Self-driven tyre
阅读说明:本技术 一种自驱动轮胎 (Self-driven tyre ) 是由 李隆毅 于 2020-05-04 设计创作,主要内容包括:本发明公开了一种自驱动轮胎,包括轮胎本体、轮毂、涡轮驱动装置,轮胎本体同轴套在圆形轮毂外圈,涡轮驱动装置设置在轮毂内圈,与轮毂同轴设置,固定连接,涡轮驱动装置中心位置,同轴设置涡轮驱动固定轴,在涡轮驱动装置内部设置二氧化碳动力驱动系统,在涡轮驱动装置中,二氧化碳动力驱动系统流道中流动的二氧化碳,通过吸收外界热量,循环改变二氧化碳的物理形态,相变所产生的压力差,推动涡轮驱动装置绕涡轮驱动固定轴转动,从而带动轮胎同步运转。采用本方案,通过吸收轮胎运行时所产生的热量,来改变二氧化碳的物理形态,所产生的压力差驱动涡轮转动,从而驱动轮胎运转,避免轮胎通过发动机传动驱动,大大提高驱动效率,且节能环保。(The invention discloses a self-driven tire, which comprises a tire body, a hub and a turbine driving device, wherein the tire body is coaxially sleeved on the outer ring of a round hub, the turbine driving device is arranged on the inner ring of the hub and is coaxially and fixedly connected with the hub, the turbine driving fixed shaft is coaxially arranged at the center of the turbine driving device, a carbon dioxide power driving system is arranged in the turbine driving device, carbon dioxide flowing in a flow channel of the carbon dioxide power driving system in the turbine driving device circularly changes the physical form of the carbon dioxide by absorbing external heat, and the turbine driving device is pushed to rotate around the turbine driving fixed shaft by pressure difference generated by phase change so as to drive the tire to synchronously run. By adopting the scheme, the physical form of carbon dioxide is changed by absorbing heat generated during the running of the tire, and the generated pressure difference drives the turbine to rotate, so that the tire is driven to run, the tire is prevented from being driven by the engine, the driving efficiency is greatly improved, and the tire is energy-saving and environment-friendly.)
1. The utility model provides a self-driven tire, includes tire body, wheel hub, turbine drive arrangement, the coaxial cover of tire body is in circular wheel hub outer lane, turbine drive arrangement set up in wheel hub inner circle side, with wheel hub coaxial setting, with wheel hub connects, turbine drive arrangement central point puts, and coaxial turbine drive fixed axle that sets up, its characterized in that inside the turbine drive arrangement, be provided with carbon dioxide power drive system among the turbine drive arrangement, the carbon dioxide that flows in carbon dioxide power drive system's the runner through absorbing external heat, the physical form of circulation change carbon dioxide, produced pressure differential promotes turbine drive arrangement rotates around turbine drive fixed axle, thereby drives wheel hub, and tire body synchronous operation.
2. The self-propelled tire as claimed in claim 1, wherein the inside of the tire body is provided with a honeycomb structure, the material of the honeycomb structure is graphene or carbon nanotubes, the independent closed gaps are formed between the honeycomb structures, nitrogen is filled between each independent closed gap, and the pressure of the nitrogen is 0.2-0.28 MPa.
3. The self-propelled tire according to claim 1, wherein said turbine driving device comprises a 1 st air reservoir, a turbine, a 2 nd air reservoir, and a compressor, said compressor is of a centrifugal compression structure, said 1 st air reservoir, said 2 nd air reservoir, and said compressor are sequentially sealed and fixedly disposed from outside to inside along the inside direction of said hub, said turbine is disposed in said 2 nd air reservoir, said 1 st air reservoir and said 2 nd air reservoir are communicated through a nozzle, said 2 nd air reservoir is communicated with an air suction port of said compressor, said nozzle injection direction is perpendicular to the direction of turbine blades fixedly disposed outside said turbine, and supercritical carbon dioxide or liquid carbon dioxide stored in said 1 st air reservoir is injected through said nozzle with adjustable pressure, expanded into said 2 nd air reservoir, and changed into a gaseous state, the turbine is pushed to rotate around a turbine driving fixing shaft, enters the compressor through the air suction port of the compressor, is compressed by the compressor, is gradually increased in pressure, finally flows out through the air exhaust port of the compressor, enters the 1 st gas storage layer communicated with the air exhaust port of the compressor, is changed into supercritical carbon dioxide or liquid carbon dioxide, and is stored in the 1 st gas storage layer for recycling; the turbine driving device is made of carbon fiber materials or metal alloy materials.
