CN108705903B - Intelligent automobile wheel system based on environmental purification - Google Patents

Abstract

An intelligent automobile wheel system based on environmental purification comprises an automobile tire, a purification device, a sealing device, a planting device, an identification device, a light supplementing device, a positioning device, a wireless device and a processing device, wherein the automobile tire comprises a tire area, a wheel rim, a planting area, a driving hydraulic pump, a driving hydraulic rod and a rotating shaft, the purification device comprises a nutrient layer, a planting layer and a fixed layer, the sealing device comprises a sealing hydraulic pump, a sealing hydraulic rod, a sealing motor and a rotating telescopic baffle, the planting device comprises a seed storage layer, a seed guide pipe, a seed spray nozzle, a nutrient guide pipe and a nutrient spray nozzle, the identification device comprises a first camera, a second camera, a light intensity detector and a humidity sensor, the light supplementing device comprises a light supplementing frame, a transparent baffle and a plant light supplementing lamp, and the positioning device is arranged in the wheel rim, the wireless device is arranged in the processing device, and the processing device is arranged in the wheel rim.

Description

Intelligent automobile wheel system based on environmental purification

Technical Field

The invention relates to the field of environmental purification, in particular to an intelligent automobile wheel system based on environmental purification.

Background

The production of automobile rubber tires has been in the past for hundreds of years, and the automobile tires generally used in the world at present mainly take radial rubber tires as main bodies, and the structures of the radial rubber tires are as follows: "hollow inner inflation tire", in the end of 20 th century, the old and useless rubber tire is used for retreading and manufacturing green tire, consequently because some old and useless tire can be retreaded, some old and useless tire can not be retreaded, the retreaded old tire still produces the old and useless tire after several retreading, causes "black pollution", in the world, recently, more than 4 hundred million tires cause "black pollution" to the earth environment each year, cause the great harm to the society, cause the direct harm to people's quality of life.

However, how to combine together plant and automobile tire for can carry out the carbon dioxide among the photosynthesis air-purifying through the plant of inside planting in real time when the auto wheel is on the market, pass through ponding road surface and for the inside plant supply moisture of wheel and grind to the powder and print through 3D and reuse after the wheel rim abandonment simultaneously when using, reduce the problem that the harm to the environment is at present urgently need to be solved.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides an intelligent automobile wheel system based on environmental purification, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent automobile wheel system based on environmental purification comprises an automobile tire, a purification device, a sealing device, a planting device, an identification device, a light supplementing device, a positioning device, a wireless device and a processing device, wherein the automobile tire comprises a tire area, a wheel rim, a planting area, a driving hydraulic pump, a driving hydraulic rod and a rotating shaft, and the tire area is arranged on the periphery of the wheel rim and used for being in contact with a road surface to improve the traction, braking and trafficability of the automobile; the wheel rim is connected with the automobile and adopts a 3D printing technology; the planting area is arranged at the side position of a wheel rim and used for providing plant planting; the driving hydraulic pump is arranged at the inner position of the wheel rim, is connected with the driving hydraulic rod and is used for driving the driving hydraulic rod connected with the driving hydraulic pump to stretch; the driving hydraulic rod is arranged in the inner position of a wheel rim, is respectively connected with the rotating shaft and the driving hydraulic pump, and is used for driving the connected rotating shaft to stretch; the rotating shaft is arranged at the front end of the driving hydraulic rod, is respectively connected with the driving hydraulic rod and the planting area, and is used for driving the connected planting area to rotate; the purification device comprises a nutrient layer, a planting layer and a fixing layer, wherein the nutrient layer is arranged around a planting area of a wheel rim and used for storing liquid for supplying nutrients and water to plants; the planting layer is arranged on the surface position above the nutrient layer and is provided with a plurality of planting holes for placing plants planted in a planting area; the fixing layer is arranged on the outer surface of the planting layer and coated with an antirust material and used for fixing plants in the planting layer; the closed hydraulic pump is arranged at the position of the planting area, is respectively connected with the planting area and the closed hydraulic rod, and is used for driving the connected closed hydraulic rod to stretch; the closed hydraulic rod is arranged in the middle of the planting area, is respectively connected with the rotary telescopic baffle and the closed hydraulic pump, and is used for driving the connected rotary telescopic baffle to stretch; the closed motor is arranged in the closed hydraulic rod, is respectively connected with the closed hydraulic rod and the rotary telescopic baffle, and is used for driving the connected rotary telescopic baffle to be rotationally expanded to be consistent with the inner peripheral diameter of the wheel rim; the rotary telescopic baffle is arranged at the front end of the closed hydraulic rod and is respectively connected with the closed hydraulic rod and the closed motor, and the rotary telescopic baffle is used for sealing the planting area after being rotationally extended and unfolded; the planting device comprises a seed storage layer, a seed guide pipe, a seed spray head, a nutrient guide pipe and a nutrient spray head, wherein the seed storage layer is arranged at the position below the nutrient layer and used for storing plant seeds planted in a planting area; the seed guide pipe is arranged at the inner position of the planting area, is respectively connected with the seed storage layer and the seed spray head, and is used for sucking seeds in the seed storage bin into the seed spray head; the seed spray head is arranged at the position of the planting area, is connected with the seed guide pipe and is used for spraying seeds in the seed storage layer to the specified position of the planting layer through the seed guide pipe; the nutrient guide pipe is arranged in the planting area, is respectively connected with the nutrient layer and the nutrient spray head, and is used for absorbing liquid which is used for supplementing nutrients and water for plants in the nutrient layer into the nutrient spray head; the nutrient spray head is arranged at the position of the planting area, is connected with the nutrient conduit and is used for spraying liquid which is used for supplementing nutrients and water for plants in the nutrient layer to the planting layer through the nutrient conduit; the identification device comprises a first camera, a second camera, an illumination intensity detector and a humidity sensor, wherein the first camera is arranged at the position of the planting area and used for shooting an environment image of the planting area; the second camera is arranged at the outer surface of the rotary telescopic baffle, and the outer surface of the second camera and the surface of the rotary telescopic baffle keep the same horizontal plane and are used for shooting an external environment image of the rotary telescopic baffle; the illumination intensity detector is arranged at the outer surface of the rotary telescopic baffle, and the outer surface of the illumination intensity detector and the surface of the rotary telescopic baffle keep the same horizontal plane and are used for acquiring the external illumination intensity information of the rotary telescopic baffle; the humidity sensor is arranged at the position of the planting area and used for acquiring humidity information of the planting area in real time; the light supplementing device comprises a light supplementing frame, a transparent baffle and a plant light supplementing lamp, wherein the light supplementing frame is arranged at the inner surface of the rotary telescopic baffle and used for placing the plant light supplementing lamp; the transparent baffle is arranged at the outer surface of the light supplementing frame, and the outer surface of the transparent baffle and the outer surface of the light supplementing frame keep the same horizontal plane and are used for blocking dust and liquid; the plant light supplement lamp is arranged in the light supplement frame and used for emitting light to replace sunlight to provide plants for photosynthesis; the positioning device is arranged at the inner position of the wheel rim and used for positioning the position of the automobile tire and acquiring positioning data of the corresponding position; the wireless device is arranged in the processing device and is respectively connected with the external equipment of the automobile tire user, the first-aid center, the alarm center and the network; the processing device is arranged in the inner position of the wheel rim and used for being connected with the driving hydraulic pump, the rotating shaft, the closed hydraulic pump, the closed motor, the seed guide pipe, the seed spray head, the nutrient guide pipe, the nutrient spray head, the first camera, the second camera, the illumination intensity detector, the humidity sensor, the plant light supplementing lamp, the positioning device and the wireless device respectively and executing specified operation.

