KR20030058802A - Integrator of rotational force by wind power - Google Patents

Abstract

PURPOSE: An apparatus is provided to collect the weak wind through the mechanical driving unit and converting the collected wind into an energy. CONSTITUTION: An apparatus comprises a main body in which a force collecting chamber(10) having a predetermined size is arranged; bevel gears(4,5,6,7) connected to four rotating shafts(2) and engaged with each other in the force collecting chamber; a power transmission gear(3) connected to one of the four rotating shafts; a generator gear connected to the power transmission gear; and a gear(K) connected to the bevel gear(6).

Description

Device for concentrating rotational force by wind power {omitted}

The present invention relates to the centralization of the rotational force to combine the two or more water-jet rotating device between the rotating shaft to gather the power rotated by the blowing wind to one place to produce more power.

Conventional wind power generators have been developed, such as the Propeller type, Darius type, American multi-ick type, Savonius type, Puddle type, etc., but all of them are independent type, and the trend is that they are becoming larger. .

The present invention has been developed in view of the above point, so that even the low-filled wind power can connect the rotary shafts of the respective rotary devices to each other so that each rotating force can be gathered in one place so that the strong power energy can be converted. It will be described with reference to the drawings as shown.

1 is a perspective view of the concentration device

2 is the concentration state of the horizontal axis

3 is a connection diagram with the generator

4 is a state diagram of the coupling between the vertical axis and the rotation axis

5 is a diagram illustrating a coupling state between the horizontal axis and the vertical axis and the horizontal axis for a propeller

6 is a state diagram of the horizontal axis for rotation and the wind panel

7 is a state diagram of one side of the horizontal axis spherical wind rotary device

8 is a state diagram of one side of the horizontal axis rhombus flat wind rotating device

9 is a state diagram of one side of the horizontal axis flat water jet rotating device

10th section of swash plate

11 is a state diagram of one side of the vertical axis spherical wind-rotating device

The sectional view of the 12th turning swash plate

13 is a state diagram of one side of the vertical axis vertical wind blower

14 is a state diagram of one side of the vertical axis Darius type wind blower

15 is a state diagram of one side of the horizontal shaft propeller type rotating apparatus

16 is a state diagram of one side of the horizontal axis multi-rotor

Explanation of symbols on the main parts of the drawings

A, A-1, A-2: Horizontal shaft wind rotator B, B-1, B-2: Vertical shaft wind rotator

C, C-1: Head horizontal axis rotating device M: Doorway K: Gear

J: control device 1: concentration unit 2: horizontal rotation shaft for concentration

3: power transmission gear 4,5,6,7: centralization bevel gear 8: power generation gear

9: generator 10: concentration chamber 11: vertical axis rotary tube

12,12 ': Vertical axis bevel gear 13,13', 14,14 ': Horizontal axis bevel gear

15 vertical axis 16 propeller shaft bevel gear

17: vertical axis bevel gear 18: propeller horizontal rotating shaft

19: other horizontal axis 20: vertical support pipe 21: vertical support pipe support

22: vertical axis bevel gear support rod 23; Support Rod Support 25: External Horizontal Shaft

31: horizontal shaft support 32; Hemispherical wing plate 33: wing plate support plate

34,34 ': wing plate support tube 35: support plate support tube 36: horizontal rotating shaft support

37,37 ': wing plate support tube 38: wind blade plate 39: wing plate support plate

40: horizontal rotating shaft support 41: support plate support tube 42: wing plate support plate

42 ': wind blade 43: rotary shaft support 44; Hemispherical wing support tube

45: support plate support pipe 46,46 ': hemispherical wing plate 47: wing plate support plate

48: support tube support line 49: rotary shaft support 50: wing support plate support tube

51: wing support tube 52: angled wind blade plate 53: wind blade plate support plate

54: support tube support line 55: rotary shaft support 56,56 ': wing plate support tube

57, 57 'wing plate 58: wing plate support plate 59: support pipe support line

60; Support plate support tube 61: rotary shaft support 62: Puropeller shaft collection