4. The self-driven tire according to claim 3, wherein the surface of the hub is uniformly provided with a flow discharge through hole, the outer surface of the 1 st gas storage layer is provided with a pressure release valve, the pressure release valve is communicated with the 1 st gas storage layer, carbon dioxide discharged by the pressure release valve can flow to the tire body through the flow discharge through hole, and the hub is made of a carbon fiber material or a metal alloy material.
5. The self-driven tire according to claim 3, wherein a power generation and energy storage device and a motor are further provided, the motor is coaxially and movably arranged around the outer surface of the turbine driving fixed shaft, the power generation and energy storage device is coaxially and fixedly arranged around the outer surface of the motor and is fixed on the inner side of the compressor, the power generation and energy storage device and the motor can rotate around the turbine driving fixed shaft, and the power generation and energy storage device can obtain power through rotation of the turbine driving device.
6. The self-propelled tire according to claim 5, wherein said power generation and energy storage device comprises a power generation device and an energy storage device, said power generation device and said energy storage device are integrally provided, and the electric energy generated by said power generation device is stored in said energy storage device.
7. The self-driven tire according to claim 6, wherein a connector is further provided between the inner surface of the hub and the turbine driving device, and the connector can connect the hub and the turbine driving device according to the use condition of the tire, and the turbine driving device rotates around the turbine driving fixed shaft to drive the hub and the tire body to synchronously rotate; or the connection between the hub and the turbine driving device is disconnected, and the turbine driving device idles around the turbine driving fixed shaft, so that the power generation and energy storage device only obtains power storage.
8. The self-propelled tire as claimed in claim 7, wherein a capillary heat pipe is further provided, the heat release end of the capillary heat pipe is arranged in the enclosed space of the 1 st air storage layer, the heat absorption end of the capillary heat pipe is arranged in the energy storage device, a heat insulation capillary section is arranged between the heat release end and the heat absorption end of the capillary heat pipe, the capillary heat pipe is made of high polymer materials, and the working medium flowing in the capillary heat pipe is nitrogen.
9. A method of self-driving a tire, comprising the steps of:
firstly, heat generated by friction between a tire and the ground is directly transferred to a 1 st gas storage layer through the edges of a honeycomb structure formed by graphene or carbon nanotube materials, and supercritical carbon dioxide or liquid carbon dioxide stored in the 1 st gas storage layer is heated;
secondly, the pressure of the supercritical carbon dioxide or liquid carbon dioxide absorbing heat is increased, and the stored high-pressure working medium is sprayed out through the nozzle, expanded and sprayed to the turbine blade at a high speed to push the turbine to rotate around the turbine driving fixed shaft, so that the tire obtains power to drive the tire to rotate;
thirdly, carbon dioxide sprayed to turbine blades pushes the turbine to rotate around a turbine driving fixing shaft, the pressure is reduced and gasified, the carbon dioxide enters the compressor through the air suction port of the compressor, the pressure is gradually increased through centrifugal compression of the compressor, the carbon dioxide finally flows out through the air exhaust port of the compressor, enters the 1 st air storage layer communicated with the air exhaust port of the compressor, is changed into supercritical carbon dioxide or liquid carbon dioxide, and is stored in the 1 st air storage layer for recycling;
during the use, the power generation and energy storage device can obtain electric power through the rotation of the turbine driving device and store the part of electric power, and when the carbon dioxide driven tire is insufficient in power due to insufficient heat supply at night or on a cloudy day, the stored part of electric power can supplement the shortage by providing the power generated by the electric power to the motor, so that the full-weather and sufficient power of the tire is ensured;
when the tire is stopped, in order to continuously absorb the heat of the tire, the connection between the hub and the turbine driving device is disconnected through a connector arranged between the inner surface of the hub and the turbine driving device, and the turbine driving device idles around the turbine driving fixed shaft, so that only the power generation and energy storage device continuously obtains power storage.
