KR101427996B1 - Non-Power water pump wave forces - Google Patents

Abstract

The present invention relates to a non-powered water pump using wave force. A rotation part and hinged wings are connected upon a screw shaft formed to be vertically extended, so that the rotation part and the hinged wings uniformly rotate. Due to the structure of the hinged wings, the rotation part and the hinged wings rotate in one direction regardless of a flowing direction of wave force, and a direction in which the screw shaft pumps water is set as the rotating direction of the rotation part and the hinged wings. The upper part and the lower part of the screw shaft is fixed to a ground to reduce variations in rotation and to set a static rotation range. A pipe is connected to the rotation part to protect pumped water, and fixed plates are connected to the pipe to prevent the pipe from rotating together with the screw shaft. The fixed plates connected to the upper part and the lower part of the pipe includes an inlet, supplies pumped water through the inlet, and the upper fixed plate is connected to a discharge pipe. Regardless of the flowing direction of wave force, wave force flowing from multiple directions is utilized as kinetic energy to supply the pumped water supplied from the lower fixed plate to the upper part through a helical flow passage of the screw shaft, to pass through the pipe and the upper fixed plate passage, so as to store the pumped water in a water tank through the discharge pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a non-

The present invention relates to a non-powered pumping device that utilizes the kinetic energy of waves generated in multiple directions, and more particularly, to a non-powered pumping device that utilizes the kinetic energy obtained by the natural phenomenon, To a pumping device.

Generally, a pumping system uses a motor that consumes power to raise water from the obstruction to the ground, or requires additional power or manpower. Power can be produced by a generator, which consumes energy sources such as coal and oil. These resources have been used as a power source for a long period of time to produce electric power, but they have caused pollution due to harmful substances such as nitrogen and carbon which are emitted thereby, and global environmental pollution is pointed out as a problem.

In order to solve this problem, the recent development of new energy using wave (current, current) has been attracting attention. Although the renewable energy using wave is constantly being developed, it has not been established yet. There are problems to be received and there are various technologies utilizing wave power, but mainly the technology that utilizes kinetic energy of the wave up and down or the elevation of the sea level is mostly used, and the system also operates in the upper part of the water surface.

For example, Korean Patent Registration No. 10-2011-0003970 "Screw Pump" is disclosed as a conventional pumping device, and the pumping pump of Archimedes is a basic principle.

However, the above-described conventional water pumping device is inclined at a specific angle, and it takes a lot of space in the installation structure, and even in the method of pumping water, there is a disadvantage that a power consuming motor is used or additional power and manpower are consumed have.

SUMMARY OF THE INVENTION The present invention is to solve the problems of the prior arts as described above, and it is an object of the present invention to provide a structure capable of vertically pumping by changing the conventional inclined screw method.

In addition, when the screw shaft is pumped, an additional device that can utilize the wave energy from multiple directions as rotational energy can be constructed to use the non-motorized clean energy utilizing the wave without consuming additional material energy without causing pollution It is another task.

Another problem is that the rotating body combined with the screw shaft is allowed to rotate in the same rotational direction and only in a single direction in which the screw shaft pivots.

In order to solve the above-mentioned problem, in constructing the non-powered pumping device using wave power of the present invention,

A lower support 90 coupled to the lower end of the screw shaft 10; an upper support 60 coupled to an upper end of the screw shaft 10; A plurality of fixing plates 63 coupled to one side of the lower support table 90 and the upper support table 60 and a plurality of fixing plates 40 coupled to the fixing plate 40 to couple the screw shafts 10 And a plurality of hinged blades (50) coupled to the rotary part (20), wherein the screw shaft (30) includes a plurality of pipe tubes (30) 10 is formed integrally with the rotary part 20 so as to induce the rotation of the hinged blades 50 by the force of the waves and to receive the inside of the fixing plate 40, So that water can be discharged from the upper region of the pipe (30).

The rotary part 20 includes a plurality of round rods 21 coupled to the side surface of the screw shaft 10, at least one rotary pipe 25 coupled with the round bar 21, a rotary pipe 25 A plurality of thrust bearings 22 coupled with the rotary tube 25 and a plurality of fixed fastening portions 23 coupled with the rotary tube 25 and a plurality of assembled round rods 24 coupled with the fastening portions 23, , And the thrust bearing (22) is fixedly coupled at both upper and lower ends of the rotary pipe (25).

The hinged wing 50 includes a hinge 51 fastened to the rotary part 20, a wing 52 connected to the hinge 51, a hinge rod 52 fastened to the hinge 51 and the wing 52, (102), and the wing (52) is folded around the hinge rod (102) due to the 360 degree rotation induced by the wave force.

