KR20110025373A - The generation apparatus of electricity using vehicle load - Google Patents

Abstract

PURPOSE: A power generating device using vehicle load is provided to enable energy to be recycled without pollution since electricity is generated using the load of a vehicle on a road. CONSTITUTION: A power generating device using vehicle load comprises an upper structure, a lower structure, a power generating unit(120) and a power transmitting unit(220). The upper structure can be separated from the lower structure. The power generating unit is formed on the upper structure. The power generating unit transforms vertical movement due to the load of a vehicle to rotating movement to generate rotating power. The power transmitting unit is formed on the lower structure. The power transmitting unit transmits rotating power from the power generating unit to a generator(300).

Description

Generation Apparatus of Electricity Using Vehicle Load

The present invention relates to a power generation apparatus using a vehicle load that can produce electric energy by using a load of a vehicle traveling on a road, and more particularly, a toll gate access road and an exit road of a highway in which a vehicle travels relatively slowly, and a school zone. A vehicle that is buried in an entrance or exit of an area or a parking lot, etc., but installs only a knob that moves up and down to produce power using a load of a vehicle that does not interfere with the driving of a road vehicle. It relates to a power generator using a load.

Recently, in the face of the world of energy depletion, various methods and devices are being actively developed for the development of new alternative energy and effective energy conservation in the energy cycle. For example, a voltage generator using solar light has been developed as an alternative energy that has been mainly developed, which is a constant voltage circuit that constitutes a solar cell that directly receives sunlight and maintains a uniform voltage generated from the solar cell. By charging the storage battery, the voltage from the solar cell can be used as an auxiliary power source if necessary. However, the power generation using the solar cell has a big difference in power generation according to the low efficiency and the amount of light and can not produce at night, so it can not play a role as the main energy source of a country, but only an auxiliary or experimental energy source It must be.

In addition, the energy generating device due to tidal power, wind power, and hydro power is energy that can be used as an auxiliary power only in regions where natural conditions are suitable, and the resulting voltage does not meet expectations or is restricted by the surrounding environment. The cost of facility investment is enormous, which is not common.

As a result, there is increasing interest in recycling energy as an alternative energy source, and the increase in power generation due to the reduction of investment cost and investment cost of other renewable energy facilities such as tidal power, wind power and solar power, and industrialization are progressing globally. Accordingly, as the number of cars driven and settled in an automobile culture increases exponentially, an energy recycling system using such cars is required.

In order to meet the above requirements, many devices are known that generate power by using a load of a vehicle that is buried on the road and travels on the road. However, such devices need to dig a hole of 40 cm or more in order to bury the device on the road. After installing the device, there is a problem that the road must be excavated for damage, replacement or repair of the parts, as well as the problem of extremely low power generation efficiency due to the structural limitations of the power generation device. .

Therefore, the present invention was created in order to produce electricity in an environment-friendly and stable manner in view of the above-mentioned problems, toll gate access and entry road of the highway where the vehicle runs relatively slowly, school zone area or parking lot Power generation using vehicle loads, which are embedded in access roads, speed bumps, etc., but install only the knobs for lifting and lowering so as to produce electric power using the loads of the vehicles driving without disturbing the driving of the road vehicles. It is in providing a device.

Technical means pursued in order to solve the above problems is installed in the vehicle passage, the detachable upper structure and the lower structure; Power generating means provided in the upper structure and converting a vertical motion by a load of the vehicle into a rotational motion to generate rotational power; A power transmission means provided in the lower structure and transmitting rotational power generated from the power generating means to a power generating means; The present invention provides a power generation apparatus using a vehicle load, characterized in that the power generation means for generating power by the rotational force transmitted from the power transmission means.