In a preferred embodiment of the present invention, the vehicle wheel further includes a rotary generator, which is disposed at a position where the vehicle tire is connected to the vehicle, is connected to the vehicle internal storage battery, and generates power when the vehicle tire rotates, and stores the generated power in the vehicle internal storage battery.

As a preferable mode of the present invention, the closing means further comprises a mesh isolation layer disposed at an outer surface position of the planting area and connected to an inner circumference of a rim of the wheel for preventing an object from entering the planting area.

As a preferred mode of the invention, the device further comprises a fixing device, wherein the fixing device comprises a planting fixing buckle, a seed fixing buckle and a nutrient fixing buckle, the planting fixing buckles are provided with a plurality of buckles, are arranged at the connecting positions of the planting area and the wheel rim, are connected with the processing device, and are used for fixing the planting area at the position of the wheel rim; the seed fixing buckles are arranged at the connecting positions of the seed storage layer and the wheel rim, are connected with the processing device and are used for fixing the seed storage layer at the position of the wheel rim; the nutrient fixing buckles are provided with a plurality of nutrient layers, are arranged at the connecting positions of the nutrient layers and the seed storage layer, are connected with the processing device and are used for fixing the nutrient layers at the outer surface positions of the seed storage layer.

As a preferred mode of the invention, the fixing device further comprises a plurality of plant fixing buckles, a light supplementing fixing buckle and an isolating fixing buckle, wherein the plant fixing buckles are arranged at the positions of the fixing layer facing the planting area and connected with the processing device and are used for fixing the fixing layer and the wheel rim; the light supplement fixing buckles are provided with a plurality of light supplement fixing buckles, are arranged at the connecting positions of the transparent baffle and the light supplement frame, are connected with the processing device and are used for fixing the transparent baffle at the position of the light supplement frame; the isolation fixing buckles are provided with a plurality of mesh isolation layers, are arranged at the connection positions of the mesh isolation layers and the wheel rims and are connected with the processing device, and are used for fixing the mesh isolation layers at the positions of the wheel rims.

As a preferred mode of the invention, the purification device further comprises a nutrient motor and a nutrient supply port, wherein the nutrient motor is arranged at the inner position of the nutrient layer and is respectively connected with the treatment device and the nutrient supply port, and the nutrient motor adopts a waterproof design and is used for driving the connected nutrient supply port to stretch; the nutrient supply port is internally provided with a one-way valve, is arranged at the outer position of the nutrient layer and is connected with the nutrient motor, and is used for supplying liquid which is stored in the nutrient layer and is used for supplying nutrients and water to plants.

As a preferable mode of the present invention, the planting device further comprises a seed motor and a seed replenishment port, wherein the seed motor is disposed in the seed storage layer, and is connected to the processing device and the seed replenishment port, respectively, for driving the connected planting replenishment port to extend and retract; the seed replenishing port is internally provided with a one-way valve, is arranged at the outer position of the seed storage layer and is connected with a seed motor, and is used for replenishing the plant seeds which are stored in the seed storage layer and planted in the planting area for a user.

In a preferred aspect of the present invention, the purification device includes a micro vacuum pump which is provided at a position lateral to the wheel rim and connected to the processing device, and which has a front end surface that is flush with a lateral surface of the wheel rim to suck the outside air into the planting area.

In a preferred embodiment of the present invention, the planting device further comprises a heating device disposed at a side position of the driving hydraulic pump and connected to the processing device, for heating the planting area to a predetermined temperature.

As a preferable mode of the present invention, the identification device further includes a temperature sensor, and the temperature sensor is disposed at an internal position of the planting area, connected to the processing device, and configured to acquire temperature information of the planting area.

The invention realizes the following beneficial effects:

1. after intelligent auto wheel system starts, the planting condition on real-time detection planting layer, plant regional humidity information, car stop information and outside illumination intensity information, if it lacks the region then control the seed shower nozzle and spray the plant seed to lacking the planting downthehole in region to detect planting layer has the plant, if it is less than preset humidity then control the nutrient shower nozzle and will provide the liquid that plant supplyed nutrient and moisture and spray to planting the region to detect planting regional humidity information, if it stretches out real-time towards the high region of illumination intensity to detect the car long time stop then control planting region, if it is less than preset illumination intensity then will plant the region and seal and control the plant light filling lamp and open to detect outside illumination intensity information.

2. The intelligent automobile wheel system can control the fixing device to fix the planting area, the seed storage layer, the nutrient layer, the fixing layer and the mesh isolation layer at the corresponding positions of the automobile tire and fix the transparent baffle at the position of the light supplementing frame.