63,63 ': Furofel 64: rotary shaft support 65: multi-wing windmill

66: multi-rotor rotor 39 ': shaft

1. Composition of the concentration unit

Intensifying bevel gears are condensed with four rotary shafts (2) in all directions in the immersion chamber 10 to form a lumping chamber 10 of a certain size in the body of the immersion unit 1 in the zoom (4) (5) (6) (7) are interlocked with each other, and the power transmission gear (3) is inserted into the rotation shaft on one side of the four selected rotation shafts (2), and the power transmission gear (3) And the generator (90) and the power generating gear (8) condensed so that the power can be generated according to the rotation of the four rotary shaft (2), and the other one bevel gear (6) and the gear (K) To the gear of the control unit (J) to prevent over-rotation,

2. Each horizontal rotating shaft support 31 is installed at the outer ends of the four collecting horizontal rotating shafts 2 connected to the collecting unit 1, and each of the horizontal rotating shafts 2 has a wing plate support tube 34 ( 34 ') and insert four hemispherical wing plates 32 of symmetrical airfoils and symmetrical wing plate support plates 33 of the spherical wing plate 32 in the center. The configuration of the horizontal horizontal water-winding rotary device (A) of the spherical shape of the support plate 35 and the support plate 35,

3. Each horizontal rotating shaft support 31 is laid at the outer ends of the four collecting horizontal rotating shafts 2 connected to the collecting unit 1, and wing plate supporting tubes 37 and 37 are provided on the horizontal rotating shafts 2, respectively. ') And insert the four gust blades 38 of symmetrical blades here, and inside the center of the gust blades 38, a wing plate support plate 39 of symmetrical blades is provided with a shaft 39. Configuration of the horizontal shaft wind-rotating device (A-1)

4. The horizontal rotary shaft support 40 is laid on the outer ends of the four horizontal rotary shafts for power collection 2 connected to the collector 1, and each of the horizontal rotary shafts 2 is provided with a wing plate support tube 41. Insert the wing plate support plate 42 of the symmetrical airfoil (figure 10) and insert the breeze wing plate 42 'of the symmetrical airfoil (tenth) on the outer end of the wing plate support plate 42 thus folded. The configuration of the horizontal axis water jet rotating device (A-2)

5. The axis of rotation shaft support 43 is laid out at the outer ends of the four concentration horizontal rotating shafts 2 connected to the power collecting part 1, and the inside of the rotary shaft support 43 has a vertical support pipe support 21. Left and vertical vertical support tube 20 is inserted therein, and vertical axis rotary tube 11 is inserted therein, and the vertical axis bevel gear 12 is attached to the lower end of the vertical axis rotary tube 11 and the vertical shaft Both sides of the bevel gear 12 are connected to the horizontal rotating shaft 2 and the horizontal shaft bevel gear 13 and the horizontal horizontal bevel gear 14 and the horizontal shaft bevel gear 14, which are arranged in the vertical axis rotary tube ( 11) Insert the hemispherical wing support tube 44 into the upper and lower parts thereof, and fasten the hemispherical wing plates 46 and 46 'which are symmetrical blades (Fig. 12) and rotate the blade plate 46 and 46 during rotation. Support plate support pipe 45 and hemispherical wing plate 46, 4 (4) constructed to prevent bending of 6 ') between the wing plate support plate 47 of the symmetrical airfoil (Fig. 12) between the 6') and the vertical fixation with three support tube support lines 48 at the tip of the vertical support tube 20 Configuration of the vertical shaft wind-rotating device (B)

6. The vertical support pipe support 21 is placed inside the coaxial support 49 so as to allow the support shaft 49 to be laid on the outer ends of the four power horizontal rotating shafts 2 connected to the collecting unit 1. The vertical support tube 20 is inserted therein, and the vertical axis rotating tube 11 is inserted therein, and the vertical axis bevel gear 12 is attached to the lower end of the same vertical axis rotating tube 110. Both sides of the gear 12 are engaged with the horizontal horizontal bevel gear 13 condensed with the horizontal rotating shaft 2 and the external horizontal bevel gear 14 condensed with the external horizontal shaft 25, and the vertical axis rotating tube 11) the wing plate support tube 51 is condensed on the upper part, and the wing support plate support tube 50 is inserted in the central portion of the coaxial rotating tube 11, and the angled water wind is formed in a symmetrical airfoil (Fig. 12). When the upper side of the wing plate 52 is engaged with the wing plate support tube 51 Turn on and support the angled wing blade plate 52 and the wing support plate support tube 50 with the gust wing plate support tube 53 of the symmetrical airfoil (12 degrees) and the tip of the vertical support tube 20 The configuration of the vertical axis water jet rotating device (B-1), which is fixed vertically with three support pipe support lines 54 on the part,

