KR102078520B1 - Power amplifier using fluid and bicycle configured with power amplifier - Google Patents

Abstract

The present invention relates to an output amplifier using fluid and a bicycle with the output amplifier. More specifically, the output amplifier using the fluid comprises a housing (100), a fixing shaft (200), a flange (300), a rotating gear (400), a piston part (500), a fluid discharge flange (600), and an amplification flange (700). The output amplifier using the fluid is installed on a back wheel (23) of the bicycle, thereby receiving rotating force of a pedal on which a user steps as itself and amplifying the rotating force by the fluid circulated by reciprocation of the piston. Therefore, the manpower of the users can be reduced and the rotating force can be amplified.

Description

Power amplifier using fluid and bicycle configured with power amplifier

The present invention relates to a bicycle configured with an output amplifying device using a fluid and an output amplifying device, and more specifically, outputting power transmitted from a pedal of a bicycle, but allowing the fluid to be continuously circulated inside the amplifying device for transmission. It relates to a technology that amplifies the power to be output so that it can be output.

In general, when the user steps on the panel of the bicycle, the bicycle rotates while the shaft connected to the pedal rotates, and transmits the rotational force to the rotating body connected to the shaft and the rear wheel of the bicycle on both sides, thereby rotating the bicycle. It is configured to move.

However, in the case of such a bicycle, the bicycle may be moved by transmitting power entirely by the force of the user pedaling, but in a sloped place such as a hill or a long distance, the user needs a lot of work force, which causes severe physical exhaustion. I have a problem.

Accordingly, in the related art, an apparatus for amplifying and outputting power through power transmitted to a rear wheel of a bicycle has been disclosed to solve this problem.

Registration No. 20-0226723 (room) The stator magnet is made of a non-ferrous metal material and placed in a 360-degree omnidirectional direction. The stator housing is embedded in the center of the hub shaft and assembled with a fixing nut. After assembling the inside of the steel hub pipe, connect it to the left hub pulley and fix it with the pulley lock bolt, insert the hub axle into the hub axle of the hub pulley and assemble it with a hub shaft bearing and assemble the right hub pulley by the same method. Afterwards, a hub puller gear with a magnetic repulsion power amplification device designed to secure the lock between the rear wheels of the bicycle body after assembling the bolt locker and the ball presser on the hub shaft at both ends of the hub shaft with the lock nut Technology.

However, the above-described prior art uses a plurality of magnets to amplify and output power greater than the power transmitted from the pedal, but when the magnet is used for a long time, the magnetic force of the magnet is lost, making it difficult to use the magnet for a long time. In order to replace it, it is inevitable that the entire bicycle must be separated.

In addition, in order to increase the above-described effect, a larger amount of magnets should be provided. However, if such a number of magnets is provided, it has a problem that it cannot be mounted on a bicycle as the scale of the device increases.

Accordingly, an object of the present invention is to provide an output amplification device so that a rotational force greater than the received rotational force is output, and constitutes a plurality of gears that rotate in engagement with each other inside the output amplification device, but one gear and one gear are piston-type. By connecting to and rotating to eliminate problems such as gear wear, and at the same time, by providing a structure that allows fluid to circulate inside for amplification of output, amplify the rotational force by 20% to the transmitted power without output loss. It was completed with the technical task of having an output amplification device using a fluid to be able to output and a bicycle comprising the output amplification device.

