CN114585185A

CN114585185A - Language interaction system based on Internet of vehicles

Info

Publication number: CN114585185A
Application number: CN202210067911.0A
Authority: CN
Inventors: 郭柯成
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2022-06-03

Abstract

The invention discloses a language interaction system based on a car networking, which comprises an interaction machine body, wherein heat dissipation holes are formed in two sides of the interaction machine body, and an automatic heat dissipation mechanism is arranged in the interaction machine body, and relates to the technical field of networks. Through setting up automatic heat dissipation mechanism, through the magnetism that magnetic path A and magnetic path B heteropolar looks are inhaled, synchronous drive magnetic path B rises, make the heat-conducting plate of magnetic path B bottom absorb behind a large amount of heats to the heat-conducting plate at elevator and top, it rises with the heat-conducting plate at top is synchronous to drive the elevator through magnetic path B, thereby make the heat-conducting plate expose completely in the air, along with the air flow around the periphery further promote the radiating efficiency to the heat-conducting plate at elevator top, distribute away absorbed a large amount of heats in the twinkling of an eye, carry out rapid cooling to the interaction machine body, and along with the rising of temperature, the rotation angle of rotor plate can constantly rise, thereby with the inside passageway of louvre along with rising and carrying out the heat dissipation that opens and shuts of pertinence automatically.

Description

Language interaction system based on Internet of vehicles

Technical Field

The invention relates to the technical field of networks, in particular to a language interaction system based on the Internet of vehicles.

Background

The connotation of the Internet of vehicles mainly refers to: the vehicle-mounted equipment on the vehicle effectively utilizes all vehicle dynamic information in the information network platform through a wireless communication technology, and provides different functional services in the running process of the vehicle. It can be seen that the internet of vehicles exhibits the following features: the Internet of vehicles can provide guarantee for the distance between the vehicles, and the probability of collision accidents of the vehicles is reduced; the Internet of vehicles can help the vehicle owner to navigate in real time, and the efficiency of traffic operation is improved through communication with other vehicles and a network system. When present car networking is used for the interactive machine of language to carry out the during operation, often in the high load motion, inside temperature risees with higher speed and needs the staff to open outside heating panel according to its temperature in real time, leads to wasting a large amount of time and energy to in staff's negligence time, the easy appearance does not in time open the heating panel, and leads to the impaired risk of inside mechanical high temperature to take place.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a language interaction system based on the Internet of vehicles, and the purpose of solving the problems is achieved.

In order to realize the purpose, the invention is realized by the following technical scheme: a language interaction system based on the Internet of vehicles comprises an interaction machine body, wherein heat dissipation holes are formed in two sides of the interaction machine body, and an automatic heat dissipation mechanism is arranged inside the interaction machine body;

the automatic heat dissipation mechanism comprises a cavity, an air hole A, an air hole B, a magnetic block A, a sliding groove, a magnetic block B, a lifting block and a heat conduction plate, wherein the cavity is formed in the interaction machine body;

the opening-closing rotary dust removal and heat dissipation mechanism comprises an air hole C, an arc-shaped groove and a small magnetic block A, wherein the air hole C is formed in the arc-shaped groove, the arc-shaped groove is formed in the interaction machine body, and the outer wall of the small magnetic block A is connected with the inner wall of the arc-shaped groove in a sliding mode.

Preferably, rotary dust removal heat dissipation mechanism opens and shuts still includes little magnetic path B, rotor plate, pivot, aperture, little magnetic path C, elasticity rope, little magnetic path D, little magnetic path B outer wall fixed connection is inside the rotor plate, rotor plate inner wall and pivot outer wall fixed connection, the pivot both ends are passed through the bearing with louvre inner wall front, the back and are rotated and be connected, the aperture is seted up inside the rotor plate, little magnetic path C outer wall and rotor plate inner wall sliding connection, little magnetic path C outer wall and elasticity rope one end fixed connection, the elasticity rope other end and rotor plate inner wall, little magnetic path D outer wall and rotor plate inner wall sliding connection.

Preferably, the magnetism of the opposite side of the small magnetic block B and the small magnetic block A is heteropolar, so that heteropolar attraction is performed.

Preferably, the magnetism of the opposite side of the small magnetic block C and the small magnetic block D is opposite to each other, so that opposite poles are attracted.

Preferably, the magnetism of the side, opposite to the magnetic block B, of the magnetic block A is heteropolar, so that heteropolar attraction is performed.

Preferably, the air groove is formed in the interaction machine body, the air groove is communicated with the arc-shaped groove, and the air groove is communicated with the interaction machine body externally, so that air can be communicated.