3. After the intelligent automobile wheel system is started, the micro vacuum pump is controlled to suck air around an automobile tire in real time, meanwhile, temperature information of a planting area is obtained in real time, and if the temperature of the planting area is analyzed to be lower than a preset temperature, the heating device is controlled to heat the planting area to a default temperature.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure. FIG. 1 is a schematic front view of a wheel tire of an intelligent automotive wheel system provided in accordance with one example of the present invention;

FIG. 2 is a schematic side cross-sectional view of a wheel and tire of an intelligent automotive wheel system according to one example of the present invention;

FIG. 3 is a schematic cross-sectional side view of a seed replenishment port of an intelligent automotive wheel system according to one embodiment of the present invention;

FIG. 4 is a schematic cross-sectional side view of a nutrient supply port of an intelligent automotive wheel system provided in accordance with one example of the present invention;

FIG. 5 is a schematic cross-sectional view of a connection of a seed spray head of an intelligent vehicle wheel system according to an example of the present invention;

FIG. 6 is a schematic cross-sectional view of a nutrient spray head connection of an intelligent vehicle wheel system according to an example of the present invention;

fig. 7 is a schematic side cross-sectional view of a light supplement frame of an intelligent vehicle wheel system according to an example of the present invention;

fig. 8 is an electronic connection diagram of an intelligent vehicle wheel system according to an example of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1-6, fig. 1 is a schematic front view of a wheel tire of an intelligent automotive wheel system according to one example of the present invention; FIG. 2 is a schematic side cross-sectional view of a wheel and tire of an intelligent automotive wheel system according to one example of the present invention; FIG. 3 is a schematic cross-sectional side view of a seed replenishment port of an intelligent automotive wheel system according to one embodiment of the present invention; FIG. 4 is a schematic cross-sectional side view of a nutrient supply port of an intelligent automotive wheel system provided in accordance with one example of the present invention; FIG. 5 is a schematic cross-sectional view of a connection of a seed spray head of an intelligent vehicle wheel system according to an example of the present invention; FIG. 6 is a schematic cross-sectional view of a nutrient spray head connection of an intelligent vehicle wheel system according to an example of the present invention; fig. 7 is a schematic side cross-sectional view of a light supplement frame of an intelligent vehicle wheel system according to an example of the present invention; fig. 8 is an electronic connection diagram of an intelligent vehicle wheel system according to an example of the present invention.

Specifically, the embodiment provides an intelligent automobile wheel system based on environmental purification, which comprises an automobile tire 1, a purification device 2, a sealing device 3, a planting device 4, an identification device 5, a light supplementing device 6, a positioning device 7, a wireless device 8 and a processing device 9, wherein the automobile tire 1 comprises a tire area 11, a wheel rim 12, a planting area 13, a driving hydraulic pump 14, a driving hydraulic rod 15 and a rotating shaft 16, and the tire area 11 is arranged on the periphery of the wheel rim 12 and used for being in contact with a road surface to improve the traction, braking and trafficability of an automobile; the wheel rim 12 is connected with an automobile and adopts a 3D printing technology; the planting area 13 is arranged at the side position of the wheel rim 12 and used for providing plant planting; the driving hydraulic pump 14 is arranged at the inner position of the wheel rim 12, is connected with a driving hydraulic rod 15, and is used for driving the driving hydraulic rod 15 connected with the driving hydraulic rod to stretch; the driving hydraulic rod 15 is arranged at the inner position of the wheel rim 12, is respectively connected with the rotating shaft 16 and the driving hydraulic pump 14, and is used for driving the connected rotating shaft 16 to extend and contract; the rotating shaft 16 is arranged at the front end of the driving hydraulic rod 15, is respectively connected with the driving hydraulic rod 15 and the planting area 13, and is used for driving the connected planting area 13 to rotate; the purification device 2 comprises a nutrient layer 20, a planting layer 21 and a fixing layer 22, wherein the nutrient layer 20 is arranged around the planting area 13 of the wheel rim 12 and is used for storing liquid for supplying plant supplementary nutrients and moisture; the planting layer 21 is arranged on the surface position above the nutrition layer 20 and is provided with a plurality of planting holes for placing plants planted in the planting area 13; the fixed layer 22 is arranged on the outer surface of the planting layer 21 and coated with an antirust material and used for fixing plants in the planting layer 21; the sealing device 3 comprises a sealing hydraulic pump 30, a sealing hydraulic rod 31, a sealing motor 32 and a rotary telescopic baffle 33, wherein the sealing hydraulic pump 30 is arranged at the position of the planting area 13, is respectively connected with the planting area 13 and the sealing hydraulic rod 31, and is used for driving the connected sealing hydraulic rod 31 to stretch; the closed hydraulic rod 31 is arranged in the middle of the planting area 13, is respectively connected with the rotary telescopic baffle 33 and the closed hydraulic pump 30, and is used for driving the connected rotary telescopic baffle 33 to stretch; the closed motor 32 is arranged in the closed hydraulic rod 31, is respectively connected with the closed hydraulic rod 31 and the rotary telescopic baffle 33, and is used for driving the connected rotary telescopic baffle 33 to be rotatably unfolded to be consistent with the inner peripheral diameter of the wheel rim 12; the rotary telescopic baffle 33 is arranged at the front end of the closed hydraulic rod 31, is respectively connected with the closed hydraulic rod 31 and the closed motor 32, and is used for closing the planting area 13 after being rotationally extended and unfolded; the planting device 4 comprises a seed storage layer 40, a seed conduit 41, a seed spray head 42, a nutrient conduit 43 and a nutrient spray head 44, wherein the seed storage layer 40 is arranged at a position below the nutrient layer 20 and used for storing plant seeds planted in the planting area 13; the seed guide pipe 41 is arranged in the planting area 13, is respectively connected with the seed storage layer 40 and the seed spray head 42, and is used for sucking seeds in the seed storage bin into the seed spray head 42; the seed spray head 42 is arranged at the position of the planting area 13 and connected with the seed conduit 41, and is used for spraying the seeds in the seed storage layer 40 to the designated position of the planting layer 21 through the seed conduit 41; the nutrient conduit 43 is arranged at an inner position of the planting area 13, is respectively connected with the nutrient layer 20 and the nutrient spray head 44, and is used for absorbing liquid which is used for supplying plant supplementary nutrients and water in the nutrient layer 20 into the nutrient spray head 44; the nutrient spray head 44 is arranged at the position of the planting area 13 and connected with the nutrient conduit 43, and is used for spraying the liquid which is used for supplying the plant with the nutrients and the moisture in the nutrient layer 20 to the planting layer 21 through the nutrient conduit 43; the identification device 5 comprises a first camera 50, a second camera 51, an illumination intensity detector 52 and a humidity sensor 53, wherein the first camera 50 is arranged at the position of the planting area 13 and is used for shooting an environmental image of the planting area 13; the second camera 51 is arranged at the outer surface of the rotary telescopic baffle 33, and the outer surface of the second camera 51 and the surface of the rotary telescopic baffle 33 keep the same horizontal plane and are used for shooting an image of the external environment of the rotary telescopic baffle 33; the illumination intensity detector 52 is arranged at the outer surface of the rotary telescopic baffle 33, and the outer surface of the illumination intensity detector 52 and the surface of the rotary telescopic baffle 33 keep the same horizontal plane and are used for acquiring the external illumination intensity information of the rotary telescopic baffle 33; the humidity sensor 53 is arranged at the position of the planting area 13 and is used for acquiring humidity information of the planting area 13 in real time; the light supplementing device 6 comprises a light supplementing frame 60, a transparent baffle 61 and a plant light supplementing lamp 62, wherein the light supplementing frame 60 is arranged on the inner surface of the rotary telescopic baffle 33 and used for placing the plant light supplementing lamp 62; the transparent baffle 61 is arranged at the outer surface of the light supplementing frame 60, and the outer surface of the transparent baffle 61 and the outer surface of the light supplementing frame 60 keep the same horizontal plane and are used for blocking dust and liquid; the plant light supplement lamp 62 is arranged in the light supplement frame 60 and used for emitting light to replace sunlight to provide photosynthesis for plants; the positioning device 7 is arranged at an inner position of the wheel rim 12 and is used for positioning the position of the automobile tire 1 and acquiring positioning data of the corresponding position; the wireless device 8 is arranged in the processing device 9 and is respectively connected with the external equipment of the automobile tire user, the emergency center, the alarm center and the network; the processing device 9 is disposed inside the wheel rim 12, and is configured to be connected to the driving hydraulic pump 14, the rotating shaft 16, the closed hydraulic pump 30, the closed motor 32, the seed guide pipe 41, the seed nozzle 42, the nutrient guide pipe 43, the nutrient nozzle 44, the first camera 50, the second camera 51, the illumination intensity detector 52, the humidity sensor 53, the plant light supplement lamp 62, the positioning device 7, and the wireless device 8, and perform a designated operation.

