CN108791099B

CN108791099B - Artificial intelligence embedded vehicle navigation system

Info

Publication number: CN108791099B
Application number: CN201810356013.0A
Authority: CN
Inventors: 孙海梦
Original assignee: JIMEI UNIVERSITY CHENGYI COLLEGE
Current assignee: JIMEI UNIVERSITY CHENGYI COLLEGE
Priority date: 2018-04-19
Filing date: 2018-04-19
Publication date: 2020-05-29
Anticipated expiration: 2038-04-19
Also published as: CN108791099A

Abstract

The invention discloses an artificial intelligent embedded vehicle-mounted navigation system which comprises a vehicle body panel, wherein an embedded cavity is concavely arranged on the vehicle body panel, bottom plates are installed on the inner walls of two sides of the embedded cavity through rotating shafts, a navigation device is fixedly arranged on the bottom plates, poking rods on a poking device are movably hinged on the inner side end faces of the bottom plates, sliding grooves are concavely arranged at the upper ends of the inner walls of two sides of the embedded cavity, a telescopic cover plate mechanism is slidably clamped in the sliding grooves and comprises an inner cover plate and an outer cover plate. The navigation device can be opened or closed at any time according to the use requirement of a driver, and is completely sealed in the embedding cavity when closed, wherein the permanent magnet sliding plate is driven by the spring to slide towards one side of the electromagnet device, the movement of the sliding plate drives the bottom plate to turn over through the poke rod, so that the bottom plate is ensured to be fixed in the embedding cavity, the integrity of the automotive trim is ensured, and the navigation device occupies the space in the automobile when not used.

Description

Artificial intelligence embedded vehicle navigation system

Technical Field

The invention relates to the technical field of artificial intelligence, in particular to an artificial intelligence embedded type vehicle navigation system.

Background

The artificial intelligence operating system should have all the functions that a general purpose operating system has, and include speech recognition, machine vision, actuator systems, and cognitive behavioral systems. Specifically, the following subsystems (but not limited to) are included: subsystems such as a file system, process management, interprocess communication, memory management, network communication, security mechanisms, drivers, user interfaces, voice recognition systems, machine vision systems, actuator systems, cognitive systems, and the like.

At present, many middle and high-end vehicles are provided with artificial intelligent voice navigation systems, and the drivers are provided with great convenience through intelligent voice navigation during daily driving, and meanwhile, the safety during driving is also ensured. An artificial intelligence embedded type vehicle-mounted navigation system is provided for solving the problems that an existing artificial intelligence system is usually arranged outside a vehicle panel, dust can be stained on one hand to affect use and the attractiveness of automotive interior is affected on the other hand when the artificial intelligence embedded type vehicle-mounted navigation system is used.

Disclosure of Invention

The invention aims to provide an artificial intelligence embedded vehicle-mounted navigation system to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an artificial intelligence embedded vehicle-mounted navigation system comprises a vehicle body panel, wherein an embedded cavity is concavely arranged on the vehicle body panel, bottom plates are arranged on the inner walls of the two sides of the embedded cavity through rotating shafts, a navigation device is fixedly arranged on the bottom plates, and poking rods on the poking devices are movably hinged on the inner side end faces of the bottom plates, each poking device comprises a shell, a damping box, a damping block, a linkage rod, a spring, a baffle, a permanent magnet sliding plate and an electromagnet device, the shell is embedded at the inner bottom end of the embedded cavity, the shell is internally and fixedly provided with the damping box, damping liquid is arranged in the damping box, the damping block is slidably arranged in the damping box, the linkage rod is fixedly connected on the damping block, the outer end of the linkage rod movably penetrates through the baffle, the baffle is fixedly arranged at the bottom end of the shell, the outer end of the, a spring is sleeved on a linkage rod at the inner end of the permanent magnet sliding plate, the other end of the spring is movably contacted with a baffle, a poke rod is hinged to the top end of the permanent magnet sliding plate, the poke rod movably penetrates through a poke rod groove at the top end of the shell, and an electromagnet device is fixedly arranged in the shell at the outer end of the permanent magnet sliding plate;