The fixing plate 40 is divided into a first fixing plate 41 coupled to the upper support and a second fixing plate 42 coupled to the lower support. The first and second fixing plates are respectively connected to the pipe pipe 30, And the second fixing plate 42 is further provided with a water inlet 43 so that water can be received by the rotational motion of the screw shaft 10. [

In addition, the first fixing plate 40 further includes a discharge pipe 70 for discharging the received water, and the discharge pipe 70 is connected to a water storage tank 80 for storing the flowing water, Feature.

The fixed base 63 includes a horizontal support 64 coupled to the upper support 60 and a vertical support 65 extending upward or downward from the horizontal support.

According to the present invention having the above-described structure, it is possible to provide an apparatus for pumping water by utilizing a wave force, which is received in various directions around a screw shaft, irrespective of a direction of receiving a wave power as rotational energy, There is an effect that water can be pumped without energy consumption.

In addition, it can generate additional energy by utilizing the power of flowing water when using stored pumped water. It is also possible to supply fresh water to various fishing grounds and water tanks. In addition, Can be seen.

It is easy to manufacture due to the minimization of the related structure, and it can be used for a long time with one installation, and it is excellent in economic efficiency because of its excellent performance ratio compared to the investment cost, and the material of the device is also rubber, plastic It is possible to reduce materials and prevent rusting, and the life of the device can be increased.

1 is a perspective view showing a preferred installation state of the present invention;
2 is a plan view showing a preferred installation state of the present invention.
3 is an exploded perspective view showing a preferred installation state of the present invention.
4 is an exploded perspective view showing a preferable installation state of the screw rotating shaft of the present invention.
Fig. 5 is a cross-sectional view of Fig. 4 (A- "A") of the present invention. Fig.
FIG. 6 is a diagram illustrating a preferred embodiment of the present invention
Figure 7 is a schematic diagram of a preferred embodiment of the present invention;
Fig. 8 is a schematic view of a preferred embodiment of Fig. 6 (A). Fig.
Fig. 9 is a schematic view of a preferred embodiment of Fig. 6 (A). Fig.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a pumping device constructed in accordance with a preferred embodiment of the present invention, FIG. 2 is a plan view of a pumping device constructed in accordance with a preferred embodiment of the present invention, and FIG. 4 is an exploded perspective view of the screw rotating shaft, FIG. 5 is a sectional view taken along the line A-A of FIG. 4, and FIG. 6 or 7 is a perspective view showing a state Fig. 8 is an exemplary view showing a rotational motion process using the wave energy of Fig. 7 (A), and Fig. 9 is a view showing a range of motion of the hinged wing 50 of Fig. 7 (A) Fig.

The present invention is characterized in that it is capable of pumping water without causing any pollution and capable of pumping without additional power and energy consumption by utilizing a wave energy received from many directions without regard to the direction of receiving the wave power as rotational energy. have.

As shown in FIGS. 1 to 5, the non-powered pump of the present invention includes a screw shaft 10, a rotary part 20, a pipe 30, a fixing plate 40, a hinge 50 A lower support table 90, an upper support table 60, a plurality of fixing tables 63, a discharge tube 70, and a water reservoir 80.

A lower support 90 coupled to a lower end of the screw shaft 10; an upper support 60 coupled to an upper end of the screw shaft 10; A plurality of fixing plates 63 coupled to the upper support 60 and a plurality of fixing plates 40 connected to one surface of the lower support 90 and the upper support 60, A plurality of pipe tubes 30 surrounding a side surface of the pipe 10, a rotation part 20 connected to the pipe pipe 30, and a plurality of hinged blades 50 coupled to the rotation part 20, The stationary plate 40 coupled with the support 60 further comprises a discharge tube 70 for discharging the water received therefrom and the discharge tube 70 includes a reservoir 80 for storing the flowing water .

The screw shaft 10 extends vertically and is set to have a helical flow path at a constant angle and spacing, and serves as a rotating shaft of the non-powered pumping device using wave power. In order to fix the screw shaft 10 vertically, as shown in FIG. 6 or 7, a lower support 90 for fixing the lower portion of the screw shaft 10 to the floor is fixedly coupled to the rigid ground or the ground .

2 or 3, a ball bearing 101 is coupled to the lower support table 90 and connects the screw shaft 10 and the ball bearing 101 to induce smooth rotation movement , Which is also characterized in that the upper support (60) connected to the upper part of the screw shaft (10) has the same effect.