In a preferred embodiment of the present invention, the vehicle wheel further includes a rotary generator 17, and the rotary generator 17 is disposed at a position where the vehicle tire 1 is connected to the vehicle, is connected to a vehicle internal battery, and generates electricity when the vehicle tire 1 rotates, and stores the generated electricity in the vehicle internal battery.

As a preferred mode of the present invention, the closing means 3 further comprises a mesh isolation layer 34, the mesh isolation layer 34 is disposed at a position of an outer surface of the planting region 13 and connected with an inner circumference of the wheel rim 12 for preventing an object from entering the planting region 13.

After executing the completion instruction, the electronic device in the intelligent automobile wheel system returns corresponding instruction completion information to the processing device 9; the automobile wheels adopt a 3D printing technology, the automobile wheels are recycled and ground into powder after being discarded, and then the grinding powder is used for 3D printing through a 3D printer for recycling, so that the environment damage caused by the discarded automobile wheels is avoided; plants planted in the planting area 13 include but are not limited to moss, and if the plants are moss, spores of the moss are stored in the seed storage layer 40; after the intelligent automobile wheel system is installed on the automobile, when the automobile passes through the water accumulation area, the automobile tire 1 can absorb accumulated water in the water accumulation area to the planting area 13 so as to water plants planted inside; seed supply mouth 46 divide into first telescopic link, first pipe and second pipe, and first telescopic link is connected with seed motor 45 and first pipe respectively, first pipe sets up in first telescopic link front end, the second pipe sets up in first pipe side and communicates perpendicularly with first pipe, nutrient supply mouth 24 divide into second telescopic link, third pipe and fourth pipe, the second telescopic link respectively with nutrient motor 23 and third pipe connection, the third pipe sets up in second telescopic link front end, the fourth pipe sets up in third pipe side and communicates perpendicularly with the third pipe.

