KR20030079611A - The torque of revolution intensifier - Google Patents

Abstract

PURPOSE: An apparatus is provided to allow for a simplicity of structure, while reducing energy consumption by increasing the small rotating force into a large rotating force. CONSTITUTION: An input pulley(10) has a disk(11) with an outer surface on which a ring type rotating race(12) is arranged to cover the outer surface of the disk. A plurality of balls(13) are interposed between the disk and the rotating race so as to allow for a smoothness of the rotation of the rotating race. The rotating race has an outer surface on which a groove(14) is formed so as to allow a V-belt(3) is mounted in the groove. The disk is mounted on a fixing plate(15). A fixing shaft(16) is mounted on the center of the disk in the output pulley side, and a bearing(23) is interposed between the fixing shaft and an inner space(22) of an output shaft(21). The first lever has a through hole(31) formed at the intermediate portion of the first lever, and the fixing shaft is inserted into the through hole in such a manner that the fixing shaft is rotatable. The first lever has a free end and the other end where a bolt hole is formed. The second lever is disposed in the output pulley side of the first lever, and a bolt is inserted into the bolt hole of the second lever and the bolt hole of the rotating race and fixed by a nut.

Description

Rotary torque enhancer {The torque of revolution intensifier}

The present invention relates to a device for augmenting the rotational torque of a rotating object, the rotational torque, which is a force exerted by the rotating body in a rotating shaft such as a motor or a fossil fuel engine, is not output as much as the input force. The inequality of input> output is established due to energy reduction factors such as copper loss, mechanical loss, and iron loss.

However, by using the principle of a simple lever, it is possible to obtain a larger force than a given force, and instead of reducing the rotational RPM, a corresponding increase in power is applied to a variety of transmissions, reducers, geared motors, and VS motors in various vehicles. It is supported by the first, second and third laws of energy as the basis of its scientific theory.

In general, according to the first, second, and third laws of energy, the amount of input vector and output vector cannot be equal to or larger than the input vector by any device, and this is the physical law given by the natural system. , The second kind of permanent engine, the third kind of permanent engine, etc. are denied.

Figure 1 is a partially cutaway perspective view as an embodiment for explaining the structure of the rotary torque enhancer implemented in accordance with the present invention

Figure 2 is an exploded perspective view of Figure 1 of the rotary torque enhancer implemented in accordance with the present invention

3 is a cross-sectional view taken along the line A-A 'in FIG.

4 is a partially cutaway front view of the output end of the rotary torque increasing apparatus implemented in accordance with the present invention.

FIG. 5 is a partially cutaway front view of an output stage showing a moving state of an output stage disk rotated by a rotational torque applied to the output stage in FIG.

<Code Description of Main Parts of Drawing>

1. Rotating torque enhancer

10. Input pulley 11. Fixed disk 12. Rotary race

13. Ball 14.Indentation groove 15. Fixing plate 16. Fixing shaft

20. Output pulley 21. Output shaft 22. Internal space

30. Lever 1 31. Through hole F. Free end

32,32a, 32b, 32c. Bolts 33,33a, 33b, 33c. nut

34. Second lever 34a. Through paper, 35, 35a, 35b, 35c, 35d, 35e.Through bolt

36. Third lever

The present invention relates to an apparatus having an input stage and an output stage, respectively, wherein the rotation speed of the input stage and the output stage is the same and the rotation torque is increased by three levers implemented according to the present invention between the input stage and the output stage. It is an invention devised to double the rotational force only by the principle of the lever without violating the law of preservation, which will be described in detail with reference to the accompanying drawings.

The rotary torque augmentation apparatus 1 implemented by the present invention includes an input pulley 10 in which rotational power is input from a driving source such as a motor 2 to a transmission means such as a V belt 3, and the input pulley 10. The three levers to be organically connected so that the rotational force input from the output to the output pulley 20,

First, the structure of the input pulley 10 is provided on the outer peripheral surface of the fixed disk 11 of a predetermined diameter with a ring-shaped rotary race 12 surrounding the outer peripheral surface of the fixed disk 11, and the fixed disk 11 and A plurality of steel balls (Ball) 13 between the rotary race 12 at equal intervals so as to facilitate the rotation of the rotary race 12, the V-belt (3) is mounted on the outer peripheral surface of the rotary race 12 A recessed groove 14 is formed, and the fixed disk 11 is fixed to the fixed plate 15, and the fixed shaft 16 having a predetermined length and diameter is laid in the center of the fixed disk 11 toward the output pulley 20. The output shaft 21 of the output pulley 20 is inserted into the inner space portion 22 and the bearing 23 is interposed between the fixed shaft 16 and the output shaft 21, the inner space portion 22, the fixed shaft The through hole 31 is installed in the middle portion of the first lever 30 at 16, and the fixed shaft 16 is rotatably inserted into the through hole 31, and the through hole 31 is centered. One end of the first lever 30 is a free end (F), and the other end of the first lever 30 installs a bolt through hole 35 and a bolt through hole installed on one side of the rotary race 12 ( And the second lever 34 having a predetermined length toward the output pulley 20 of the first lever 30 and fastening the bolt 35a and the nut 33 to one side of the second lever 34. Insert the bolt 32a into the bolt through hole 35b installed in the tip and the bolt through hole 35c installed in the rotary race 12 to be fixed by the nut 33a, but the bolt through hole of the second lever 34 is fixed. On the outer surface side of the side (35b), a plunging section 34a for pressing the free end F of the first lever 30 from the lower side to the upper side is projected, and a bolt through hole is provided at the other end of the second lever 34. (35d) is bolted to the bolt through hole (35e) in the upper end of the third lever (36), which is significantly shorter than the length of the bolt through hole (35d) and the second lever (34). And nut 33b are inserted and fastened, and the other end of the third lever 36 is bolted. The cheonseol that the through hole (35d)