Preferably, the air hole A is communicated with the air hole B, the air hole B is communicated with the inside of the sliding groove, the cavity is communicated with the inside of the air hole C, and the inside of the air hole C is communicated with the inside of the arc-shaped groove, so that air can be communicated.

The invention provides a language interaction system based on Internet of vehicles. The method has the following beneficial effects:

(1) the utility model provides a language interaction system based on car networking, through setting up automatic heat dissipation mechanism, get into inside gas pocket B through gas pocket A, and synchronous promotion magnetic path A slides inside the spout, and through the magnetism that magnetic path A and magnetic path B heteropolar are inhaled, it rises to drive magnetic path B in step, make the heat-conducting plate of magnetic path B bottom absorb behind a large amount of heats to the heat-conducting plate at elevator and top, it rises with the heat-conducting plate synchronization at top to drive the elevator through magnetic path B, thereby make the heat-conducting plate expose completely in the air, further promote the radiating efficiency to the heat-conducting plate at elevator top along with air flow on every side, distribute away absorbed a large amount of heats in the twinkling of an eye, carry out rapid cooling to the interaction machine body.

(2) The utility model provides a language interaction system based on car networking, through setting up the rotatory heat dissipation mechanism that removes dust that opens and shuts, the air passes through inside gas pocket A also gets into the arc wall in step, and it slides to promote little magnetic path A, little magnetic path A slides in the arc wall inside and drives little magnetic path B and the rotor plate rotates through the magnetism that little magnetic path A and little magnetic path B heteropolar looks inhale, the rotor plate drives the synchronous rotation of pivot, make originally carry out radiating passageway through the aperture and enlarge, the inside passageway of louvre is opened to the rotation through the rotor plate, then dispel the heat in real time to the inside high temperature of interaction machine body, and along with the rising of temperature, the rotation angle of rotor plate can constantly rise, thereby with the inside passageway of louvre automatically carrying out the heat dissipation that opens and shuts of pertinence along with rising temperature.

(3) The utility model provides a language interaction system based on car networking opens and shuts rotatory dust removal heat dissipation mechanism through setting up, and when the rotor plate lifted up, the dust of rotor plate outer wall then along with the inclined plane landing of rotor plate, shaken off the dust of rotor plate outer wall adhesion automatically, has avoided the dust to get into inside the interaction machine body simultaneously, guarantees the radiating efficiency.

(4) The utility model provides a language interaction system based on car networking, through setting up the rotatory heat dissipation mechanism that removes dust that opens and shuts, the little magnetic path C in the rotor plate inside is along with the rotation of rotor plate and is ajusted the position gradually, thereby slide at the rotor plate inside by the elastic cord pulling gradually, and inhale mutually through little magnetic path C and little magnetic path D heteropolarity and drive little magnetic path D and slide the scraping at the rotor plate outer wall, scrape a large amount of stubborn dust of rotor plate outer wall adhesion and move along with the inclination landing of rotor plate, it is clean to the rotor plate, the heat dissipation effect is promoted.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 according to the present invention;

fig. 4 is an enlarged view of fig. 3 at B according to the present invention.

In the figure: 2, an interaction machine body, 3 automatic heat dissipation mechanisms, 301 cavities, 302 air holes A, 303 air holes B, 304 magnetic blocks A, 305 sliding grooves, 306 magnetic blocks B, 307 lifting blocks, 308 heat conduction plates, 4-opening and closing rotary dust removal heat dissipation mechanisms, 401 air holes C, 402 arc-shaped grooves, 403 small magnetic blocks A, 404 small magnetic blocks B, 405 rotating plates, 406 rotating shafts, 407 small holes, 408 small magnetic blocks C, 409 elastic ropes, 410 small magnetic blocks D and 5 heat dissipation holes.

Detailed Description

Referring to fig. 1-4, the present invention provides a technical solution: a language interaction system based on the Internet of vehicles comprises an interaction machine body 2, wherein an air groove is formed in the interaction machine body 2, the interior of the air groove is communicated with the interior of an arc-shaped groove 402, the interior of the air groove is communicated with the exterior of the interaction machine body 2, heat dissipation holes 5 are formed in two sides of the interaction machine body 2, and an automatic heat dissipation mechanism 3 is arranged in the interaction machine body 2;