7. The vertical axis of the shaft support (55) in the vertical axis of the rotary shaft support 55 in laying out the rotary shaft support 55 on the outer ends of the four horizontal horizontal rotation shaft (2) for the power collection unit (1) The vertical support tube 20 is inserted therein, and the vertical axis rotating tube 11 is inserted therein, and the vertical axis bevel gear 12 is attached to the lower end of the same vertical axis rotating tube 11 and the vertical shaft Both sides of the bevel gear 12 are engaged with the horizontal horizontal bevel gear 13 condensed with the horizontal rotating shaft 2 and the external horizontal bevel gear 14 condensed with the external outer horizontal shaft 25 and thus rotated vertical axis. Wing plate support tubes 56 and 56 'are fixed on the upper and lower portions of the tube 11, and wing plates 57 and 57' formed in a symmetrical airfoil (Fig. 12) are Darius type wing plate support tubes 56 (56 ') and the support plate support tube (60) inserted into the vertical axis rotating tube (11) Vertical axis water-swivel rotation that supports the wing plates 57 and 57 'with the wing plate support plate 58 and is fixed vertically with the required number of support pipe support lines 59 at the tip of the vertical support pipe 20. The configuration of the device (B-2)

8. In order to install the rotary shaft support 61 on the outer end of each of the four horizontal horizontal storage shaft (2) connected to the collecting unit (1), the upper end of the co-rotating shaft support (61) is a Pelopeller shaft collection (62) And a horizontal bevel gear (13 ') condensed with a horizontal rotating shaft (2) and a horizontal bevel gear (14') condensed with another horizontal shaft (19) and a vertical shaft (15) condensed therein. When the vertical shaft bevel gear 12 'is fixed, and the upper end of the vertical shaft 15 is vertically beveled with the vertical bevel gear 16 and installed in the propeller housing 62, When the Plower shaft bevel gear (17) and the vertical shaft bevel gear (16) are turned on, the entire propeller shaft horizontal rotation shaft (18), which has both propellers (63, 63 '), is connected, Bevel gears 13 ', 12' and 14 'installed on the rotating shaft support 61 are provided under the supporting rod. It is to manufacture a horizontal shaft propeller type water-rotating device (C) by installing a support (23) and supported by a vertical shaft bevel gear (12 ') and a vertical shaft bevel gear support rod (22).

9. The upper end of the coaxial shaft support 64 in the installation of the rotary shaft support 64 on each outer end of the four power horizontal rotating shaft (2) connected to the power collecting unit (1) is a multi-windmill shaft house 65 And a horizontal bevel gear (13 ') condensed with a horizontal rotating shaft (2) and a horizontal bevel gear (14') and a vertical shaft (15) condensed with another horizontal shaft (19). Multi-propeller propeller horizontal rotating shaft (18 ') which is connected to the vertical shaft bevel gear (12'), and the upper end of the vertical shaft (15) is vertically beveled (16). ) And the horizontal rotating shaft 18 in which the multi-rotor rotating body 66 is built up by interlocking with the horizontal rotating shaft 18 and the propelled shaft bevel gear 17 and the vertical shaft bevel gear 16. Beveled to be equipped with the entire drive function when rotating, bevel installed on the support shaft 61 Horizontal multi-role rotary device which is supported by vertical axis bevel gear 12 'and vertical axis bevel gear support rod 22 by installing support rod support 23 under the gear 13', 12 'and 14'. C-1) production.

The present invention produced as described above makes it possible to convert the collected power into power energy by making the mechanical driving device focus on the weak wind of less than 3m per second passing through uselessness, and to install it in the field or the sea. It is a device for concentrating rotational force by wind power, which can be expected.