the upper ends of the inner walls at two sides of the embedding cavity are concavely provided with sliding grooves, telescopic cover plate mechanisms are slidably clamped in the sliding grooves and comprise inner cover plates and outer cover plates, one end of each inner cover plate is fixedly provided with a first sliding inner plate, the other end of each inner cover plate is concavely provided with a sliding inner cavity, the inner cover plates are provided with a plurality of inner cover plates, the first sliding inner plates and the sliding inner cavities between every two adjacent inner cover plates are sequentially clamped, the sliding inner cavities on the inner cover plates positioned on the outer sides are slidably clamped with second sliding inner plates, the second sliding inner plates are positioned on the outer cover plates, two ends of each outer cover plate are provided with fixing lugs, one ends of flexible push-out strips are fixedly connected onto the fixing lugs, the flexible push-out strips are provided with two flexible push-out strips, the flexible push-out strips sequentially penetrate through movable lugs on two sides of the inner cover plates, and the lower ends of, the lower end of the flexible push-out strip is fixedly connected with a cross rod, and the cross rod penetrates through the through grooves in the two sides of the shell and the vehicle body panel.

Preferably, the top end of the stirring device and the bottom end of the embedding cavity are kept on the same horizontal plane.

Preferably, when the electromagnet device is electrified, the magnetic pole of the electromagnet device facing to the permanent magnet sliding plate is the same as the magnetic pole of the permanent magnet sliding plate facing to the electromagnet device.

Preferably, the spring is in a compressed state.

Compared with the prior art, the invention has the beneficial effects that:

1. the navigation device can be opened or closed at any time according to the use requirement of a driver, and is completely sealed in the embedding cavity when closed, wherein the permanent magnet sliding plate is driven by the spring to slide towards one side of the electromagnet device, the cross rods on the two sides of the permanent magnet sliding plate push the flexible push-out strips upwards, the flexible push-out strips drive the outer cover plate outside the telescopic cover plate mechanism to be closed, so that a plurality of inner cover plates are driven to be sequentially closed, the top end of the embedding cavity is sealed, meanwhile, the sliding plate moves to drive the bottom plate to turn over through the poke rod, the integrity of the sliding plate fixed in the embedding cavity is ensured, and the navigation device is prevented from occupying the space in a vehicle when not in use;

2. when the navigation device is required to be opened, the electromagnet device can be controlled to be opened, the sliding plate is pushed out under the action of magnetic force, so that the bottom plate is overturned upwards, the flexible pushing strip is driven to move towards the guide groove under the action of the poking rod, the telescopic cover plate mechanism is opened, and the navigation device is convenient to operate.

Drawings

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

FIG. 2 is a schematic view of a striking device according to the present invention;

FIG. 3 is a schematic view of a flexible ejector strip mounting structure according to the present invention;

FIG. 4 is a schematic structural diagram of the retractable cover plate mechanism of the present invention;

fig. 5 is a schematic view of the installation structure of the retractable cover plate mechanism of the present invention.