On the other hand, in the case of the upper support 60 coupled to the upper portion of the screw shaft 10, since there is no space and means for securing it to the ground like the lower support 90, It is preferable that the fixing table 63 is fixed to the ground by connecting the fixing table 63. It is preferable that the fixing table 63 is fixed by using a hard ground in water, a ground surface or a sea wall, a breakwater, As described above, according to the utilization method of fixing the connection portion in the form of the horizontal support 64 coupled with the upper support 60 and the vertical support 65 extending upward or downward from the horizontal support 64 It can be fixed at various positions, and it is preferable to additionally provide a fixing table 63 to securely fix the fixing table 63 more stably.

The screw shaft 10 vertically installed is vertically fixed and smoothly rotates through the ball bearing 10. The constituent devices for obtaining the power required for the rotational motion include a screw shaft 10, 4 to 5, the screw shaft 10 is integrally formed with the rotary part 20 and the hinged wing 50 so as to be hinged by the hinged wing 50, The rotation of the blades 50 is guided by the screw rotating shaft 100,

3 to 5, the rotary part 20 connected to the screw shaft 10 is disposed between the side surface of the screw shaft 10 and the side surface of the screw shaft 10 in order to perform the same rotational motion as that of the screw shaft 10. [ A number of thrust bearings 22 fixedly coupled to both ends of the rotary pipe 25 at both ends thereof; A plurality of fixed fastening portions 23 coupled to the side surface of the rotary pipe 25 and a plurality of the assembled round rods 24 coupled to the fixed fastening portions 23. [

The round bar 21 is coupled between the screw shaft 10 and the rotary pipe 25 to fix the screw shaft 10 and the rotary unit 20 to each other. The assembled round bar 24, which is coupled to the fixed fastening part 23, can be installed in any direction of the side surface. In the coupled fastening part, And may be configured to extend vertically with the fastening portion as a center, although not shown in the drawings.

The thrust bearing 22 coupled to the upper and lower ends of the rotary pipe 25 is for independently rotating the pipe pipe 30 coupled to the rotary unit 20, And a plurality of thrust bearings 22 coupled to the upper and lower ends of the rotary pipe 25 so as to be coupled to the pipe pipe 30 coupled to the rotary part 20. [ (Not shown in the drawings), it is possible to add a predetermined fixing portion that can protect the rotational motion of the thrust bearing 22 to induce a more stable rotational motion.

4 or 9, the hinged wing 50 includes a hinge 51 fastened to the rotary part 20, a wing 52 connected to the hinge 51, a hinge 51 connected to the hinge 51, The hinge rod 52 is preferably folded about the hinge rod 102 due to the rotation of the wing 52 by the force of 360 degrees. The hinge 52 Can be adjusted to adjust the rotation range of the blade 52. This can increase the energy of the received wave to induce a more efficient rotation motion.

More specifically, as shown in Figs. 6 to 9, the hinged wing 50 is configured to receive a force only in a single direction in which the screw shaft 10 pivots in the rotational motion of the screw rotating shaft 100 , The hinged wing 50 is folded on the hinge 51 while the wing 52 is stretched when the wave is applied in the forward direction (positive direction of the screw shaft) and induces the rotation. On the other hand, The wing 52 is folded to reduce the resistance in the rotating direction and induce smooth rotation movement. This explains that it induces rotation only in a single direction like a pinwheel, and that the hinge-type wings 50 constitute a smooth rotation movement by minimizing the resistance of the screw shaft 10 in the positive and negative directions, The rotational motion is performed only in a single direction.

The screw shaft 10 is connected to the screw shaft 10 integrally with the rotary part 20 and the hinge blade 50 to induce the rotation of the hinge blade 50 by the force of the screw, ) Induces rotation only in a single direction that suffices.

As shown in FIGS. 1 to 3, in the rotational movement in which the screw rotating shaft 100 is pumped, a plurality of pipe pipes 30, a pipe pipe 30, It is preferable to configure a plurality of fixed plates 40 coupled together, a discharge pipe 70 coupled with the fixed plate 40, and a water storage tank 80 connected to the discharge pipe 70.

The pipe pipe 30 coupled to the upper and lower ends of the rotary part 20 is coupled to a thrust bearing 22 having one end connected to both the upper and lower ends of the rotary pipe 25, In this case, both ends of the pipe pipe 30 can be connected without any distinction.

More specifically, in order to solve this problem, the pipe tube 30 fixed to the fixing plate 40 has a friction phenomenon in the rotational motion of the rotary part 20. To solve this problem, the rotary pipe 20 is connected to the upper and lower ends of the rotary pipe 25 The thrust bearings 22 are configured to induce smooth rotation of the rotary part 20 and to independently rotate without friction with the fixed pipe 30.