A bolt through hole 35e is installed on one side of the output pulley 20 to connect the bolt through hole 35e of the output pulley 20 and the bolt through hole 35d of the third lever 36 to the bolt 32c and the nut. The structure of the rotation torque increasing apparatus 1 implemented by the present invention by fastening to 33c is constituted.

In the figure, reference numerals 32d and 33d are bolts and nuts which fasten and fix the fixed disk 11 and the fixed plate 15, respectively.

The operating state of the rotary torque increasing device 1 configured as described above will be described, but the driving force applied from the driving source such as the motor 2 is applied to the outer peripheral surface of the fixed disk 11 of the input pulley 10 by means of the belt 2 or the like. When the intervening rotary race 12 is rotated in the direction shown in Fig. 4, at this time, the rotary race 12 with the bolt 32 and the nut 33 on one side of the first lever with the fixed shaft 16 as the axis. Rotation of the first lever 30 is fixed through the bolt through hole (35a) of the bar) and thus the other free end (F) of the first lever 30 also rotates upwards,

At this time, the length L₁ to the free end of the first lever that rises from the length L₂ of the first lever descending about the fixed shaft is in the relationship of L₂> L₁ and the ascending rotational force of the free end of the first lever that rises is Increased by principle

Now, the free end F pushes up the holding section 34a of the second lever 34, which is in contact with the upper end of the free end F, with the increased rotational force, and this increased rotational force again presses the third lever 36. The lower end of the third lever 36 is connected to the outer shell of the output pulley 20 so that the output pulley 20 around the fixed shaft 16 has a second lever in the vector direction of the force. By doing so, the rotational force increased in the first lever is doubled, and the output shaft 21 of the output pulley 20 is rotated by the rotational force with increased rotational force. At this time, the rotation speed of the input pulley 10 and the output pulley 20 is the same.

As described above, the present invention is configured to have the power of the two pulleys 10 and the output pulley 20 by the organically connected three levers have the power of the two lever lever principle, so very simple structure and low rotational force Since it can be augmented by a large rotational force, there is an enormous energy saving effect when applied to various rotating devices.

Claims (1)

In constructing the structure of the rotary torque increasing device 1, the structure of the input pulley 10 has a ring-shaped rotary race surrounding the outer circumferential surface of the fixed disk 11 on the outer circumferential surface of the fixed disk 11 of a predetermined diameter. (12) provided between the fixed disk (11) and the rotary race 12 so as to smoothly rotate the rotary race 12 by interposing a plurality of steel balls (Ball) 13 at equal intervals. (12) In the outer circumferential surface there is formed a recessed groove (14) for mounting the V-belt (3), the fixed disk 11 is fixed to the fixed plate (15) and to the output pulley 20 in the center of the fixed disk (11) The fixed shaft 16 having a predetermined length and diameter is laid out so as to be inserted into the inner space 22 of the output shaft 21 of the output pulley 20, and the fixed shaft 16 and the inner space 22 of the output shaft 21. The bearing 23 is interposed therebetween, and the through hole 31 is installed in the middle portion of the first lever 30 on the fixed shaft 16 so that the fixed shaft 16 passes through the through hole 31. Rotating is inserted freely and the one end of the first lever 30 is the free end (F) around the through hole 31, and the other end of the first lever 30 installs the bolt through hole 35 and rotates. The bolt through hole 35a laid on one side of the race 12 is fastened with the bolt 32 and the nut 33, and the second lever having a predetermined length toward the output pulley 20 of the first lever 30 34) by inserting the bolt 32a into the bolt through hole 35b installed in the one end of the second lever 34 and the bolt through hole 35c installed in the rotary race 12, and the nut 33a. To the outer surface side of the bolt through hole 35b side of the second lever 34, and protrudes between the holding portions 34a for pressing the free end F of the first lever 30 from the lower side to the upper side. A bolt through hole 35d is laid at the other end of the second lever 34, and a bolt is drilled at the upper end of the third lever 36 having a length significantly shorter than the length of the bolt through hole 35d and the second lever 34. The bolt 32b and the nut 33b into the formed bolt through hole 35e. And the other end of the third lever 36 installs the bolt through hole 35d. A bolt through hole 35e is installed on one side of the output pulley 20 to connect the bolt through hole 35e of the output pulley 20 and the bolt through hole 35d of the third lever 36 to the bolt 32c and the nut. Rotating torque enhancer to be fastened to (33c).