the automatic heat dissipation mechanism 3 comprises a cavity 301 and an air hole A302, the inside of the air hole A302 is communicated with the inside of an air hole B303, the inside of the air hole B303 is communicated with the inside of a sliding chute 305, the inside of the cavity 301 is communicated with the inside of an air hole C401, the inside of the air hole C401 is communicated with the inside of an arc-shaped groove 402, the air hole B303 and a magnetic block A304 are arranged, the magnetism of one side, opposite to the magnetic block B306, of the magnetic block A304 is heteropolar, the sliding chute 305, a magnetic block B306, a lifting block 307 and a heat conduction plate 308 are arranged, the cavity 301 is arranged inside the interaction machine body 2, the air hole A302 is arranged inside the cavity 301, the air hole B303 is arranged inside the sliding chute 305, the sliding chute is arranged inside the interaction machine body 2, the outer wall of the magnetic block A304 is in sliding connection with the inner wall of the sliding chute 305, the outer wall of the magnetic block B306 is fixedly connected inside the lifting block 307, the outer wall of the heat conduction plate 308 is fixedly connected with the outer wall of the lifting block 307, and the opening and closing rotary dust removal heat dissipation mechanism 4 is arranged inside the interaction machine body 2;

the opening-closing rotary dust-removing heat-dissipating mechanism 4 comprises an air hole C401, an arc-shaped groove 402 and a small magnetic block A403, wherein the air hole C401 is formed inside the arc-shaped groove 402, the arc-shaped groove 402 is formed inside the interaction machine body 2, and the outer wall of the small magnetic block A403 is in sliding connection with the inner wall of the arc-shaped groove 402.

The opening-closing rotary dust removal heat dissipation mechanism 4 further comprises a small magnetic block B404, the magnetism of the opposite side of the small magnetic block B404 and the small magnetic block A403 is heteropolar, a rotary plate 405, a rotary shaft 406, a small hole 407 and a small magnetic block C408 are arranged, the magnetism of the opposite side of the small magnetic block C408 and the small magnetic block D410 is heteropolar, an elastic rope 409 and a small magnetic block D410 are arranged, the outer wall of the small magnetic block B404 is fixedly connected inside the rotary plate 405, the inner wall of the rotary plate 405 is fixedly connected with the outer wall of the rotary shaft 406, two ends of the rotary shaft 406 are rotatably connected with the front surface and the back surface of the inner wall of the heat dissipation hole 5 through bearings, the small hole 407 is formed inside the rotary plate 405, the outer wall of the small magnetic block C408 is slidably connected with the inner wall of the rotary plate 405, the outer wall of the small magnetic block C408 is fixedly connected with one end of the elastic rope 409, the other end of the elastic rope 409 is fixedly connected with the inner wall of the rotary plate 405, and the outer wall of the small magnetic block D410 is slidably connected with the inner wall of the rotary plate 405.

When the interactive machine body 2 is used, when the interactive machine body 2 operates, internal heat can be transferred into the cavity 301, hot air in the cavity 301 begins to expand, enters the air hole B303 through the air hole A302, synchronously pushes the magnetic block A304 to slide in the chute 305, synchronously drives the magnetic block B306 to ascend through the magnetism of the magnetic block A304 and the magnetic block B306 which are attracted in different poles, so that the heat conduction plate 308 at the bottom of the magnetic block B306 absorbs a large amount of heat to the lifting block 307 and the heat conduction plate 308 at the top, and drives the lifting block 307 and the heat conduction plate 308 at the top to ascend synchronously through the magnetic block B306, so that the heat conduction plate 308 is completely exposed in the air, the heat dissipation efficiency of the heat conduction plate 308 at the top of the lifting block 307 is further improved along with the flowing of surrounding air, the absorbed large amount of heat is dissipated instantaneously, the interactive machine body 2 is cooled rapidly, meanwhile, the air also synchronously enters the arc-shaped groove 402 through the air hole A302 and pushes the small magnetic block A403 to slide, the small magnetic block A403 slides in the arc-shaped groove 402, the small magnetic block B404 and the rotating plate 405 are driven to rotate by the magnetism of the opposite poles of the small magnetic block A403 and the small magnetic block B404 which are attracted, the rotating plate 405 drives the rotating shaft 406 to synchronously rotate, so that the channel which is originally used for heat dissipation through the small hole 407 is enlarged, the channel in the heat dissipation hole 5 is opened by the rotation of the rotating plate 405, then real-time heat dissipation is carried out aiming at the high temperature in the interaction machine body 2, the rotating angle of the rotating plate 405 is continuously increased along with the increase of the temperature, the channel in the heat dissipation hole 5 is automatically opened and closed for heat dissipation along with the increase of the temperature, meanwhile, when the rotating plate 405 is lifted, the dust on the outer wall of the rotating plate 405 slides down along with the inclined plane of the rotating plate 405, the dust adhered to the outer wall of the rotating plate 405 is automatically shaken off, meanwhile, the dust is prevented from entering the interaction machine body 2, and the heat dissipation efficiency is ensured, inside little magnetic path C408 is along with the rotation of rotor plate 405 and is ajusted the position gradually, thereby is pulled the inside slip at rotor plate 405 by elasticity rope 409 gradually, and attracts to drive little magnetic path D410 at rotor plate 405 outer wall slip scraping through little magnetic path C408 and little magnetic path D410 heteropolar, scrapes a large amount of stubborn dust of rotor plate 405 outer wall adhesion along with the inclination landing of rotor plate 405, cleans rotor plate 405, promotes the radiating effect.