10. A vehicle, characterized in that, the self-driven tyre applying the method of claim 9 is fixedly connected with a vehicle fixed shaft coaxially at the position of the turbine driving fixed shaft, the vehicle drives the vehicle to run by the self-rotation of the tyre, and the insufficient part is supplemented by a power battery arranged on the vehicle.
Technical Field
The invention belongs to the technical field of heat energy recovery, and particularly relates to a self-driven tire which generates power by changing the physical form of carbon dioxide.
Background
At present, a common automobile is powered by an engine, then power is supplied to tires through a transmission device, the tires are started to rotate, so that the driving purpose is achieved, then an electric automobile appears, and power is supplied by a power battery to drive the tires to rotate so as to achieve the driving purpose.
Meanwhile, self-generating tires are also available in the market, namely, the power required by the tires is provided by generating power through a generator arranged on the tires through friction with the ground, pressure change and the like in the rotation process of the tires, but the generated power is insufficient, so that the self-generating tires can be generally used as auxiliary power of the tires and can be used for similar tire pressure Bluetooth devices without much electric quantity, and the power for driving automobiles is mainly provided by engines or automobile power batteries.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: through set up turbine drive arrangement on automobile tire, and the carbon dioxide driving system who takes on the device certainly, utilize carbon dioxide heat absorption characteristic, through absorbing external heat, the circulation changes the physical form of carbon dioxide, produced pressure differential drive turbine rotates around turbine drive fixed axle, thereby the direct drive tire operation, avoid on the one hand transmitting engine power for the tire through transmission, make the tire rotate, improve tire drive efficiency greatly, and energy-concerving and environment-protective, the produced drive power in two respects, for the drive power that provides of the electricity generation of self-generating tire, improve greatly.
The invention provides the following technical scheme:
the utility model provides a self-driven tire, includes tire body, wheel hub, turbine drive arrangement, the coaxial cover of tire body is in circular wheel hub outer lane, turbine drive arrangement set up in wheel hub inner circle side, with wheel hub coaxial setting, with wheel hub connects, turbine drive arrangement central point puts, and coaxial turbine drive fixed axle that sets up inside the turbine drive arrangement, be provided with carbon dioxide power drive system among the turbine drive arrangement, carbon dioxide that flows in carbon dioxide power drive system's the runner through absorbing external heat, the physical form of circulation change carbon dioxide, produced pressure differential promotes turbine drive arrangement rotates around turbine drive fixed axle, thereby drives wheel hub, and tire body synchronous operation.
Furthermore, the inside honeycomb structure that shows of tire body constitutes the honeycomb structure material is graphite alkene, or carbon nanotube, the independent closed gap that forms between the honeycomb structure, be full of nitrogen gas between every independent closed gap, nitrogen gas pressure is 0.2 ~ 0.28 MPa.
Adopt material graphite alkene, or carbon nanotube's honeycomb structure, the inside fills nitrogen gas, can reach and improve tire strength, leak protection, and in the driving process, can not lead to tire pressure to take place too big change owing to great temperature change rate, influence the effect that the tire normally used.