Claims (9)

In order to produce a concentrated device for the rotational force to produce a focusing unit (1) in the zoom body to form a certain size of the focusing chamber (10) and in the dynamic focusing chamber (10) four rotating shafts (4) 2) and the converging bevel gears (4) (5) (6) (7) condensed with each other, and the power transmission gear (3) is connected to one of the four rotating shafts (2) selected among them. The shaft is inserted and the power transmission gear 3 and the generator 9 and the power generating gear 8 condensed are interlocked so that the power can be generated according to the rotation of the four rotating shafts 2 and the other side bevel Four horizontal collecting shafts (2) connected to the condensing unit (1) configured as such that the gears (6) and the gears (K) are connected to each other and the gears of the over-prevention control device (J) are connected. ) Horizontal Axial Swivel Rotator (A) (A-1) (A-2) and Vertical Axial Swivel Rotator Configuration of teeth (B) (B-1) (B-2) and converging rotational force due to wind power by connecting and manufacturing with horizontal axis propeller type water-rotating device (C) and horizontal axis multi-role type rotating device (C-1) Device. According to claim 1, wherein each of the horizontal axis of rotation support shaft 31 is arranged on the outer end of the four concentration horizontal axis of rotation (2) connected to the collecting portion 1 and each of the horizontal axis of rotation (2) wing plate support tube ( 34) (34 ') and insert four hemispherical wing plates 32 of symmetrical airfoil into it, and symmetrical wing plate support plate 33 of the hemispherical wing plate 32 in the center. A device for concentrating rotational force by wind power of a rectangular horizontal shaft wind-rotating device (A), which is made of a support plate (35) inserted into a support plate (35). According to claim 1, wherein each horizontal rotating shaft support 31 is arranged on the outer ends of the four collecting horizontal rotating shafts (2) connected to the collecting portion (1) and each of the horizontal rotating shafts (2) wing plate support pipe ( 37) (37 ') is inserted and the four wind blade plates 38 of symmetrical wing are attached thereto, and the wing plate support plate 39 of symmetric blades is formed inside the center of the wind blade 38. A device for concentrating rotational force by wind power of a horizontal shaft wind-rotating device (A-1), which is fastened to 39 '. According to claim 1, wherein each horizontal rotating shaft support 40 is laid out on the outer ends of the four collecting horizontal rotating shafts (2) connected to the collecting unit (1) and each of the horizontal rotating shafts (2) wing plate support tube (41) is inserted and the wing plate support plate 42 of the symmetrical airfoil (FIG. 10) is attached to this, and the wind blade of the symmetrical airfoil (FIG. 10) is attached to the outer end of the wing plate support plate 42 thus connected. A device for concentrating rotational force by wind power of a horizontal shaft wind-rotating device (A-2) in which a plate (42 ') is attached. According to claim 1, wherein the rotary shaft support 43 in the outer end of the four collecting horizontal rotary shafts (2) connected to the collecting unit (1) in the interior of the rotary shaft support 43 is a vertical support pipe support (21) and the vertical support tube 20 is inserted therein and the vertical axis rotating tube 11 is inserted therein, and the vertical axis bevel gear 12 is attached to the lower end of the vertical axis rotating tube 11 thus formed. On both sides of the same vertical shaft bevel gear (12), the horizontal axis of rotation (2) and the horizontal axis bevel gear (13) and the horizontal axis bevel gear (14) and the horizontal axis bevel gear (14) that is installed and the tooth The hemispherical wing support tube 44 is inserted into the upper and lower portions of the vertical axis rotating tube 11, and the hemispherical wing plates 46 and 46 'made of symmetrical blades (Fig. 12) are fastened and the blade plate is rotated when rotating. 46 and (45) support plate support tubes constructed to prevent bending A support plate is attached to the wing plate support plate 47, which is a symmetrical blade shape (Fig. 12), between the spherical wing plates 46 and 46 ', and three support tube support lines 48 are provided at the tip of the vertical support tube 20. A device for concentrating the rotational force by the wind power of the vertical shaft water-rotating device (B) made by vertical fixing. According to claim 1, wherein the shaft support 49 in the outer end of the four horizontal collecting shaft 2 for the collecting power connected to the collecting unit 1 in the interior of the coaxial shaft support 49 inside the vertical support pipe support ( 21) and the vertical support tube 20 is inserted therein, and the vertical axis rotating