Specifically, after the intelligent automobile wheel system is started, the processing device 9 sends a real-time shooting instruction to the first camera 50 arranged in the planting area 13, sends a real-time detection instruction to the humidity sensor 53 arranged in the planting area 13, and sends a real-time shooting instruction to the second camera 51 arranged on the outer surface of the rotary telescopic baffle 33, the first camera 50 arranged in the planting area 13 receives a real-time shooting first image (the first image refers to an environmental image of the planting area 13 where the first camera 50 shoots), and returns the real-time shooting first image to the processing device 9 in real time, the humidity sensor 53 arranged in the planting area 13 receives humidity information of the planting area 13 where the first camera 50 locates, and returns the real-time obtained humidity information to the processing device 9 in real time, and the second camera 51 arranged on the outer surface of the rotary telescopic baffle 33 receives a real-time shooting second image (the second image) Like the environmental image outside the rotating telescopic baffle 33 where the second camera 51 is located) and returns the second image captured in real time to the processing device 9, the processing device 9 receives the first image and analyzes whether the plant lacking area exists on the planting layer 21 in real time, if so, the processing device 9 sends a seed suction instruction to a planting conduit arranged inside the planting area 13 and sends the first image and a seed spraying instruction to a seed spraying head 42 arranged inside the planting area 13, the planting conduit arranged inside the planting area 13 receives the first image and controls the planting conduit to suck the seeds in the connected planting storage layer and guide the sucked seeds into the seed spraying head 42, the seed spraying head 42 arranged inside the planting area 13 receives the first image and controls the seeds guided by the seed suction pipe to be sprayed into a planting hole of the plant lacking area on the planting layer 21 according to the first image, that is, it is ensured that plants exist in the planting area 13 in real time, and at the same time, after the processing device 9 receives the real-time humidity information sent by the humidity sensor 53, the processing device 9 analyzes in real time whether the humidity of the planting area 13 is lower than a preset humidity (the preset humidity refers to an air relative humidity of 60% -90%, and in this embodiment, the air relative humidity is 80%), if the humidity is lower than the air relative humidity of 80%, the processing device 9 sends a nutrient intake instruction to the nutrient conduit 43 arranged in the planting area 13 and sends a first image and a nutrient spraying instruction to the nutrient spray nozzle 44 arranged in the planting area 13, the nutrient conduit 43 arranged in the planting area 13 receives the liquid for supplying the plant with nutrients and moisture stored in the connected nutrient layer 20, and the nutrient spray nozzle 44 arranged in the planting area 13 receives the liquid for controlling the supplying species in the nutrient conduit 43 to be connected according to the first image The liquid for supplementing nutrients and moisture to the plants is sprayed to the planting area 13, that is, the liquid for supplementing nutrients and moisture to the plants is sprayed when the relative humidity of the air in the planting area 13 is lower than 80%, so as to ensure the growth of the plants in real time, meanwhile, after the processing device 9 receives the second image captured by the second camera 51 in real time, the processing device 9 analyzes whether the automobile connected with the automobile tire 1 in which the automobile is located is stopped in real time according to the second image, if so, the processing device 9 sends an illumination intensity real-time detection instruction to the illumination intensity detector 52 on the outer surface of the rotary telescopic baffle 33, the illumination intensity detector 52 on the outer surface of the rotary telescopic baffle 33 receives the illumination intensity information, so as to obtain the illumination intensity information outside the rotary telescopic baffle 33 in real time, and return the illumination intensity information obtained in real time to the processing device 9, and the processing device 9 receives the illumination intensity information, which is used for analyzing the illumination Whether the intensity exceeds a preset illumination intensity (the preset illumination intensity is 1-1000 lux, preferably 100 lux in the embodiment) or not, if so, the processing device 9 sends parking acquisition information to the automobile tire user external equipment which is in a connection relation with the wireless device 8 by using the wireless device 8, the processing device 9 obtains parking information returned by the automobile tire user external equipment in real time by using the wireless device 8 and analyzes whether the automobile which needs to connect the intelligent automobile wheel system is parked for a long time (the long-time parking refers to parking for more than 1 hour) or not according to the parking information, if so, the processing device 9 sends a second image and a driving extension instruction to a driving hydraulic pump 14 in an automobile rim, and the driving hydraulic pump 14 in the automobile rim receives the driving hydraulic pump 14 which is connected according to the second image in a driving mode, the rotating shaft 16 which is connected is controlled by the driving hydraulic rod 15 which is connected in a driving mode, and the connected planting area 13 is completely extended out And after the complete extension is completed, the extension completion information is returned to the processing device 9, the processing device 9 receives the illumination intensity information, the second image and the sun tracking instruction which are detected in real time by the illumination intensity detector 52 on the surface of the rotary telescopic baffle 33 connected with the planting area 13 connected with the rotary shaft 16 and are sent to the completely extended rotary shaft 16, the completely extended rotary shaft 16 receives the illumination intensity information detected in real time by the illumination intensity detector 52 on the surface of the rotary telescopic baffle 33 connected with the planting area 13 connected with the completely extended rotary shaft 16 and the illumination intensity information which is driven by the second image and connected with the planting area 13 to face the area with high illumination intensity in real time until the automobile driving information sent by the external equipment of the automobile tire user is received (namely, the planting area 13 faces the area with high illumination intensity in real time by simulating the sunflower to perform sufficient photosynthesis), and the rotary shaft 16 restores the connected planting area 13 to the initial position, then the driving hydraulic pump 14 is driven to drive the connected driving hydraulic rod 15 to contract so as to reset the planting area 13 to the position of the rim of the vehicle; if the processing device 9 analyzes that the illumination intensity of the current rotary telescopic baffle 33 does not exceed the preset illumination intensity according to the illumination intensity information received in real time, the processing device 9 sends an extending instruction to the closed hydraulic pump 30 of the planting region 13, the closed hydraulic pump 30 of the planting region 13 receives the instruction, then the closed hydraulic rod 31 connected in a driving mode extends out to extend the connected rotary telescopic baffle 33 to keep the same horizontal plane with the outer surface of the planting region 13, and returns the closed extending completion information to the processing device 9 after the extending is completed, the processing device 9 receives the instruction, then the opening closing instruction is sent to the closed motor 32 connected with the extended rotary telescopic baffle 33, the closed motor 32 connected with the extended rotary telescopic baffle 33 receives the instruction, then the rotary telescopic baffle 33 connected in a driving mode rotates and completely opens to close the planting region 13, and the closed completion information is returned to the processing device 9 after the rotary extending is completed, when the plant light supplement device is closed, the rotary retractable baffle plate 33 can guide external air into the planting area 13 through the air holes of the rotary retractable baffle plate, the processing device 9 receives the illumination intensity information and the plant light supplement instruction which are detected by the illumination intensity detector 52 in real time and are sent to the plant light supplement lamp 62 (the plant light supplement lamp 62 comprises but is not limited to an LED lamp, a xenon lamp, a full spectrum lamp and an agricultural sodium lamp) in the light supplement frame 60 on the inner surface of the rotary retractable baffle plate 33 which is unfolded in a rotating mode, the plant light supplement lamp 62 in the light supplement frame 60 on the inner surface of the rotary retractable baffle plate 33 which is unfolded in a rotating mode controls the plant light supplement lamp to be started to supplement light for the plants in the planting area 13 until the illumination intensity information detected by the illumination intensity detector 52 in real time exceeds the preset illumination intensity, and after the illumination intensity information exceeds the preset illumination intensity, the plant light supplement lamp 62 is turned off, the closing hydraulic pump 30 is then controlled to drive the connected closing hydraulic rod to retract the connected rotating telescopic flapper 33.

As a preferred mode of the present invention, the purification device 2 further includes a nutrient motor 23 and a nutrient supplement port 24, the nutrient motor 23 is disposed inside the nutrient layer 20 and is respectively connected to the processing device 9 and the nutrient supplement port 24, and the nutrient motor 23 is designed to be waterproof and is used for driving the connected nutrient supplement port 24 to extend and retract; the nutrient supply port 24 is internally provided with a one-way valve and is arranged at the position outside the nutrient layer 20 to be connected with the nutrient motor 23, and is used for supplying liquid which is stored in the nutrient layer 20 and is used for supplying nutrients and water to plants.