In the figure: the flexible push-out device comprises a body panel 1, an embedding cavity 101, a sliding groove 102, a guide groove 103, a navigation device 2, a bottom plate 201, a telescopic cover plate mechanism 3, an inner cover plate 31, a first sliding inner plate 3101, a sliding inner cavity 3102, a movable lug 3103, an outer cover plate 32, a second sliding inner plate 3201, a fixed lug 3202, a toggle device 4, a shell 41, a toggle rod groove 4101, a through groove 4102, a damping box 42, a damping block 43, a linkage 44, a spring 45, a baffle 46, a permanent magnetic sliding plate 47, a toggle rod 4701, a cross rod 4702, an electromagnet device 48 and a flexible push-out strip 5.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an artificial intelligence embedded vehicle-mounted navigation system comprises a vehicle body panel 1, an embedded cavity 101 is concavely arranged on the vehicle body panel 1, bottom plates 201 are installed on the inner walls of the two sides of the embedded cavity 101 through rotating shafts, a navigation device 2 is fixedly arranged on the bottom plates 201, a poking rod 4701 on a poking device 4 is movably hinged on the inner side end face of the bottom plates 201, the poking device 4 comprises a shell 41, a damping box 42, a damping block 43, a linkage rod 44, a spring 45, a baffle 46, a permanent magnet sliding plate 47 and an electromagnet device 48, the shell 41 is embedded at the inner bottom end of the embedded cavity 101, the shell 41 is internally and fixedly provided with the damping box 42, damping liquid is arranged in the damping box 42, the damping block 43 is internally and slidably arranged in the damping box 42, the linkage rod 44 is fixedly connected on the damping block 43, the outer end of the linkage rod 44 movably penetrates through the baffle 46, the baffle, the permanent magnet sliding plate 47 is positioned at the bottom end of the shell 41 in a sliding manner, a spring 45 is sleeved on a linkage rod 44 at the inner end of the permanent magnet sliding plate, the other end of the spring 45 is movably contacted with a baffle 46, a poking rod 4701 is hinged to the top end of the permanent magnet sliding plate 47, the poking rod 4701 movably penetrates through a poking rod groove 4101 at the top end of the shell 41, and an electromagnet device 48 is fixedly arranged in the shell 41 at the outer end of the permanent magnet;

the upper ends of the inner walls at two sides of the embedding cavity 101 are concavely provided with sliding grooves 102, telescopic cover plate mechanisms 3 are slidably clamped in the sliding grooves 102, each telescopic cover plate mechanism 3 comprises an inner cover plate 31 and an outer cover plate 32, one end of each inner cover plate 31 is fixedly provided with a first sliding inner plate 3101, the other end of each inner cover plate 31 is concavely provided with a sliding inner cavity 3102, a plurality of inner cover plates 31 are arranged, the first sliding inner plates 3101 and the sliding inner cavities 3102 between every two adjacent inner cover plates 31 are sequentially clamped, the sliding inner cavities 3102 on the inner cover plates 31 at the outer sides are slidably clamped with second sliding inner plates 3201, the second sliding inner plates 3201 are positioned on the outer cover plates 32, two ends of each outer cover plate 32 are provided with fixing lugs 3202, one ends of flexible push-out strips 5 are fixedly connected on the fixing lugs 3202, two flexible push-out strips 5 are arranged, the flexible push-out strips 5 sequentially penetrate through the movable lugs 3103 at two sides of the inner cover plates 31, and the lower ends, a cross bar 4702 is fixedly connected to the lower end of the flexible push-out bar 5, and the cross bar 4702 penetrates through the through grooves 4102 on both sides of the casing 41 and the body panel 1.

Further, the top end of the toggle device 4 is kept at the same level with the bottom end of the embedding cavity 101.

Further, the electromagnet device 48 has the same magnetic poles facing the permanent magnet sliding plate 47 when energized as the permanent magnet sliding plate 47 faces the electromagnet device 48.

Further, the spring 45 is in a compressed state.

