the fixing groove 141 and formed with an engaging groove 131 which is inserted along the periphery of the outer surface facing the engaging hole 144.

The resistance plate 140 has a fixing groove 141 through which the rotation support 130 is rotatably inserted, and a resistance is generated by a gas or a fluid.

That is, in the resistance plate structure of the energy generating device according to the present invention, the rotating body 120 is rotated by the resistance force generated by the resistance plate 140, and the rotational force of the rotating body 120, Can be developed.

In addition, the rotation support 130 includes a first bearing 132 and a second bearing 133.

The first bearing 132 is provided on the rotation support 130 facing one side of the resistance plate 140.

The second bearing 133 is provided at an end of the rotation support 130.

That is, the first bearing 132 and the second bearing 133 are provided on the rotation support 130 to smooth the rotation of the resistance plate 140.

At this time, the first bearing 132 provided at the intermediate portion is larger than the second bearing 133 provided at the end portion

More preferably, the outer diameter of the first bearing 132 is formed to be the same as the outer diameter of the protruding portion 151 of the rotary support 130, and the outer diameter of the second bearing 133 is fixed to the fixed It is preferable that the inner diameter of the fixing groove 141 is formed to be the same as the inner diameter of the fixing groove 141 so as to be inserted into the groove 141.

At this time, a plurality of resistance plates 140 may be provided on the rotation support 130.

Meanwhile, the angle restricting unit 150 is configured such that the resistance plate 140 is in a vertical state such that a resistance is generated in a forward direction in which a gas or a fluid moves, The plate 140 is coupled to the rotation support 130 so as to be rotated, and the rotation angle width of the resistance plate 140 is limited.

In addition, the angle restricting portion 150 includes a protrusion 151 and a clearance groove 153.

The protrusion 151 protrudes from the outer circumferential surface of the rotation support 130. At this time, the upper side outer side surface of the projection 151 is referred to as a first outer side surface, and the lower side outer side surface is referred to as a second outer side surface.

The clearance groove 153 is formed such that one side of the inner circumferential surface of the fixing groove 141 has a radius larger than the radius of the fixing groove 141 so as to be inserted outwardly so that the engaging protrusions 152 are formed at both ends, . At this time, the engaging jaw 152 formed on the upper side of the clearance groove 153 is referred to as a first engaging jaw, and the engaging jaw 152 formed on the lower side is referred to as a second engaging jaw.

That is, when the resistance plate 140 is rotated by the gas or the fluid, the engaging protrusions 152 of the clearance grooves 153 are caught by the protrusions 151 to restrict the rotation, Lt; / RTI >

When the resistance plate 140 is in the vertical state, the first outer side surface of the protrusion 151 and the first engaging jaw of the clearance groove 153 are in contact with each other. When the resistance plate 140 is in a horizontal state The second outer side surface of the projecting portion 151 and the second engaging jaw of the clearance groove 153 are in contact with each other.

At this time, it is preferable that the clearance groove 153 of the resistance plate 140 is formed such that the engaging step 152 is larger than 90 degrees and smaller than 180 degrees.

The outer surface of the protrusion 151 of the rotation support 130 and the inner surface of the clearance groove 153 of the resistance plate 140 are formed parallel to each other so that the resistance plate 140 can be in surface contact with each other as the resistance plate 140 is rotated .

Accordingly, the rotation angle between the vertical plate and the horizontal plate is less than 90 degrees, and when the plate is in the horizontal state, the second latching jaw 152 is engaged with the second outer side surface of the protrusion 151 A resistance is generated by the minimum resistance angle and the rotating body 120 is rotated in the direction of the minimum resistance angle, And is in a vertical state.

The resistance plate 140 is formed in a plate shape and has an upper resistance portion 142 protruding from the upper side and a lower side with respect to the fixing groove 141 and protruding from the outer side of the portion where the fixing groove 141 is formed, A lower resistive portion 143 is formed.

At this time, either one of the lengths of the upper resistive part 142 and the lower resistive part 143 is longer, and the weight of the upper resistive part 142 and the lower resistive part 143 is larger than that of the upper resistive part 142 It is preferable that the lower resistance portion 143 is formed to be heavier.

The upper resistance portion 142 is formed to be longer than the protrusion length of the lower resistance portion 143 and the weight of the upper resistance portion 142 is formed to be lighter than the weight of the lower resistance portion 143.