The present invention is provided in the upper structure and the power generating means for generating a rotational power by converting the vertical motion by the load of the vehicle to the rotary motion is fixed to the upper frame, the upper frame by the shaft holder and by the load of the vehicle A hinge shaft on which one end of the descending knob is hinged and a return spring for returning the lowered knob is fitted, and one end is pivotally rotatably coupled to the hinge axis, and the vertical movement of the knob is applied to the knob pin and the power transmission bar. It proposes a power generation device using a vehicle load, characterized in that consisting of a single gear unit for converting into a rotational movement received by.

The present invention is provided in the lower structure and the power transmission means for transmitting the rotational power generated from the power generating means to the power generating means, the spur gear connected to the knitting gear unit to transfer the rotational force of the knitting gear unit to the gear shaft And, it proposes a power generator using a vehicle load, characterized in that consisting of a one-way clutch to allow the generator to rotate only in one direction by intermittent rotational force of the gear shaft.

The present invention is a power generation means for producing electric power by the rotational force transmitted from the power transmission means is connected to the one-way clutch of the power transmission means and an increaser for increasing the rotational speed of the gear shaft to the generator, and from the speed increaser Presenting a power generation device using a vehicle load, characterized in that it comprises a generator for generating electric power by receiving a driving force, a battery for storing the power produced by the generator, and a controller for controlling the charging state of the generator and the battery. do.

The present invention can produce and use electricity by itself using the load of the vehicle traveling on the road, thereby providing an effect of recycling energy in an environmentally friendly manner without generating pollution.

Hereinafter, an embodiment of a power generation apparatus using a vehicle load according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic plan view of a power generation device using a vehicle load according to an embodiment of the present invention, Figure 2 is a side schematic view of a power generation device using a vehicle load according to an embodiment of the present invention, Figure 3 is a partial enlarged view of FIG. 4 is a partially enlarged view of FIG. 2. 5 is an enlarged view partially illustrating a front side of a power generator using a vehicle load according to an embodiment of the present invention.

Power generation apparatus using a vehicle load according to an embodiment of the present invention is installed in a vehicle passage, and consists of an upper structure 100 and a lower structure 200, the upper structure 100 and the lower structure 200 is a lower frame (210) The upper frame 110 is placed on the pedestal (200a) provided at the edge and is coupled by fastening by fastening means such as bolts, and after the internal repair or cleaning simply loosen the bolts can be easily separated from the structure Done.

The upper structure 100 is provided with a power generating means 120 for generating a rotational power by converting the vertical motion by the load of the vehicle into a rotational movement, the lower structure 200 is the power generating means 120 It comprises a power transmission means for transmitting the rotational power generated from the power generation means 220 and the power generation means 300 for producing electric power by the rotational force transmitted from the power transmission means 220. Here, the power generating means 120, the power transmission means 220 and the power generating means 300 is preferably arranged in at least one or more in consideration of the width of the road to be installed or the surrounding conditions.

The upper structure 100 is provided in the upper frame 110 is composed of a plurality of longitudinal / transverse members, the longitudinal / transverse members constituting the upper frame 110 is preferably applied to the beam or section steel of the steel. Here, as shown in FIG. 6, the upper frame 110 is damaged by the load of the vehicle by installing a plurality of ribs 111 between the longitudinal / lateral members by means of welding or the like. To prevent torsion, or torsion.

The power generating means 120 which is provided in the upper structure 100 and converts the vertical movement by the load of the vehicle into the rotational movement to generate the rotational power is the upper frame 110 and the shaft holder on the upper frame 110. And a hinge shaft 122 fixed by 121. One end of the knob 123 descending by the load of the vehicle is hinged to the hinge shaft 122. The knob 123 is arranged in at least one or more in consideration of the width of the road or the surrounding conditions. The return spring 124 and the knitting gear unit 125 for returning the lowered knob 123 are fitted to be freely rotatable from the hinge shaft 122. The knitting gear unit 125 is provided with a power transmission bar 126 having a length corresponding to the number of arrangement of the knobs 123, and a knob pin 123a provided at the lower end of each knob 123 as a medium. The vertical movement of the knob 123 is transmitted to the power transmission bar 126, the vertical movement of the knob 123 by rotating the knitting gear unit 125 by the lifting operation of the power transmission bar 126. This rotational motion is converted. Here, the upper frame 110 has a stopper 112 which prevents the knob 123 lowered by the load of the vehicle from protruding above the frame at a predetermined position or more when the knob 123 is returned by the return spring 124 after passing through the vehicle. It is provided at a predetermined position of the stopper 112, the lever 123b of the knob 123 is caught by the stopper 112, thereby restraining the knob 123 from rising above a predetermined height.