Further, the turbine driving device comprises a 1 st gas storage layer, a turbine, a 2 nd gas storage layer and a gas compressor, wherein the gas compressor is of a centrifugal compression structure, the 1 st gas storage layer, the 2 nd gas storage layer and the gas compressor are sequentially sealed and fixedly arranged from outside to inside along the inner side direction of the hub, the turbine is arranged in the 2 nd gas storage layer, the 1 st gas storage layer is communicated with the 2 nd gas storage layer through a nozzle, the 2 nd gas storage layer is communicated with a gas suction port of the gas compressor, the injection direction of the nozzle is vertical to the direction of a turbine blade fixedly arranged on the outer side of the turbine, and supercritical carbon dioxide or liquid carbon dioxide stored in the 1 st gas storage layer is injected through the nozzle with adjustable injection pressure, expands into the 2 nd gas storage layer and turns into a gas state to push the turbine to rotate around a turbine driving fixing shaft, the carbon dioxide enters the compressor through the air suction port of the compressor, the pressure is gradually increased through the compression of the compressor, and finally the carbon dioxide flows out through the air exhaust port of the compressor, enters the 1 st gas storage layer communicated with the air exhaust port of the compressor, is changed into supercritical carbon dioxide or liquid carbon dioxide, is stored in the 1 st gas storage layer and is recycled; the turbine driving device is made of carbon fiber materials or metal alloy materials.
The turbine driving device is made of carbon fiber materials or metal alloy materials, so that the weight of the turbine driving device can be reduced under the condition of ensuring the strength, and the energy-saving effect is achieved.
Further, the wheel hub surface has evenly opened and has the earial drainage through-hole, the 1 st gas storage layer surface is provided with the relief valve, relief valve and 1 st gas storage layer intercommunication, the carbon dioxide that the relief valve was let out, accessible the earial drainage through-hole flow direction the tire body, wheel hub comprises carbon fiber material, perhaps metal alloy material.
The pressure release valve and the discharge through hole are arranged, the carbon dioxide fire extinguishing characteristic is utilized, when the tire is on fire, the tire is discharged through the pressure release valve, and the tire can quickly extinguish fire through discharge and flowing to a firing point, so that property loss is reduced, and the life safety of drivers and passengers is ensured.
Meanwhile, nitrogen filled between the honeycomb structures also has the fire extinguishing characteristic, and can extinguish fire with the carbon dioxide towards the tire on fire simultaneously, so that the effect of greatly improving the fire extinguishing efficiency of the tire can be achieved.
In addition, nitrogen gas and carbon dioxide are put out a fire, can set up in order from beginning to end, and when the tire catches fire not too big, the relief valve does not have the action, can put out a fire through nitrogen gas earlier, if the intensity of a fire can not be controlled, then carbon dioxide is let out to rethread relief valve, and nitrogen gas is one, and the mixture is put out a fire, through the precedence order mode, also can reach the effect of practicing thrift carbon dioxide, extension tire life.
The power generation and energy storage device and the motor can rotate around the turbine driving fixed shaft, and the power generation and energy storage device can obtain electric power through the rotation of the turbine driving device.
The power generation and energy storage device and the motor are additionally arranged, and the power generation and energy storage device is additionally used for storing power in normal use, so that the effect that when the automobile runs and power is insufficient, the motor is supplied with power through the energy storage device, and the power is insufficient can be achieved.
Furthermore, the power generation and energy storage device comprises a power generation device and an energy storage device, the power generation device and the energy storage device are integrally arranged, and the electric energy generated by the power generation device is stored in the energy storage device.
The integrated arrangement can enable the power generation and energy storage device to achieve the effect of more compact structure.
Furthermore, a connector is arranged between the inner surface of the hub and the turbine driving device, the connector can be used for connecting the hub and the turbine driving device according to the use condition of the tire, and the turbine driving device rotates around the turbine driving fixed shaft to drive the hub and the tire body to synchronously rotate; or the connection between the hub and the turbine driving device is disconnected, and the turbine driving device idles around the turbine driving fixed shaft, so that the power generation and energy storage device only obtains power storage.
The connector is arranged, when the automobile stops, the connector is disconnected, so that the turbine driving device rotates around the turbine driving fixing shaft in an idle mode, the effect that heat absorbed by the carried tire can be achieved, and the effect of recycling can be continued is achieved.