That is, when the rotating body 120 is rotated toward the forward direction of the gas or fluid, the resistance plate 140 is in a vertical state to generate resistance, and when the rotating body 120 is rotated in the reverse direction, So as to be horizontal. In other words, the resistance plate 140 can be rotated about the rotation support 130 sensitively to the gas or fluid flow direction.

In addition, the resistance plate 140 is formed on its outer surface with a coupling hole 144 penetrating through the fixing groove 141.

At this time, the rotation support 130 is inserted into the fixing groove 141, and the engaging groove 131 is formed along the periphery of the outer surface facing the engaging hole 144.

In addition, the resistance plate structure of the energy generating device according to the present invention further includes an escape prevention pin (160).

The release prevention pin 160 is inserted into the coupling hole 144 so that the end of the separation prevention pin 160 is caught by the coupling groove 131 so that the rotation support base 130 is not separated from the fixing groove 141.

That is, the resistance plate 140 is rotatable to the rotation support 130 by the gas or the fluid and is not separated from the rotation support 130 by the separation prevention pin 160. When the resistance plate 140 is rotated, the end of the detachment prevention pin 160 rotates integrally with the resistance plate 140 along the engagement groove 131 in which the detachment prevention pin 160 is inserted along the periphery of the outer surface.

The resistance plate structure of the energy generating device according to the present invention further includes an angle adjusting unit 170. [

The angle adjuster 170 is coupled to at least one of the side surfaces of the protruding portion 151 to adjust the angle of the protruding portion 151 with respect to the opposite side surfaces.

A plurality of angle adjusting portions 170 may be coupled to the first outer surface or the second outer surface of the protruding portion 151.

Accordingly, the rotational angle width of the resistance plate 140 is adjusted in the vertical and horizontal directions according to the angle between the opposite sides of the protrusion 151 controlled by the angle adjusting unit 170.

The angle adjusting unit 170 includes a length adjusting bar 171, a length adjusting member 172, and an angle adjusting member 173.

The length adjusting bar 171 is inserted into one side of the protrusion 151 and the length of the protruding outward is adjustably fixed.

At this time, the length adjusting bar 171 is inserted and fixed to one side of the protrusion 151 in a threaded manner.

The length adjusting member 172 is coupled to the outer circumferential surface of the length adjusting bar 171. The length adjusting bar 171 is protruded or inserted into the inside of the one side of the protruding portion 151 as it rotates.

At this time, the length adjusting member 172 is coupled with the length adjusting bar 171 in a screw coupling manner, and the length adjusting bar 171 is adjusted to be protruded or inserted into one side of the protruding portion 151 It is possible.

The angle adjusting member 173 is coupled to the end of the length adjusting bar 171.

At this time, it is preferable that the outer surface of the angle regulating member 173 and the engaging jaw 152 of the clearance groove 153 of the resistance plate 140 are facing and parallel to each other.

That is, the resistance plate 140 is formed by the length adjusting member 172 and the protrusion 151 according to the length of the length adjusting bar 171 protruding or inward from the first outer side surface or the second outer side surface of the protrusion 151, The distance between the first outer side surface or the second outer side surface of the angle adjusting member 173 and the angle adjusting member 173 is increased or decreased to adjust the width of the rotation angle about the rotation support 130.

Therefore, the resistance plate structure of the energy generating device of the present invention can control the rotational speed of the rotating body 120 as the resistance plate 140 can adjust the resistance force generated in the vertical state, It is easy to maintain and manage, and the cost of maintenance can be reduced.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

110: housing 120: rotating body
130: rotation support member 131:
132: first bearing 133: second bearing
134: rotation center shaft 140: resistance plate
141: fixing groove 142: upper resistance portion
143: lower resistance portion 144:
150: Angle restricting portion 151:
152: latching jaw 153:
160: a separation preventing pin 170: an angle adjusting portion
171: length adjusting bar 172: length adjusting member
173: Angle adjusting member

Claims (7)