In addition, the knob 123 of the power generating means 120 forms a steep inclined surface 123c in the traveling direction of the vehicle, and is formed to have a gentle gentle slope 123d in the backward direction of the vehicle. Even when the knob 123 smoothly performs the lifting operation without impact on the vehicle or facilities, so that the power generation function can be performed smoothly even in the reverse direction.

In addition, the upper frame 110 of the upper structure 100 is provided with a cover 130 in a form in which only the knob 123 is exposed, the cover 130 is convenience of repair due to damage or replacement of parts after installation In order to cover the upper frame 110 without being embedded for. In addition, the cover 130 is provided with a non-slip means for preventing the wheel from slipping when the vehicle passes, such a non-slip means are shown in the entire upper surface of the cover 130 as shown in FIG. The non-slip protrusion 131 is formed by the unevenness, or as shown in FIG. 8, the groove 132 is formed on the upper surface of the cover 130, and the groove 132 is formed of concrete such as road pavement or the like. The configuration of filling the ascon 133 may also be applied.

The gear shaft 221 is provided in the power transmission means 220 provided in the lower structure 200 and transmitting the rotational power generated from the power generating means 120 to the power generating means. One end of the gear shaft 221 is provided with a spur gear 222 for transmitting the rotational force of the knitting gear unit 125 to the gear shaft 221, the other end of the gear shaft 221 is the gear shaft The one-way clutch 223 is provided to intermittent the rotational force of the 221 to allow the generator to rotate only in one direction. Therefore, the vertical movement of the knob 123 is transmitted to the power transmission bar 126 via the knob pin 123a, and the knitting gear unit 125 rotates by the lifting operation of the power transmission bar 126. In addition, the spur gear 222 meshed with the knitting gear unit 125 may rotate the gear shaft 221 and the one-way clutch 223 to drive the power generating means 300 to be described later.

The power generation means 300 for producing electric power by the rotational force transmitted from the power transmission means 220 is connected to the one-way clutch 223 of the power transmission means 220 and the rotational speed of the gear shaft 221 The speed increaser 302 converts the rotational speed by the acceleration / deceleration ratio by the combination of a plurality of gears and transmits it to the generator 301. In addition, a generator 301 is connected to the speed increaser 302 so that the rotational force increased by the speed increaser 302 can drive the generator 301 to produce power more efficiently. The power produced by the generator 301 is stored in the storage means, that is, the battery 303 and has a controller 304 for controlling the state of charge of the generator 301 and the battery 303 and the entire device. Here, the generator 301 and the speed increaser 302 constituting the power generating means 300 are mounted in the lower frame 210 in a state of being completely waterproofed by the waterproof case 305, the waterproof case 305 includes the generator 301 and the speed increaser 302 as well as the gear shaft 221 and the one-way clutch 223 except for the spur gear 222 of the power transmission means 220. More preferably.

In the present invention configured as described above, as shown in FIGS. 4 and 5, when the wheel passes the top of the knob 123 while the vehicle passes, the vertical movement of the knob 123 descends through the knob pin 123a. The spur gear 222 which is transmitted to the power transmission bar 126 and rotates by the lifting gear unit 125 by the lifting operation of the power transmission bar 126 is engaged with the knitting gear unit 125. The shaft 221 and the one-way clutch 223 is rotated to drive the power generating means 300 to produce power. At this time, when the knob 123 lowered by the load of the vehicle returns by the return spring 124 after passing through the vehicle, the knob 123 is provided on the stopper 112 provided at the predetermined position of the upper frame 110. The lever rear end 123b of the is caught, thereby restraining the knob 123 from rising above a predetermined height.