Furthermore, a capillary heat pipe is further arranged, a heat release end of the capillary heat pipe is arranged in the first airtight space of the gas storage layer 1, a heat absorption end of the capillary heat pipe is arranged in the energy storage device, a heat insulation capillary pipe section is arranged between the heat release end and the heat absorption end of the capillary heat pipe, the capillary heat pipe is made of high polymer materials, and the working medium flowing in the capillary heat pipe is nitrogen.
The capillary heat pipe is arranged, so that the reliability of the energy storage device can be improved, the damage caused by heating is reduced, and meanwhile, the heat productivity is recovered.
The invention also provides a method for self-driving a tire, comprising the following steps:
firstly, heat generated by friction between a tire and the ground is directly transferred to a 1 st gas storage layer through the edges of a honeycomb structure formed by graphene or carbon nanotube materials, and supercritical carbon dioxide or liquid carbon dioxide stored in the 1 st gas storage layer is heated;
secondly, the pressure of the supercritical carbon dioxide or liquid carbon dioxide absorbing heat is increased, and the stored high-pressure working medium is sprayed out through the nozzle, expanded and sprayed to the turbine blade at a high speed to push the turbine to rotate around the turbine driving fixed shaft, so that the tire obtains power to drive the tire to rotate;
thirdly, carbon dioxide sprayed to turbine blades pushes the turbine to rotate around a turbine driving fixing shaft, the pressure is reduced and gasified, the carbon dioxide enters the compressor through the air suction port of the compressor, the pressure is gradually increased through centrifugal compression of the compressor, the carbon dioxide finally flows out through the air exhaust port of the compressor, enters the 1 st air storage layer communicated with the air exhaust port of the compressor, is changed into supercritical carbon dioxide or liquid carbon dioxide, and is stored in the 1 st air storage layer for recycling;
during the use, the power generation and energy storage device can obtain electric power through the rotation of the turbine driving device and store the part of electric power, and when the carbon dioxide driven tire is insufficient in power due to insufficient heat supply at night or on a cloudy day, the stored part of electric power can supplement the shortage by providing the power generated by the electric power to the motor, so that the full-weather and sufficient power of the tire is ensured;
when the tire is stopped, in order to continuously absorb the heat of the tire, the connection between the hub and the turbine driving device is disconnected through a connector arranged between the inner surface of the hub and the turbine driving device, and the turbine driving device idles around the turbine driving fixed shaft, so that only the power generation and energy storage device continuously obtains power storage.
Further, the self-driven tire using the method of claim 10, wherein a fixed shaft of the vehicle is coaxially and fixedly connected to the fixed shaft of the turbine, the vehicle is driven to run by the self-rotation of the tire, and the insufficient part is supplemented by a power battery arranged on the vehicle.
Compared with the prior art, according to the technical scheme, the turbine driving device and the carbon dioxide power system are arranged on the automobile tire, carbon dioxide flowing in a flow channel of the turbine driving device absorbs external heat by utilizing the heat absorption characteristic of the carbon dioxide, the physical form of the carbon dioxide is changed, and the turbine is driven to rotate around the turbine driving fixed shaft by pressure difference generated in phase change, so that the tire is directly driven to run, on one hand, the transmission of engine power to the tire through the transmission device is avoided, the tire rotates, the tire driving efficiency is greatly improved, and the energy is saved and the environment is protected; the driving power generated in the second aspect is greatly improved compared with the driving power provided by the self-generating tire for power generation; in the third aspect, the carbon dioxide and the nitrogen can be used as fire extinguishing working media, so that the carbon dioxide and the nitrogen stored in the tire can play a good fire extinguishing effect when the tire is on fire.
Drawings
Fig. 1 is a schematic diagram of the structure of the present invention.
Fig. 2 is a partially enlarged view of the drain hole and the relief valve.
Fig. 3 is a driving operation schematic diagram of the present invention.