The fixing plate 40 may be divided into a first fixing plate 41 coupled to the upper support 60 and a second fixing plate 42 coupled to the lower support 90. In addition, The fixing plate is fixed to the pipe tube 30 and the side surface is formed with a groove which is connected to the discharge pipe 70 or the inlet 43 and has the same shape.

The inlet port 43 is coupled to the second fixing plate 42 so that water can be received by the rotation of the screw shaft 10. The first fixing plate 41 has a discharge pipe 70 for discharging the water, And the discharge pipe (70) is connected to a water storage tank (80) for storing the water to be flown out.

The discharge pipe 70 is connected to the first fixing plate 40 to transfer the water flowed out to the water storage tank 80 and adjusts the injection unit and the discharge unit at a predetermined angle to provide smooth water supply. To supply the amniotic fluid smoothly.

It is preferable that the water storage tank 80 is positioned lower than the sea water surface while being lower than the discharge pipe 70. The water storage tank 80 can more efficiently use the water supplied from the discharge pipe 70 and can be used in a water tank, , It is also possible to use the stored positive numbers in various ways to generate additional energy sources.

The screw shaft 10 is formed integrally with the rotary part 20 so as to induce the rotation of the hinged wing 50 by the force of the wave and to receive the inside of the fixing plate 40, The present invention relates to a non-powered pumping device using a wave, which is characterized by being configured to be able to outflow from an upper region of a pipe pipe (30) by taking a spiral flow path. There is no material resource consumption, and it is a device capable of generating additional resources according to the utilization method.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is natural to belong to the scope.

10: Screw shaft 20:
21: Round bar 22: Thrust bearing
23: fixed fastening part 24: assembled round bar
25: rotary pipe 30: pipe pipe
40: fixing plate 41: first fixing plate
42: second fixing plate 43: inlet
50: hinged wing 51: hinges
52: wing 60: upper support
63: fixed base 64: horizontal support
65 vertical support 70 discharge pipe
80: Water tank 90: Lower support
100: Screw rotating shaft 101: Ball bearing
102: Hinge rod

Claims (6)

A lower support 90 coupled to a lower end of the screw shaft 10; an upper support 60 coupled to an upper end of the screw shaft 10; A plurality of fixing plates 63 coupled to the supporting plate 60 and a plurality of fixing plates 40 connected to one side of the lower supporting plate 90 and the upper supporting plate 60, A plurality of hinge blades 50 coupled with the rotary part 20 and a plurality of hinge blades 50 coupled to the rotary part 20, And the screw shaft 10 is formed integrally with the rotary part 20 so as to induce rotation of the hinged wing 50 by the force of the wave and to receive the inside of the fixing plate 40, ) Of the pipe pipe (30) by means of a spiral flow path of the pipe Pumping device.
The method according to claim 1,
The rotary part 20 includes several round bars 21 coupled to the side of the screw shaft 10, at least one rotary pipe 25 coupled with the round bar 21, A plurality of thrust bearings (22), a plurality of fixed fastening portions (23) coupled with the rotary pipe (25), and a number of prefabricated round rods (24) associated with the fastening fastening portion (23) (22) are fixedly coupled at both ends of the rotary pipe (25).
The method according to claim 1,
The hinged wing 50 includes a hinge 51 fastened to the rotary part 20, a wing 52 connected to the hinge 51, and a hinge rod 102 for fastening the hinge 51 and the wing 52 to each other Wherein the wing (52) is folded around the hinge rod (102) due to the 360 degree rotation being induced by the wave force.
The method according to claim 1,
The fixing plate 40 includes a first fixing plate 41 coupled with the upper support 60; And a second fixing plate 42 coupled to the lower support table 90. The first and second fixing plates 42 and 42 are fixed to the pipe tube 30 and the second fixing plate 42, 10. The non-powered pump according to claim 1, further comprising a water inlet (43) for allowing the water to be received by the rotary motion of the water pump (10).
5. The method of claim 4,
The first fixing plate 40 further includes a discharge pipe 70 for discharging the water flowed from the first fixing plate 40. The discharge pipe 70 is fixed to a water storage tank 80 for storing the flowing water, Non - powered pumping system using wave power.
The method according to claim 1,
Wherein the fixing table 63 comprises a horizontal support 64 coupled to the upper support 60 and a vertical support 65 extending upward or downward from the horizontal support 65. [ .

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