Specifically, when a user desires to add a liquid to the nutrient layer 20 that provides plant supplemental nutrients and moisture, the user sends a nutrient adding instruction to the processing device 9 by using the external equipment of the automobile tire user connected with the wireless device 8, the processing device 9 receives the nutrient adding instruction and sends the nutrient adding instruction to the nutrient motor 23 in the nutrient layer 20, the nutrient motor 23 in the nutrient layer 20 receives the nutrient and drives the connected nutrient supply port 24 to be completely extended, for the user to add the liquid for supplying the plant to supplement the nutrient and the water into the nutrient layer 20, after the addition is completed, the user sends the addition completion information to the processing device 9 by using the external equipment of the automobile tire user connected with the wireless device 8, the processing device 9 sends a nutrient contraction instruction to the nutrient motor 23 in the nutrient layer 20 after receiving the nutrient contraction instruction, the nutrient motor 23 in the nutrient layer 20 receives the nutrient and drives the connected nutrient supply port 24 to be completely contracted.

As a preferred mode of the present invention, the planting device 4 further comprises a seed motor 45 and a seed supply port 46, wherein the seed motor 45 is disposed at an internal position of the seed storage layer 40, is connected to the processing device 9 and the seed supply port 46, and is used for driving the connected seed supply port to extend and retract; the seed replenishment port 46 is provided with a one-way valve inside and is arranged at a position outside the seed storage layer 40 to be connected with the seed motor 45, and is used for providing the user with replenishment of the plant seeds stored in the seed storage layer 40 and planted in the planting area 13.

Specifically, when a user desires to add plant seeds planted in a planting area to the seed storage layer 40, the user sends a seed addition instruction to the processing means 9 using a car tyre user external device connected to the wireless means 8, the processing means 9 receives and sends a seed addition instruction to the seed motor 45 in the seed storage layer 40, a seed motor 45 in the seed storage layer 40 receives and drives a connected seed replenishment port 46 fully extended, for the user to add the plant seeds planted in the planting area to the seed storage layer 40, after the addition is completed, the user sends the addition completion information to the processing device 9 by using the external equipment of the automobile tire user connected with the wireless device 8, the processing means 9 receives and sends a seed contraction command to a seed motor 45 in the seed storage layer 40, the seed motor 45 in the seed storage layer 40 receives and drives the connected seed replenishment port 46 fully retracted.

Example two

Referring to fig. 1-2, fig. 6.

The embodiment is basically the same as the first embodiment, except that the present embodiment further comprises a fixing device 10, the fixing device 10 comprises a planting fixing buckle 100, a seed fixing buckle 101 and a nutrient fixing buckle 102, the planting fixing buckle 100 is provided with a plurality of parts and is arranged at the connection position of the planting area 13 and the wheel rim 12 to be connected with the processing device 9, and the planting area 13 is fixed at the position of the wheel rim 12; the seed fixing buckles 101 are arranged at the connecting positions of the seed storage layer 40 and the wheel rim 12 and connected with the processing device 9, and are used for fixing the seed storage layer 40 at the position of the wheel rim 12; the nutrient fixing buckles 102 are arranged on the connecting positions of the nutrient layer 20 and the seed storage layer 40 and connected with the processing device 9, and are used for fixing the nutrient layer 20 on the outer surface of the seed storage layer 40.

As a preferred mode of the present invention, the fixing device 10 further includes a plant fixing buckle 103, a light supplementing fixing buckle 104, and an isolating fixing buckle 105, wherein the plant fixing buckle 103 is provided with a plurality of fixing buckles, and is disposed at a position of the fixing layer 22 facing the planting region 13 to be connected with the processing device 9, so as to fix the fixing layer 22 and the wheel rim 12; the light supplement fixing buckles 104 are arranged at the connecting positions of the transparent baffle 61 and the light supplement frame 60, are connected with the processing device 9, and are used for fixing the transparent baffle 61 at the position of the light supplement frame 60; the isolation fixing buckle 105 is provided with a plurality of mesh isolation layers 34, is connected with the processing device 9 at the connection position of the mesh isolation layers 34 and the wheel rim 12, and is used for fixing the mesh isolation layers 34 at the position of the wheel rim 12.

Specifically, when a user needs to take out one or more of the planting area 13, the seed storage layer 40, the nutrient layer 20, the fixed layer 22, the transparent baffle 61 of the light supplementing frame 60 and the mesh isolation layer 34, a corresponding taking-out instruction is sent to the processing device 9 by using an automobile tire user external device connected with the wireless device 8, if the planting area 13 needs to be taken out, the processing device 9 sends a fixing release instruction to the planting fixing buckle 100 and the seed fixing buckle 101, and the planting fixing buckle 100 and the seed fixing buckle 101 control the user to release the fixing state when receiving the fixing instruction, so that the user can take out the planting area 13; if the seed storage layer 40 needs to be taken out, the processing device 9 sends a fixation releasing instruction to the seed fixing buckle 101, and the seed fixing buckle 101 controls the fixing releasing state of the seed fixing buckle, so that a user can take out the seed storage layer 40; if the nutrient layer 20 needs to be taken out, the processing device 9 sends a fixation releasing instruction to the nutrient fixing buckle 102, and the nutrient fixing buckle 102 receives the instruction and controls the nutrient layer to release the fixation state, so that a user can take out the nutrient layer 20; if the fixing layer 22 needs to be taken out, the processing device 9 sends a fixing release instruction to the plant fixing buckle 103, and the plant fixing buckle 103 controls the fixing state to be released when receiving the fixing release instruction, so that a user can take out the fixing layer 22; if the transparent baffle 61 of the light supplement frame 60 needs to be taken out, the processing device 9 sends a fixation release instruction to the light supplement fixing buckle 104, and the light supplement fixing buckle 104 receives the fixation release instruction and controls the light supplement fixing buckle to release the fixation state, so that a user can take the transparent baffle 61 out of the light supplement frame 60; if the mesh isolation layer 34 needs to be taken out, the processing device 9 sends a fixation releasing instruction to the isolation fixing buckle 105, and the isolation fixing buckle 105 receives the fixation releasing instruction and controls the self-releasing fixing state, so that a user can take out the mesh isolation layer 34; by analogy, if a plurality of fixing clips need to be taken out, the processing device 9 sends a fixing release instruction to the associated fixing clips which need to be taken out.