9 is a view illustrating another embodiment of a power generation apparatus using a vehicle load according to the present invention. In another embodiment of the present invention is provided in the upper structure and the power generating means for generating a rotational power by converting the vertical motion by the load of the vehicle to the rotational movement of the upper frame 140 made by assembling a plurality of longitudinal / horizontal members ). A plurality of shaft holders 141 are provided at both sides of the upper frame 140, and a drive shaft 142 is rotatably installed at the shaft holder 141. A knob 143 is connected to the drive shaft 142 so that the drive shaft 142 can rotate in only one direction using a ratchet 144 as a medium, and the knob 143 is lowered by the load of the vehicle. And return to idling by the return spring.

The power transmission means which is provided in the lower structure and transmits the rotational power generated from the power generating means to the power generating means is installed on one end of the drive shaft 142 to the spur gear for transmitting the rotational force of the drive shaft to the timing belt (241) ( 240 and a one-way clutch 243 for intermittent rotational force of the spur gear 240 transmitted by the timing belt 241 to allow the gear shaft 242 to rotate in only one direction.

Therefore, according to this configuration, in another embodiment of the present invention, when the wheel presses the upper end of the knob 123, the vertical movement of the knob 123 descends is driven by the knob pin 123a. The spur gear 222, which is transmitted to the transmission bar 126 and engaged by the knitting gear unit 125 by rotating the knitting gear unit 125 by the lifting operation of the power transmission bar 126, is gear shaft 221. ) And the one-way clutch 223 to drive the power generation means 300, unlike the drive shaft 142 via the ratchet 144 as a medium, the drive shaft 142 can be rotated in one direction only by the knob 143. By directly connecting the drive shaft to the spur gear 240, the timing belt 241, and the one-way clutch 243 so that the gear shaft 242 can drive the power generating means 300. Knob pin 123a and power transmission bar 126 according to an example Side gear unit 125 makes it possible to omit the like.

10 is a view illustrating another embodiment of a power generation device using a vehicle load according to the present invention. In another embodiment of the present invention is provided in the upper structure and the power generating means for generating a rotational power by converting the vertical movement by the load of the vehicle to the rotational movement is the upper frame 150, the upper frame 150 The hinge shaft 152 fixed to the shaft holder 151 and one end is hinged to the hinge shaft 152 is lowered by the load of the vehicle, the knob 153 is formed integrally with the knitting gear 153 And a return spring 155 fitted to the hinge shaft 152 to return the lowered knob 154 to idle.

The power transmission means which is provided in the lower structure and transmits the rotational power generated from the power generating means to the power generating means is meshed with one end of the knitting gear 153 of the knob to transfer power to the rotational movement of the knitting gear 153. A ratchet 251 for transmitting to the shaft 250 and allowing the power transmission shaft 250 to rotate in only one direction, and installed at one end of the power transmission shaft 250, The gear shaft 254 may rotate in only one direction by intermittent rotation force of the spur gear 253 transmitting the rotational force to the timing belt 252 and the spur gear 253 transmitted by the timing belt 252. It consists of a one-way clutch 255 to be configured to drive the power generation means. Therefore, in another embodiment of the present invention by the above configuration, the knob pin 123a, the power transmission bar 126, and the knitting gear unit 125 separately installed from the knob 123 according to the above embodiment are It can be omitted.