As a technical idea for achieving the above object, the first housing 110 in which the gear 111 is formed on the inner circumference, and the second housing 120 facing the first housing 110 are mutually coupled and space inside. A housing 100 forming 101 and comprising a fluid in the space 101; A fixed shaft 200 installed in the axial direction inside the housing 100; It is inserted into the outer periphery of the fixed shaft 200, but is located inside the first housing 110, the fluid inlet hole 310 and the fluid outlet hole 320 are respectively formed to the fluid is injected and discharged on the upper one side and the other side Becomes, the outer side is cut to form a space portion 330, the space portion 330 is formed on the side of the fluid discharge hole 320 and the piston insertion groove 340 is inserted into the piston portion 500 is inserted The flange 300 is formed; A rotating gear 400 on which the space part 330 is positioned, installed in the axial direction on the flange 300, and the outer circumference of which the gear 111 engages and rotates; One side is connected to the rotary gear 400, the other side is inserted into the piston insertion groove 340, the piston unit 500 to reciprocate by rotation of the rotary gear 400 to push the fluid; The fluid discharge flange (6) is fitted to the outer periphery of the fixed shaft (200) and coupled to the flange (300), and a movement path (610) through which fluid discharged from the fluid discharge hole (320) moves from one side to the other is formed. 600); An amplifying flange 700 that is fitted to the outer circumference of the fluid discharge flange 600 and is coupled to the second housing 120 to amplify the rotational force by the fluid discharged from the moving path 610; It is characterized by consisting of.

The second housing 120 has a technical feature that the connection flange 800 for connecting to the axis of the bicycle is configured on one side.

Technical features are that both sides of the housing 100 are configured with wheel connecting flanges 900 for connecting with wheels of a bicycle.

The movement path 610 of the fluid discharge flange 600 is formed to receive fluid in a horizontal direction from the fluid discharge hole 320 of the flange 300, so that the fluid is discharged in a horizontal direction different from the received horizontal direction. It is characterized by being a technical feature.

The piston 500, one side is inserted into the piston insertion groove 340, the piston 510 is formed in the incision groove 511 cut in the other side, and is formed to be bent, one side is the incision groove 511 It is characterized in that it is composed of a bracket 520 coupled to the other side, and connected to the rotating gear 400 on the other side.

It is a technical feature that the teeth 711 are continuously formed on the inner periphery of the amplifying flange 700.

Main frame 20 in which the wheels 21 and 23 are installed in the axial direction at the front and rear of the lower portion; A steering unit 30 extending from the main frame 20 at the front upper portion of the main frame 20; A seating portion 40 in which a user sits in an upper central portion of the main frame 20; A pedal unit 50 that the user presses on the lower center portion of the main frame 20; Connection means (60) for connecting the wheel (23) configured at the rear of the pedal unit (50) and the main frame (20); An output amplifying device 10 configured on a wheel 23 configured at the rear of the main frame 20; It is characterized by consisting of.

According to a bicycle configured with an output amplifying device and a fluid using the fluid according to the present invention, it is installed on the rear wheel of a bicycle and receives the rotational force of a pedal that the user steps on, but fluid circulated by the reciprocating motion of the piston therein By amplifying the rotational force, it is a useful invention that can reduce the labor force of users and amplify the rotational force at the same time.

1 is a perspective view showing a preferred embodiment of the present invention
Figure 2 is a perspective view showing a preferred embodiment of the present invention
3 is a side view showing a preferred embodiment of the present invention
Figure 4 is a side cross-sectional view showing a preferred embodiment of the present invention
5 is an exploded view showing a preferred embodiment of the present invention
6 is a side cross-sectional view and an exploded view showing a preferred embodiment of the housing of the present invention
7 is a front sectional view showing a preferred embodiment of the present invention
8 is a side view and a plan view showing a preferred embodiment of the flange of the present invention
9 is a view showing a preferred embodiment of the BB of Figure 8
10 is an operation state diagram showing a preferred embodiment of the present invention
11 is a perspective view showing a preferred embodiment of the piston portion of the present invention
12 is a perspective view and a side view showing a preferred embodiment of the fluid discharge flange of the present invention
13 is a cross-sectional plan view showing a preferred embodiment of the fluid discharge flange of the present invention
14 is a perspective view and a front view showing a preferred embodiment of the discharge flange of the present invention
15 is an operational state diagram showing a preferred embodiment of the present invention
16 is an operational state diagram showing a preferred embodiment of the present invention
17 is a view showing a preferred embodiment of a bicycle equipped with an output amplifying device of the present invention

The present invention outputs the power transmitted from the pedal of the bicycle, the output amplification device using a fluid and the output amplification device using the fluid to amplify and output the power transmitted by allowing the fluid to circulate continuously inside the amplification device Provides a configured bike.