A housing having a power generating unit therein;
A rotating body rotatably coupled to the housing;
A rotary support coupled to an outer circumferential surface of the rotary body and rotated about the housing integrally with the rotary body;
A resistance plate which is formed in a plate shape and has a fixing groove into which one end of the rotation support is rotatably inserted and which generates resistance by a gas or fluid; And
The resistance plate is rotated so that a resistance is generated in a forward direction in which the gas or the fluid moves, and the resistance plate is rotatably coupled to the rotation support so that the resistance plate is in a horizontal state so that no resistance is generated in the reverse direction, And an angle restricting portion for restricting the width of the light beam,
The rotating body is rotated by a resistance force generated by the resistance plate, and the power generating device generates energy by rotating force of the rotating body,
The resistive plate may have an upper resistive portion and a lower resistive portion protruding from upper and lower portions with respect to the fixing groove, and the protruding length of the upper resistive portion and the lower resistive portion may be longer,
The lower resistance portion is heavier than the upper resistance portion,
The resistance plate is in a vertical state such that resistance is generated when the rotating body rotates toward the forward direction which is the traveling direction of the base body or fluid and is horizontal when the rotating body is rotated toward the reverse direction, Wherein the resistance plate structure of the energy generating device is not affected by the flow direction of the fluid.
The apparatus according to claim 1,
A protrusion protruding from an outer circumferential surface of the rotation support and formed with a first outer surface and a second outer surface;
Wherein one end of the inner circumferential surface of the fixing groove of the resistance plate is inwardly recessed so as to have a radius larger than the radius of the fixing groove to form a first engaging jaw and a second engaging jaw at both ends, Including,
Wherein the engaging jaw of the clearance groove is caught by the protrusion when the gas or fluid is rotated by the resilient plate so that rotation of the resilient plate is restricted and is vertical or horizontal in accordance with the moving direction of the gas or fluid. Resistance plate structure of the device.
3. The method of claim 2,
The clearance groove of the resistance plate is formed such that an angle between the first and second engaging jaws is greater than 90 degrees and less than 180 degrees,
The first protruding jaw of the protruding portion and the first protruding jaw of the clearance groove, the second outer surface of the protruding portion, and the second protruding jaw of the clearance groove are parallel to each other so as to be in surface contact with each other as the resistance plate is rotated Formed,
Wherein the resistance plate has a minimum angle of resistance between a horizontal plane and a horizontal plane when the rotation angle between the vertical plate and the horizontal plate is less than 90 °, And a resistance is generated by the minimum resistance angle when the forward direction of the gas or the fluid and the end surface of the rotary support are facing each other, so that the resistance plate is rotated around the rotation support and is in a vertical state. .
delete The method according to claim 1,
The resistance plate has an outer surface formed with a coupling hole penetrating the fixing groove,
Wherein the rotation support is formed with an engaging groove inserted in the fixing groove and along the periphery of the outer circumferential surface facing the engaging hole,
And a release preventing pin inserted into the coupling hole and having an end engaged with the retaining groove so that the rotation support is not separated from the fixing groove.
3. The method of claim 2,
And an angle adjuster coupled to at least one of side surfaces of the protruding portion, the angle adjusting portion being capable of adjusting an angle between opposite sides of the protruding portion,
The width of the rotational angle between the vertical state and the horizontal state is adjusted according to the angle between the opposite sides of the protrusion controlled by the angle adjusting unit,
The length adjuster includes a length adjusting bar inserted into one side of the protruding portion and protruding outward, the length adjusting bar being adjustably fixed to the outer circumferential surface of the length adjusting bar, A length adjusting member protruding outward from the side surface or allowing the inside of the length adjusting member to be inserted into the inside thereof, and an angle adjusting member coupled to an end of the length adjusting bar,
Wherein the rotation support base includes a rotation center shaft which is inserted into a coupling hole of the resistance plate,
The distance between the side surface of the protrusion and the angle adjusting member is increased or decreased according to the length of the length adjusting bar protruding or inward from the one side surface of the protrusion by the length adjusting member, The width of the rotation angle that is rotated about the axis is adjusted,
Wherein the length adjusting bar is inserted and fixed to one side of the protrusion in a screw-
Wherein the length adjusting member is coupled to the length adjusting bar in a screw engagement manner and is capable of adjusting the length of the length adjusting bar protruding or inward from one side of the protruding portion according to rotation, .
The method according to claim 6,
The rotation center axis includes a first bearing on a rotation center axis facing one side of the resistance plate and a second bearing on an end of the rotation center axis to facilitate rotation of the resistance plate,
The outer diameter of the first bearing is formed to be the same as the outer diameter of the protrusion of the rotation center shaft,
The outer diameter of the second bearing is the same as the inner diameter of the fixing groove so as to be inserted into the fixing groove of the resistance plate,
Wherein the first bearing is larger than the second bearing provided at the end portion.

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