11 is a view illustrating another embodiment of a power generation apparatus using a vehicle load according to the present invention. The power generating means which is provided in the upper structure and converts the vertical movement by the load of the vehicle into the rotational movement to generate the rotational power is rotated by the upper frame 160 and the shaft holder 161 on the upper frame 160. A plurality of drive shafts 162 and the drive shaft 162 are coupled to the drive shaft 162 so that the drive shaft 162 can rotate only in one direction and are lowered and returned by the load of the vehicle. It is composed of a plurality of knobs 164 to return to idle by the spring 164, the power generation means 300 for generating power received from the rotational power generated from the power generating means is directly to one end of the drive shaft 162 Knitting is installed separately from the knob pin 123a and the power transmission bar 126 and the knob 123 according to the embodiment by being configured to receive power or by receiving power by the belt by the connection. The gear unit 125, the spur gear 222 and the gear shaft 221, etc., which are engaged with the knitting gear unit 125, are omitted, so that the structure can be made extremely simple.

As described above, the present invention is a vehicle that runs on the road by installing only the knobs for lifting and lowering, while being embedded in a toll gate access road and an exit road, an entrance and exit path of a school zone or a parking lot, a speed bump, etc. By allowing electric power to be produced using the load of a vehicle that is running without affecting the driving of electricity, the electricity can be produced and used on its own, thereby providing an effect of recycling energy in an eco-friendly manner without generating pollution.

As described above with reference to the accompanying drawings for the preferred embodiment of the present invention, the present invention is not limited by the above-described specific embodiments, those of ordinary skill in the art to which the present invention belongs Of course, various modifications and variations are possible within the scope of the technical spirit of the present invention and the appended claims.

1 is a schematic plan view of a power generation device using a vehicle load according to an embodiment of the present invention

2 is a side schematic view of a power generation device using a vehicle load according to an embodiment of the present invention;

3 is a partially enlarged view of FIG. 1;

4 is a partially enlarged view of FIG. 2;

5 is an enlarged view partially illustrating a front side of a power generation device using a vehicle load according to an embodiment of the present invention;

Figure 6 is a schematic diagram illustrating a configuration state of the upper frame in the embodiment of the present invention

7 is a view illustrating a configuration state of a cover in an embodiment of the present invention.

8 illustrates another embodiment of a cover in an embodiment of the invention.

9 is a diagram illustrating another embodiment of a power generation apparatus using a vehicle load according to the present invention.

10 is a view illustrating another embodiment of a power generation apparatus using a vehicle load according to the present invention.

11 is a view illustrating another embodiment of a power generation apparatus using a vehicle load according to the present invention.

[Description of Symbols for Main Parts of Drawing]

100: upper structure 110: upper frame

120: power generating means 123: knob

125: knitting gear unit 126: power transmission bar

200: lower structure 210: lower frame

220: power transmission means 221: gear shaft

222: spur gear 223: one-way clutch

300: power generation means 301: generator

302: accelerator 303: battery

304: controller 305: waterproof case

Claims (10)