In addition, in the case of the output amplifying device using the fluid described in the present invention, the bicycle is described as an embodiment of the present invention, but the output amplifying device is not limited to the bicycle, but can be used in a mechanical device requiring all output. It is not limited as an embodiment of the invention.

Hereinafter, with reference to FIGS. 1 to 17 with reference to FIGS. 1 to 17 for the preferred configuration and operation of the present invention for achieving the above object in connection with the accompanying drawings will be described as an example.

First, the configuration of the present invention will be described with reference to FIGS. 1 to 6 with reference to FIGS. 1 to 6, the first housing 110 in which the gear 111 is formed on the inner circumference, and the first housing 110 facing the The second housing 120 is coupled to each other to form a space 101 therein, the housing 101 configured to include a fluid in the space 101; A fixed shaft 200 installed in the axial direction inside the housing 100; It is inserted into the outer periphery of the fixed shaft 200, but is located inside the first housing 110, the fluid inlet hole 310 and the fluid outlet hole 320 are respectively formed to the fluid is injected and discharged on the upper one side and the other side Becomes, the outer side is cut to form a space portion 330, the space portion 330 is formed on the side of the fluid discharge hole 320 and the piston insertion groove 340 is inserted into the piston portion 500 is inserted The flange 300 is formed; A rotating gear 400 on which the space part 330 is positioned, installed in the axial direction on the flange 300, and the outer circumference of which the gear 111 engages and rotates; One side is connected to the rotary gear 400, the other side is inserted into the piston insertion groove 340, the piston unit 500 to reciprocate by rotation of the rotary gear 400 to push the fluid; The fluid discharge flange (6) is fitted to the outer periphery of the fixed shaft (200) and coupled to the flange (300), and a movement path (610) through which fluid discharged from the fluid discharge hole (320) moves from one side to the other is formed. 600); An amplifying flange 700 that is fitted to the outer circumference of the fluid discharge flange 600 and is coupled to the second housing 120 to amplify the rotational force by the fluid discharged from the moving path 610; It consists of.

The housing 100 is coupled to one side of the first housing 110 and the second housing 120 in contact with each other, as shown in Figures 1 to 6, so that the fluid (y) can be injected therein Space 101 is configured to be provided.

In the first housing 110, a gear 111 is continuously formed along the inner circumference, and the gear 111 to be rotated 400 to be engaged is engaged with the rotating gear to rotate the housing 100 ( 400) is configured to rotate.

The second housing 200 is disposed on one side of the first housing 110 to be in contact with each other through a mutual bolt or the like, and finally, through the combination of the first and second housings 110 and 120, the housing 100 ) Is composed.

At this time, as shown in Figure 6, the interior of the housing 100 is formed with a space 101 through which fluid can be entirely moved and injected, and the fluid is pushed and pulled through the operation of the piston portion 500. Through iteration, circulation of inflow, outflow, and movement becomes possible.

Here, although not shown, it is preferable that an inlet for injecting an initial fluid is formed on one side of the housing 100, that is, one of the first and second housings 110 and 120, through the inlet. After injecting the fluid into the space 101, it is preferable that the fluid injected into the space 101 through the inlet is completely sealed so as not to leak to the outside.

In addition, before the housing 100 is finally combined, a fixed shaft 200, a flange 300, a rotating gear 400, a piston portion 500, a fluid moving flange 600 and an amplifying flange ( 700) is composed.

The fixed shaft 200 is a configuration that is installed and fixed in the axial direction to the housing 100, the respective components are fitted to the outer periphery of the fixed shaft 200 to rotate around the fixed shaft 200 Can be configured.