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 person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The language interaction system based on the Internet of vehicles comprises an interaction machine body (2), and is characterized in that: radiating holes (5) are formed in two sides of the interactive machine body (2), and an automatic radiating mechanism (3) is arranged inside the interactive machine body (2);

the automatic heat dissipation mechanism (3) comprises a cavity (301), an air hole A (302), an air hole B (303), a magnetic block A (304), a sliding groove (305), a magnetic block B (306), a lifting block (307) and a heat conduction plate (308), wherein the cavity (301) is formed in the interaction machine body (2), the air hole A (302) is formed in the cavity (301), the air hole B (303) is formed in the sliding groove (305), the sliding groove (305) is formed in the interaction machine body (2), the outer wall of the magnetic block A (304) is in sliding connection with the inner wall of the sliding groove (305), the outer wall of the magnetic block B (306) is fixedly connected in the lifting block (307), the outer wall of the heat conduction plate (308) is fixedly connected with the outer wall of the lifting block (307), and an opening and closing rotary dust removal heat dissipation mechanism (4) is arranged in the interaction machine body (2);

the opening-closing rotary dust-removing heat-dissipating mechanism (4) comprises an air hole C (401), an arc-shaped groove (402) and a small magnetic block A (403), wherein the air hole C (401) is formed inside the arc-shaped groove (402), the arc-shaped groove (402) is formed inside the interactive machine body (2), and the outer wall of the small magnetic block A (403) is connected with the inner wall of the arc-shaped groove (402) in a sliding mode.

2. The language interaction system based on internet of vehicles as claimed in claim 1, wherein: the opening and closing rotary dust removal heat dissipation mechanism (4) also comprises a small magnetic block B (404), a rotary plate (405), a rotary shaft (406), a small hole (407), a small magnetic block C (408), an elastic rope (409) and a small magnetic block D (410), the outer wall of the small magnetic block B (404) is fixedly connected inside the rotating plate (405), the inner wall of the rotating plate (405) is fixedly connected with the outer wall of the rotating shaft (406), the two ends of the rotating shaft (406) are rotatably connected with the front surface and the back surface of the inner wall of the heat dissipation hole (5) through bearings, the small hole (407) is arranged inside the rotating plate (405), the outer wall of the small magnetic block C (408) is connected with the inner wall of the rotating plate (405) in a sliding way, the outer wall of the small magnetic block C (408) is fixedly connected with one end of an elastic rope (409), the other end of the elastic rope (409) is connected with the inner wall of the rotating plate (405), and the outer wall of the small magnetic block D (410) is connected with the inner wall of the rotating plate (405) in a sliding mode.

3. The language interaction system based on internet of vehicles as claimed in claim 2, wherein: the magnetism of the side, opposite to the small magnetic block A (403), of the small magnetic block B (404) is heteropolar.

4. The language interaction system based on internet of vehicles as claimed in claim 3, wherein: the magnetism of one side of the small magnetic block C (408) opposite to the small magnetic block D (410) is opposite.

5. The language interaction system based on Internet of vehicles as claimed in claim 4, wherein: the magnetism of one side of the magnetic block A (304) opposite to the magnetic block B (306) is heteropolar.

6. The language interaction system based on internet of vehicles as claimed in claim 5, wherein: the interaction machine body (2) is internally provided with an air groove, the inside of the air groove is communicated with the inside of the arc-shaped groove (402), and the inside of the air groove is communicated with the outside of the interaction machine body (2).

7. The language interaction system based on internet of vehicles as claimed in claim 6, wherein: the air hole A (302) is communicated with the air hole B (303) inside, the air hole B (303) is communicated with the sliding groove (305) inside, the cavity (301) is communicated with the air hole C (401) inside, and the air hole C (401) is communicated with the arc-shaped groove (402) inside.