A detachable upper structure and a lower structure installed in the vehicle passage; Power generating means provided in the upper structure and converting a vertical motion by a load of the vehicle into a rotational motion to generate rotational power; A power transmission means provided in the lower structure and transmitting rotational power generated from the power generating means to a power generating means; Power generating device using a vehicle load, characterized in that consisting of power generation means for producing electric power by the rotational force transmitted from the power transmission means. The method according to claim 1, The power generating means which is provided in the upper structure and converts the vertical movement by the load of the vehicle into the rotational movement to generate the rotational power is fixed to the upper frame and the upper frame by the shaft holder and lowered by the load of the vehicle. A hinge shaft into which one end of the hinge is hinged and a return spring for returning the lowered knob is rotatably coupled to the hinge shaft, and one end of the hinge shaft is pivotally rotatable, and the vertical movement of the knob is transmitted using a knob pin and a power transmission bar as a medium. A power generation device using a vehicle load, characterized in that consisting of a single gear unit for converting the rotational movement. The method according to claim 2, The upper structure is provided in the upper frame of the power generating means for generating a rotational power by converting the vertical motion by the load of the vehicle to the rotational movement is installed in the form that only the knob is exposed and the cover having a non-slip means is further provided Power generation device using a vehicle load, characterized in that. The method of claim 3, The non-slip means of the cover installed in the form that only the knob is exposed to the upper frame of the power generating means is any one selected from the non-slip projections or the concrete filled in the grooves or asphalt concrete. The method according to claim 1, The power transmission means which is provided in the lower structure and transmits the rotational power generated from the power generating means to the power generating means, the spur gear connected to the knitting gear unit for transmitting the rotational force of the knitting gear unit to the gear shaft, and Power generator using a vehicle load, characterized in that consisting of a one-way clutch that allows the generator to rotate only in one direction by intermittent rotational force of the gear shaft. The method according to claim 1, The power generation means for producing electric power by the rotational force transmitted from the power transmission means is connected to the one-way clutch of the power transmission means and the speed increasing the rotational speed of the gear shaft and transfer to the generator, and transfers the driving force from the speed increaser And a generator for generating electric power, a battery for storing electric power produced by the generator, and a controller for controlling a charging state of the generator and the battery. The method according to any one of claims 2 to 4, The knob of the power generating means which is provided in the upper structure and converts the vertical movement by the load of the vehicle into the rotational movement to generate the rotational power forms a steep slope in the traveling direction of the vehicle and a mild slope in the backward direction of the vehicle. Generating apparatus using a vehicle load, characterized in that formed to have. The method according to claim 1, The power generating means which is provided in the upper structure and generates rotational power by converting the vertical movement by the load of the vehicle into the rotational movement is a plurality of upper frames, the drive shaft is rotatably installed by the shaft holder on each upper frame And, the drive shaft is coupled to the drive shaft via the ratchet as a medium to be rotated in only one direction, the knob is lowered by the load of the vehicle and returned to idle by the return spring, The power transmission means which is provided in the lower structure and transmits the rotational power generated from the power generating means to the power generating means is installed on one end of the drive shaft to transmit the rotational force of the drive shaft to the timing belt, and by the timing belt Power generator using a vehicle load, characterized in that consisting of a one-way clutch to allow the gear shaft to rotate in only one direction by intermittent rotational force of the spur gear to be transmitted. The method according to claim 1, Power generating means which is provided in the upper structure and converts the vertical motion by the load of the vehicle to the rotational movement to generate the rotational power is a plurality of upper frames, the hinge shaft fixed to the respective upper frame by the shaft holder and One end is hinged to the hinge shaft is lowered by the load of the vehicle, the knob is formed integrally with the gear, and the return spring for returning the knob is fitted into the hinge shaft and the lowered to idle, The power transmission means which is provided in the lower structure and transmits the rotational power generated from the power generating means to the power generating means is meshed with one end of the knitting gear of the knob to transfer the rotational movement of the knitting gear to the power transmission shaft and A ratchet allowing the transmission shaft to rotate only in one direction, a spur gear installed at one end of the power transmission shaft to transmit the rotational force of the power transmission shaft to the timing belt, and a rotation force of the spur gear transmitted by the timing belt. Power generating device using a vehicle load, characterized in that consisting of a one-way clutch to intermittently rotate the gear shaft in one direction. The method according to claim 1, Power generating means which is provided in the upper structure and converts the vertical movement by the load of the vehicle to the rotational movement to generate the rotational power is a plurality of upper frames, a plurality of rotatably installed by the shaft holder on each upper frame It consists of a drive shaft and a plurality of knobs coupled to the drive shaft through the ratchet as a medium, the drive shaft is rotated in only one direction and is lowered by the load of the vehicle and returned to idle by the return spring, the power generation Generating means for generating power generation by receiving the rotational power generated from the means is a power generation device using a vehicle load, characterized in that the power is generated by the transmission of power by direct connection to one end of the drive shaft or by a belt.

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