The flange 300 is inserted into the outer periphery of the fixed shaft 200, as shown in Figures 4, 5, 7, 8, but is located inside the first housing 110, the fluid is injected into the upper one side and the other side The fluid inlet hole 310 and the fluid outlet hole 320 are respectively formed, and an external one side is cut to form a space part 330, and the fluid discharge hole is formed on the side where the space part 330 is formed. 320) is extended and the piston insertion groove 340 into which the piston portion 500 is inserted is formed.

In more detail, as illustrated in FIGS. 7 to 10, a fluid introduction hole 310 through which a fluid introduced into the space 101 of the housing 100 is introduced is formed at an upper portion of the housing 100. ) When the piston 510 of the piston unit 500 reciprocates in order to draw fluid into it, the fluid in the space 101 is moved to the input hole 310 at the same time as pulling in one direction. Finally, the fluid is injected into the fluid injection hole (310).

Meanwhile, a fluid discharge hole 320 spaced apart at a predetermined distance from the fluid injection hole 310 is formed on an upper side of the flange 300, and the fluid discharge hole 320 is a piston 510 of the piston part 500 ) Is a hole that can be discharged while the fluid on the piston insertion groove 340 is pushed when it is moved in the opposite direction, that is, in the direction toward the fluid discharge hole 320.

On the other hand, the flange 300 has three side spaces 330 are formed as shown in FIG. 8, and rotation gears 400 to be described below are respectively located in the space part 330. Each piston insertion groove 340 is formed on each side of the flange 300 on which the space portion 330 is formed, and three fluid injection holes 310 and three are connected to the piston insertion groove 340. The fluid discharge hole 320 is formed.

In other words, as shown in FIG. 9 or 10, when the piston 510 is inserted and the piston 510 reciprocates in one direction and the other direction in the piston insertion groove 340, the fluid flows in one direction. The fluid is introduced into the input hole 310, and when it goes in the other direction, the fluid is pushed into the fluid input hole 320 so that it can move.

Here, the space portion 330 is substantially a component for the rotation gear 400 is disposed, the size of the space portion 330 is formed slightly larger than the diameter of the rotation gear 400, the rotation gear ( 400) is preferably formed so that friction does not occur with the side surface of the flange 300 when rotating, and the upper side where the space 330 of the flange 300 is located is coupled for coupling with the rotating gear 400. A groove 301 is formed, and the rotating gear 400 rotates around the coupling groove 301.

In addition, although not shown, the flange 300 may be configured to be divided into a lower flange of a disc at the bottom and an upper flange at the upper portion of the lower flange, and is illustrated as being integrally configured in the present invention.

The rotation gear 400 is located on the space portion 330 as shown in FIG. 4 or FIG. 7 and is installed in the axial direction on the flange 300, and the outer circumference is configured to rotate by engaging the gear 111. .

Here, the rotary gear 400 is rotated to be reciprocated by the piston unit 500. One groove or hole is formed at one side of the edge of the rotary gear 400, and the piston unit ( It is connected to the groove or hole at the end of the bracket 520 of 500) so that the piston 510 can reciprocate when the rotating gear 400 rotates.

The piston portion 500 is one side is connected to the rotary gear 400, the other side is introduced into the piston insertion groove 340 to reciprocate by rotation of the rotary gear 400 to push the fluid. Is configured, more specifically, as shown in Figures 4, 7, 10, 11, the piston portion 500 is one side is inserted into the piston insertion groove 340, the incision groove 511 is cut in the other side The piston 510 is formed, is formed to be bent, one side is coupled to the incision groove 511, it is composed of a bracket 520 that is connected to the rotating gear 400 on the other side.