EXAMPLE III

Refer to fig. 2 and 6.

The present embodiment is substantially identical to the first embodiment except that in the present embodiment, the purification apparatus 2 includes a micro vacuum pump 25, the micro vacuum pump 25 is disposed at a position lateral to the wheel rim 12 and connected to the processing apparatus 9, and a front end surface of the micro vacuum pump 25 is maintained at the same level as a lateral surface of the wheel rim 12 for sucking the outside air to the planting region 13.

The micro vacuum pump 25 is connected with an air duct and an air outlet, the air duct is arranged in the inner position of the wheel rim and is respectively connected with the micro vacuum pump 25 and the air outlet, and the air outlet is arranged in the planting area and used for guiding air in the air duct into the planting area.

Specifically, after the system of the intelligent automobile is started, the processing device 9 sends an air extraction instruction to a micro vacuum pump 25 arranged at a side position of a rim of the automobile, and the micro vacuum pump 25 arranged at the side position of the rim of the automobile controls the self-starting to extract air around the automobile tire 1 in real time and guide the extracted air into the planting area 13 after receiving the instruction, so that plants in the planting area 13 can absorb carbon dioxide and release oxygen.

In a preferred embodiment of the present invention, the planting device 4 further comprises a heating device 47, and the heating device 47 is disposed at a position lateral to the driving hydraulic pump 14, connected to the processing device 9, and configured to heat the planting region 13 to a predetermined temperature.

In a preferred embodiment of the present invention, the identification device 5 further comprises a temperature sensor 54, and the temperature sensor 54 is disposed at an internal position of the planting area 13, connected to the processing device 9, and configured to acquire temperature information of the planting area 13.

Specifically, after the intelligent automobile vehicle system is started, the processing device 9 sends a real-time temperature detection instruction to the temperature sensor 54 of the planting area 13, the temperature sensor 54 of the planting area 13 receives the real-time temperature information of the environment inside the planting area 13 and returns the real-time temperature information to the processing device 9, the processing device 9 receives the real-time temperature information of the environment obtained in real time and analyzes whether the temperature is lower than a preset temperature (the preset temperature is 15-30 ℃ and is preferably 22 ℃ in the embodiment) in real time, if the temperature is lower than the preset temperature, the processing device 9 sends a default heating instruction to the heating device 47 of the planting area 13, and the heating device 47 of the planting area 13 receives the default heating instruction and controls the self to heat the planting area 13 to a set default temperature, wherein the default temperature is 25 ℃.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. An intelligent automobile wheel system based on environmental purification comprises an automobile tire, a purification device, a sealing device, a planting device, an identification device, a light supplementing device, a positioning device, a wireless device and a processing device, and is characterized in that the automobile tire comprises a tire area, a wheel rim, a planting area, a driving hydraulic pump, a driving hydraulic rod and a rotating shaft, wherein the tire area is arranged on the periphery of the wheel rim and used for being in contact with a road surface to improve the traction, braking and passing performance of the automobile; the wheel rim is connected with the automobile and adopts a 3D printing technology; the planting area is arranged at the side position of a wheel rim and used for providing plant planting; the driving hydraulic pump is arranged at the inner position of the wheel rim, is connected with the driving hydraulic rod and is used for driving the driving hydraulic rod connected with the driving hydraulic pump to stretch; the driving hydraulic rod is arranged in the inner position of a wheel rim, is respectively connected with the rotating shaft and the driving hydraulic pump, and is used for driving the connected rotating shaft to stretch; the rotating shaft is arranged at the front end of the driving hydraulic rod, is respectively connected with the driving hydraulic rod and the planting area, and is used for driving the connected planting area to rotate; the purification device comprises a nutrient layer, a planting layer and a fixing layer, wherein the nutrient layer is arranged around a planting area of a wheel rim and used for storing liquid for supplying nutrients and water to plants; the planting layer is arranged on the surface position above the nutrient layer and is provided with a plurality of planting holes for placing plants planted in a planting area; the fixing layer is arranged on the outer surface of the planting layer and coated with an antirust material and used for fixing plants in the planting layer; the closed hydraulic pump is arranged at the position of the planting area, is respectively connected with the planting area and the closed hydraulic rod, and is used for driving the connected closed hydraulic rod to stretch; the closed hydraulic rod is arranged in the middle of the planting area, is respectively connected with the rotary telescopic baffle and the closed hydraulic pump, and is used for driving the connected rotary telescopic baffle to stretch; the closed motor is arranged in the closed hydraulic rod, is respectively connected with the closed hydraulic rod and the rotary telescopic baffle, and is used for driving the connected rotary telescopic baffle to be rotationally expanded to be consistent with the inner peripheral diameter of the wheel rim; the rotary telescopic baffle is arranged at the front end of the closed hydraulic rod and is respectively connected with the closed hydraulic rod and the closed motor, and the rotary telescopic baffle is used for sealing the planting area after being rotationally extended and unfolded; the planting device comprises a seed storage layer, a seed guide pipe, a seed spray head, a nutrient guide pipe and a nutrient spray head, wherein the seed storage layer is arranged at the inner surface of the nutrient layer and used for storing plant seeds planted in a planting area; the seed guide pipe is arranged at the inner position of the planting area, is respectively connected with the seed storage layer and the seed spray head, and is used for sucking seeds in the seed storage bin into the seed spray head; the seed spray head is arranged at the position of the planting area, is connected with the seed guide pipe and is used for spraying seeds in the seed storage layer to the specified position of the planting layer through the seed guide pipe; the nutrient guide pipe is arranged in the planting area, is respectively connected with the nutrient layer and the nutrient spray head, and is used for absorbing liquid which is used for supplementing nutrients and water for plants in the nutrient layer into the nutrient spray head; the nutrient spray head is arranged at the position of the planting area, is connected with the nutrient conduit and is used for spraying liquid which is used for supplementing nutrients and water for plants in the nutrient layer to the planting layer through the nutrient conduit; the identification device comprises a first camera, a second camera, an illumination intensity detector and a humidity sensor, wherein the first camera is arranged at the position of the planting area and used for shooting an environment image of the planting area; the second camera is arranged at the outer surface of the rotary telescopic baffle, and the outer surface of the second camera and the surface of the rotary telescopic baffle keep the same horizontal plane and are used for shooting an external environment image of the rotary telescopic baffle; the illumination intensity detector is arranged at the outer surface of the rotary telescopic baffle, and the outer surface of the illumination intensity detector and the surface of the rotary telescopic baffle keep the same horizontal plane and are used for acquiring the external illumination intensity information of the rotary telescopic baffle; the humidity sensor is arranged at the position of the planting area and used for acquiring humidity information of the planting area in real time; the light supplementing device comprises a light supplementing frame, a transparent baffle and a plant light supplementing lamp, wherein the light supplementing frame is arranged at the inner surface of the rotary telescopic baffle and used for placing the plant light supplementing lamp; the transparent baffle is arranged at the outer surface of the light supplementing frame, and the outer surface of the transparent baffle and the outer surface of the light supplementing frame keep the same horizontal plane and are used for blocking dust and liquid; the plant light supplement lamp is arranged in the light supplement frame and used for emitting light to replace sunlight to provide plants for photosynthesis; the positioning device is arranged at the inner position of the wheel rim and used for positioning the position of the automobile tire and acquiring positioning data of the corresponding position; the wireless device is arranged in the processing device and is respectively connected with the external equipment of the automobile tire user, the first-aid center, the alarm center and the network; the processing device is arranged in the inner position of the wheel rim and used for being connected with the driving hydraulic pump, the rotating shaft, the closed hydraulic pump, the closed motor, the seed guide pipe, the seed spray head, the nutrient guide pipe, the nutrient spray head, the first camera, the second camera, the illumination intensity detector, the humidity sensor, the plant light supplementing lamp, the positioning device and the wireless device respectively and executing specified operation.