tube 11 is inserted therein, and the vertical axis bevel gear 12 is attached to the lower end of the same vertical axis rotating tube 110. In both sides of the vertical shaft bevel gear 12, the horizontal bevel gear 13 condensed with the horizontal rotating shaft 2 and the external horizontal shaft bevel gear 14 condensed with the external horizontal shaft 25 are engaged with each other. In the upper part of the vertical axis rotating tube 11, the wing plate support tube 51 is constricted, and the wing support plate support tube 50 is inserted in the center portion of the vertical axis rotary tube 11, and the symmetrical blade (Fig. 12) The upper side of the angled angled wind vane plate 52 Binding to the pipe 51 and the support blast blade plate 52 of the symmetrical wing (figure 12) to the support winder plate 52 and the angled support wind pipe support tube 50 and A device for concentrating rotational force by wind power of a vertical shaft wind-rotating device (B-1), which is vertically fixed by three support pipe support lines (54) at the tip of the vertical support pipe (20). According to claim 1, wherein the axis of rotation support 55 is arranged in the outer end of the four collecting horizontal rotary shaft (2) connected to the collecting unit (1) inside the vertical support tube support (55) 21) and the vertical support tube 20 is inserted therein and the vertical axis rotating tube 11 is inserted therein, and the vertical axis bevel gear 12 is attached to the lower end of the vertical axis rotating tube 11 thus formed. Both sides of the same vertical shaft bevel gear 12 are engaged with the horizontal horizontal bevel gear 13 condensed with the horizontal rotating shaft 2 and the external horizontal bevel gear 14 condensed with the external outer horizontal shaft 25. Wing plate support tubes 56 and 56 'are fixed on the upper and lower portions of the vertical axis rotating tube 11, and wing plates 57 and 57' made of symmetrical airfoils (Fig. 12) are Darius type. A support that is fastened to the support pipes 56 and 56 'and inserted into the vertical shaft rotating pipe 11 The plate support tube 60 and the wing plates 57 and 57 'are fixed by the wing plate support plate 58 and vertically fixed by the required number of support tube support lines 59 at the tip of the vertical support tube 20. The device for concentrating the rotational force by the wind power of the vertical shaft water-rotating device (B-2). 2. The upper end of the coaxial shaft support 61 in accordance with claim 1, wherein the rotary shaft support 61 is installed at each outer end of the four horizontal horizontal storage shafts 2 connected to the power collector 1, respectively. A horizontal bevel gear 13 'connected to the snow collection 62, and a horizontal bevel gear 13' condensed with a horizontal rotating shaft 2, and a horizontal bevel gear 14 'and a vertical shaft 15 condensed with another horizontal shaft 19. ) And the vertical shaft bevel gear (12 ') condensed, and the upper end of the vertical shaft (15) has a vertical shaft bevel gear (16) is laid out and installed in the propeller storage house (62) ) And the Pelopeller shaft bevel gear (17) and the vertical axis bevel gear (16), which are built up, are in contact with each other to rotate the Pelopeller horizontal rotating shaft (18) in which both the propellers (63, 63 ') are laid out. Bevel gears 13 ', 12' and 14 'installed on the rotary shaft support 61 to enable the connection drive function In the bottom, a support rod supporter 23 is installed to support the vertical axis bevel gear 12 'and the vertical axis bevel gear support rod 22. According to claim 1, wherein the upper end of the coaxial shaft support 64 to the rotary shaft support 64 is provided in each of the outer end of the four power storage horizontal rotary shaft (2) connected to the power collecting section (1) Bevel gear 13 'for the horizontal axis which is connected to the snow collection 65 and condensed inside the horizontal axis 2, and horizontal axis bevel gear 14' and the vertical axis 15 condensed with the other horizontal axis 19 ) And the vertical shaft bevel gear (12 ') condensed, and the upper end of the vertical shaft (15) has a vertical shaft bevel gear (16) is built up and installed in the multi-wheel windmill storage house (65) The horizontal rotating shaft 18 and the horizontal rotating shaft 18, which are laid out, and the propelled shaft bevel gear 17, which has been laid, and the vertical shaft bevel gear 16, which are in contact with each other. When the rotation of the 18, the whole can have a connection drive function, the rotary shaft support (61) Under the installed bevel gears 13 ', 12' and 14 ', the support shaft support 23 is installed to support the vertical axis bevel gear 12' and the vertical axis bevel gear support rod 22 to support the multi-axis rotation. A device for concentrating rotational force by wind power of apparatus (C-1).