That is, when the piston 510 of the piston part 500 is moved in one direction or the other direction, when it is moved in the bracket 520 direction, it forms a space inside the piston insertion groove 340 and simultaneously pulls the force. By flowing the fluid into the interior of the piston insertion groove 340 through the fluid yuphole 310, and when moved in the opposite direction of the bracket 520, the space in the piston insertion groove 340 piston (510 ) Is spicy, and the fluid is discharged through the fluid discharge hole 320, and as this operation is repeatedly performed, the fluid is moved inside the housing 100 through the reciprocating motion of the piston part 500. It is circulated in, and whenever the reciprocating motion of the piston 500 is made, the amplifying flange 700 to be further amplified the rotational force to amplify the output of the housing 100.

The fluid discharge flange 600 is fitted to the outer periphery of the fixed shaft 200, as shown in Figures 2, 4, 5 and 12, 13, and coupled to the flange 300, and from one side to the other A movement path 610 through which the fluid discharged from the fluid discharge hole 320 moves is formed.

12, the fluid is received in the horizontal direction from the fluid discharge hole 320 of the flange 300, as shown in FIG. 12 or 13, the fluid in the horizontal direction different from the received horizontal direction It is formed to discharge.

In other words, the input and discharge of the fluid discharged and moved through the fluid discharge hole 320 is made, but after the fluid is injected in the horizontal direction, the amplifying flange 700 to be rotated in the rotating direction of the housing 100 is rotated. To be discharged in that direction, the rotational force of the amplifying flange 700 can be amplified.

The amplification flange 700 is fitted to the outer circumference of the fluid discharge flange 600 as shown in Figures 2, 4, 5 and 14, but is coupled to the second housing 120 and discharged from the moving path 610 As a configuration to amplify the rotational force by the fluid to be, the inner periphery of the amplification flange 700 is continuously formed with teeth 711, the first housing 100 of the first housing 100 through the fluid is moved from the movement path 610 and discharged Rotational force can be amplified.

At this time, the inner periphery of the amplifying flange 700 and the teeth 711 are positioned in the same line as the end of the fluid discharged from the moving path 610 of the fluid discharge flange 600 in a vertical line, the movement The amplifying flange 700 can further amplify its rotational force to the discharge force of the fluid discharged through the furnace 610, and when the fluid is discharged, the tooth 711 amplifies the pressure of the discharged fluid It is a configuration for allowing the 700 to rotate smoothly.

On the other hand, as shown in Figure 5 is fitted to the outer periphery of the fixed shaft 200 but is located inside the second shaft 120 and the covering 750 facing the amplifying flange 700 is configured to include the housing ( The fluid filled in the space 101 inside the 100) can be prevented from leaking to the outside.

In addition, since the fluid is contained in the space 101 inside the housing 100, a separate packing or the like may be configured between respective components.

One side of the second housing 120 of the output amplifying device 10 of the present invention configured as described above is configured with a connection flange 800 for connecting with the axis of the bicycle, connected with the axis of the rear wheel of the bicycle frame Or it can be configured to connect to other devices that require output.

In addition, on both sides of the housing 100, when connecting to the rear wheel portion of the frame of the bicycle, a wheel connecting flange 900 for connecting with the flesh of the wheel of the bicycle is configured, so that it can have a firm fixing force.

When explaining the bicycle configured as the output amplifying device 10 of the present invention as described above,

As shown in Figure 17, the main frame 20 in which the respective wheels 21 and 23 are installed in the axial direction at the front and rear of the lower portion; A steering unit 30 extending from the main frame 20 at the front upper portion of the main frame 20; A seating portion 40 in which a user sits in an upper central portion of the main frame 20; A pedal unit 50 that the user presses on the lower center portion of the main frame 20; Connection means (60) for connecting the wheel (23) configured at the rear of the pedal unit (50) and the main frame (20); The output amplifying device 10 is configured on a wheel 23 configured at the rear of the main frame 20; It consists of.

That is, through the configuration of the output amplification device 10, the power transmitted through the connecting means 60 by the rotation of the pedal unit 50 by the first user, if the power is 100, the effect that can be output to 120 Thereby, it is possible to provide convenience by reducing the labor force of the users and amplifying the output.