In the figure, 1-a tire body, 11-grooves, 12-bulges, 13-honeycombs, 14-nitrogen, 2-capillary heat pipes, 21-a heat release end, 22-an adiabatic capillary, 23-a heat absorption end, 3-a wheel hub, 31-an outer ring, 32-a discharge through hole, 4-a connector, 41-a pressure release valve, 5-a turbine driving device, 51-a 1 st air accumulation layer, 52-a turbine, 521-a compressor air suction port, 522-a turbine blade, 523-a turbine shell,
524-nozzle, 53-compressor, 531-compressor exhaust port, 532-compressor diffusion section, 533-compressor centrifugal flow channel, 54-2 nd gas storage layer, 55-turbine driving fixed shaft, 6-power generation and energy storage device, 61-power generation device, 62-energy storage device, 7-motor, 8-ground and 9-automobile.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
As shown in figure 1, the self-driven tire comprises a tire body 1, a wheel hub 3 and a
The external heat includes heat generated by the friction between the tire and the
In order to improve the strength and the leakage resistance of the tire and avoid the problem that the normal use of the tire is affected due to too large change of the tire pressure caused by a large temperature change rate in the running process, preferably, the honeycomb 13 structure is arranged inside the tire body 1, the honeycomb 13 structure is made of graphene or carbon nano tubes, independent closed gaps are formed among the honeycombs 13,
The spaces of the closed honeycombs 13 are filled with
The components forming the
The 1 st
The temperature and pressure of the supercritical carbon dioxide or liquid carbon dioxide stored in the 1 st
The passage through which the carbon dioxide flows in the
The centrifugal force generated by the
The carbon dioxide entering the
In order to prevent the backflow of the carbon dioxide, the air compressor
In order to improve the strength of the tire, the materials of the hub 3 and the
In order to solve the possible fire of the tire during the use process and reduce the life and property loss problem of the vehicle 9 using the tire caused by the fire, it is preferable to uniformly open the vent holes 32 on the surface of the hub 3, that is, on the circumferential surface of the outer ring 31, and to provide the relief valve 41 on the outer surface of the 1 st
Meanwhile, the
the carbon dioxide and the
In order to solve the problem of insufficient power possibly occurring in the running process of an automobile 9 carrying the tire of the invention, the automobile is preferably further provided with a power generation and
the power generation and
The power generation and
In order to solve the problem of recycling heat continuously absorbed by the carried tire when the automobile 9 stops, preferably, a connector 4 is further arranged between the inner surface of the hub 3 and the
when the automobile stops running, at the moment, the connector 4 is disconnected between the hub 3 and the
The connector 4 may take the form of a conventional coupling arrangement, such as a clutch-type coupling, by mechanically or electronically controlling the opening and closing of the connector 4.
In order to improve the reliability of the energy storage device, reduce the damage caused by heat generation and recover the heat generation amount, it is preferable that the
The
In order to solve the problem that the tire firmly grips the
The driving working principle diagram of the invention is shown in figure 3, and the invention also provides a method for driving the tire, which comprises the following steps:
firstly, heat generated by friction between the tire and the
secondly, the pressure of the supercritical carbon dioxide or liquid carbon dioxide absorbing heat is increased, the stored high-pressure working medium is sprayed out through the
thirdly, after the carbon dioxide sprayed to the turbine blades 522 pushes the
during the use process, the power generation and
when the tire is stopped, in order to continuously absorb the heat of the tire, the connection between the hub 3 and the
the motor 7 can rotate in the forward and reverse directions, when the tire needs to be braked, the motor 7 and the
when the tire needs to be reversed and the automobile 9 carrying the tire needs to be reversed, the driving power can be provided by the motor 7 rotating in the reverse direction, and the
When the automobile 9 needs to turn, the turning can be realized only by controlling different rotating speeds of tires on two sides of the
The invention also provides an automobile 9, wherein the automobile fixing shaft is coaxially and fixedly connected to the
For a fuel powered vehicle, the engine may be replenished by first charging a power battery provided on the vehicle 9.
For the electric automobile, the power battery arranged on the automobile 9 can be firstly charged by an external power supply and then is supplemented.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the embodiment of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
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