2. The intelligent automobile wheel system based on environmental purification according to claim 1, wherein the automobile wheel further comprises a rotary generator, the rotary generator is arranged at a position where the automobile tire is connected with the automobile and is connected with an internal storage battery of the automobile, and is used for generating electricity and storing the generated electricity into the internal storage battery of the automobile when the automobile tire rotates.

3. An intelligent vehicle wheel system based on environmental decontamination as claimed in claim 1, wherein the enclosure further comprises a mesh isolation layer disposed at an outer surface of the planting area and connected to an inner periphery of the rim of the vehicle wheel for preventing objects from entering the planting area.

4. The intelligent automobile wheel system based on environmental purification is characterized by further comprising fixing devices, wherein the fixing devices comprise a planting fixing buckle, a seed fixing buckle and a nutrient fixing buckle, the planting fixing buckles are provided with a plurality of parts and are arranged at the positions where the planting areas are connected with wheel rims to be connected with a processing device, and the planting fixing buckles are used for fixing the planting areas at the positions of the wheel rims; the seed fixing buckles are arranged at the connecting positions of the seed storage layer and the wheel rim, are connected with the processing device and are used for fixing the seed storage layer at the position of the wheel rim; the nutrient fixing buckles are provided with a plurality of nutrient layers, are arranged at the connecting positions of the nutrient layers and the seed storage layer, are connected with the processing device and are used for fixing the nutrient layers at the outer surface positions of the seed storage layer.

5. The intelligent automobile wheel system based on environmental purification according to claim 4, wherein the fixing device further comprises a plurality of plant fixing buckles, a light supplementing fixing buckle and an isolating fixing buckle, the plant fixing buckles are arranged at positions of the fixing layer facing the planting area and connected with the processing device, and are used for fixing the fixing layer and the wheel rim; the light supplement fixing buckles are provided with a plurality of light supplement fixing buckles, are arranged at the connecting positions of the transparent baffle and the light supplement frame, are connected with the processing device and are used for fixing the transparent baffle at the position of the light supplement frame; the isolation fixing buckles are provided with a plurality of mesh isolation layers, are arranged at the connection positions of the mesh isolation layers and the wheel rims and are connected with the processing device, and are used for fixing the mesh isolation layers at the positions of the wheel rims.

6. The intelligent automobile wheel system based on environmental purification as claimed in claim 1, wherein the purification device further comprises a nutrient motor and a nutrient supply port, the nutrient motor is arranged at an internal position of the nutrient layer and is respectively connected with the processing device and the nutrient supply port, and the nutrient motor is of a waterproof design and is used for driving the connected nutrient supply port to stretch; the nutrient supply port is internally provided with a one-way valve, is arranged at the outer position of the nutrient layer and is connected with the nutrient motor, and is used for supplying liquid which is stored in the nutrient layer and is used for supplying nutrients and water to plants.

7. The intelligent automobile wheel system based on environmental purification according to claim 1, wherein the planting device further comprises a seed motor and a seed supply port, the seed motor is arranged in the seed storage layer and is respectively connected with the processing device and the seed supply port, and the seed motor is used for driving the connected seed supply port to extend and retract; the seed replenishing port is internally provided with a one-way valve, is arranged at the outer position of the seed storage layer and is connected with a seed motor, and is used for replenishing the plant seeds which are stored in the seed storage layer and planted in the planting area for a user.

8. The intelligent automobile wheel system based on environmental purification as claimed in claim 1, wherein the purification device comprises a micro vacuum pump, the micro vacuum pump is arranged at a position lateral to the wheel rim and connected with the processing device, and the front end surface of the micro vacuum pump and the lateral surface of the wheel rim are kept at the same horizontal plane for sucking the outside air to the planting area.

9. The intelligent automobile wheel system based on environmental purification as claimed in claim 1, wherein the planting device further comprises a heating device, the heating device is arranged at a position lateral to the driving hydraulic pump and connected with the processing device, and is used for heating the planting area to a specified temperature.

10. The intelligent automobile wheel system based on environmental purification according to claim 9, wherein the identification device further comprises a temperature sensor, and the temperature sensor is arranged at an internal position of the planting area and connected with the processing device, and is used for acquiring temperature information of the planting area.

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