10: output amplifier 20: main frame 21, 23: wheels
30: steering portion 40: seating portion 50: pedal portion
60: connecting means
100: housing 101: space
110: first housing 111: gear
120: second housing 200: fixed shaft
300: flange 301: engaging groove
310: fluid injection hole 320: fluid discharge hole 330: space
340: piston insertion groove 400: rotary gear
500: piston portion 510: piston 511: incision groove
520: bracket
600: fluid discharge flange 610: moving path
700: amplification flange 711: teeth
750: Covering 800: Connecting flange 900: Wheel connecting flange

Claims (7)

The first housing 110 in which the gear 111 is formed on the inner circumference, and the second housing 120 facing the first housing 110 are mutually coupled to form a space 101 therein, and the space ( 101) a housing 100 configured to include a fluid;
A fixed shaft 200 installed in the axial direction inside the housing 100;
It is inserted into the outer periphery of the fixed shaft 200, but is located inside the first housing 110, the fluid inlet hole 310 and the fluid outlet hole 320 are respectively formed to the fluid is injected and discharged on the upper one side and the other side Becomes, the outer side is cut to form a space portion 330, the space portion 330 is formed on the side of the fluid discharge hole 320 and the piston insertion groove 340 is inserted into the piston portion 500 is inserted The flange 300 is formed;
It is located on the space portion 330 is installed in the axial direction on the flange 300, the outer circumference of the gear 111 is rotated gear 400 rotates in engagement;
One side is connected to the rotary gear 400, the other side is inserted into the piston insertion groove 340, the piston unit 500 to reciprocate by rotation of the rotary gear 400 to push the fluid;
The fluid discharge flange (6) is fitted to the outer periphery of the fixed shaft (200) and coupled to the flange (300), and a movement path (610) through which fluid discharged from the fluid discharge hole (320) moves from one side to the other is formed. 600);
An amplifying flange 700 that is fitted to the outer circumference of the fluid discharge flange 600 and is coupled to the second housing 120 to amplify the rotational force by the fluid discharged from the moving path 610; Output amplification device using a fluid, characterized in that consisting of.
According to claim 1,
The output amplification device using a fluid, characterized in that the connection flange 800 for connecting to the axis of the bicycle is configured on one side of the second housing (120).
According to claim 1,
An output amplification device using a fluid, characterized in that on both sides of the housing 100 is configured a wheel connection flange 900 for connecting with the wheels of the bicycle.
According to claim 1,
The movement path 610 of the fluid discharge flange 600,
Output amplification device using a fluid characterized in that the fluid is discharged in a horizontal direction different from the received horizontal direction, receiving the fluid in the horizontal direction from the fluid discharge hole 320 of the flange 300.
According to claim 1,
The piston portion 500,
A piston 510 in which one side is inserted into the piston insertion groove 340 and an incision groove 511 cut in the other side is formed,
It is formed to be bent, one side is coupled to the incision groove 511, the output amplification device using a fluid, characterized in that consisting of a bracket 520 connected to the rotating gear 400 on the other side.
According to claim 1,
Output amplification device using a fluid, characterized in that the teeth 711 are continuously formed on the inner periphery of the amplifying flange (700).
Main frame 20 in which the wheels 21 and 23 are installed in the axial direction at the front and rear of the lower portion;
A steering unit 30 extending from the main frame 20 at the front upper portion of the main frame 20;
A seating portion 40 in which a user sits in an upper central portion of the main frame 20;
A pedal unit 50 that the user presses on the lower center portion of the main frame 20;
Connection means (60) for connecting the wheel (23) configured at the rear of the pedal unit (50) and the main frame (20);
An output amplifying device (10) according to any one of claims 1 to 6 configured on a wheel (23) configured at the rear of the main frame (20); Bike configured with an output amplification device using a fluid, characterized in that consisting of.

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