The working principle is as follows: the navigation device 2 can be opened or closed at any time according to the use requirement of a driver, and is completely sealed in the embedding cavity 101 when closed, wherein the permanent magnet sliding plate 47 is driven by the spring 45 to slide towards one side of the electromagnet device 48, the cross rods 4702 at two sides of the permanent magnet sliding plate push the flexible push-out strips 5 upwards, the flexible push-out strips 5 drive the outer cover plate 32 at the outer side of the telescopic cover plate mechanism 3 to be closed, so as to drive a plurality of inner cover plates 31 to be closed in sequence, the top end of the embedding cavity 101 is sealed, meanwhile, the movement of the sliding plate 47 drives the bottom plate 201 to turn over through the poking rod 4701, so as to ensure that the bottom plate 201 is fixed in the embedding cavity 101, when the navigation device 2 needs to be opened, the electromagnet device 48 can be controlled to be opened, the sliding plate 47 is pushed out under the action of magnetic force, so as to turn over the bottom plate 201 upwards, and then the telescopic cover plate mechanism 3 is opened, so that the navigation device 2 is convenient to operate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an embedded vehicle navigation system of artificial intelligence, includes automobile body panel (1), its characterized in that: an embedded cavity (101) is concavely arranged on the car body panel (1), bottom plates (201) are mounted on the inner walls of two sides of the embedded cavity (101) through rotating shafts, a navigation device (2) is fixedly arranged on each bottom plate (201), a poke rod (4701) on a poking device (4) is movably hinged to the inner side end face of each bottom plate (201), each poking device (4) comprises a shell (41), a damping box (42), a damping block (43), a linkage rod (44), a spring (45), a baffle (46), a permanent magnet sliding plate (47) and an electromagnet device (48), the inner bottom end of the embedded cavity (101) is embedded in each shell (41), the damping box (42) is fixedly arranged in each shell (41), damping liquid is arranged in each damping box (42), the damping blocks (43) are slidably arranged in each damping box (42), and the linkage rods (44) are fixedly connected to each damping block (43), the outer end of the linkage rod (44) movably penetrates through a baffle plate (46), the baffle plate (46) is fixedly installed at the bottom end of the shell (41), the outer end of the linkage rod (44) is fixedly connected with a permanent magnet sliding plate (47), the permanent magnet sliding plate (47) is located at the bottom end of the shell (41) in a sliding mode, the linkage rod (44) at the inner end of the linkage rod is sleeved with a spring (45), the other end of the spring (45) is movably contacted with the baffle plate (46), the top end of the permanent magnet sliding plate (47) is hinged with a poking rod (4701), the poking rod (4701) movably penetrates through a poking rod groove (4101) at the top end of the shell (41), and an electromagnet device (48) is fixedly arranged in; the upper ends of the inner walls on two sides of the embedding cavity (101) are concavely provided with sliding chutes (102), telescopic cover plate mechanisms (3) are slidably clamped in the sliding chutes (102), each telescopic cover plate mechanism (3) comprises an inner cover plate (31) and an outer cover plate (32), one end of each inner cover plate (31) is fixedly provided with a first sliding inner plate (3101), the other end of each inner cover plate is concavely provided with a sliding inner cavity (3102), the number of the inner cover plates (31) is multiple, the first sliding inner plates (3101) and the sliding inner cavities (3102) between every two adjacent inner cover plates (31) are sequentially clamped, the sliding inner cavities (3102) on the inner cover plates (31) on the outer side are internally provided with second sliding inner plates (3201) in a sliding manner, the second sliding inner plates (3201) are positioned on the outer cover plates (32), two ends of the outer cover plates (32) are provided with fixing lugs (3202), and one ends of flexible pushing-out strips (5) are fixedly connected onto the fixing, the quantity of flexible propelling movement strip (5) is equipped with two, and this flexible propelling movement strip (5) run through movable ear (3103) of inner cover board (31) both sides in proper order, and the lower extreme of flexible propelling movement strip (5) is embedded to be located guide way (103) on automobile body panel (1), the lower extreme fixed connection horizontal pole (4702) of flexible propelling movement strip (5), horizontal pole (4702) run through groove (4102) and automobile body panel (1) that link up of shell (41) both sides.

2. The artificial intelligence embedded vehicle navigation system of claim 1, wherein: the top end of the toggle device (4) and the bottom end of the embedding cavity (101) are kept on the same horizontal plane.

3. The artificial intelligence embedded vehicle navigation system of claim 1, wherein: when the electromagnet device (48) is electrified, the magnetic pole of one side of the electromagnet device (48) facing the permanent magnet sliding plate (47) is the same as the magnetic pole of one side of the permanent magnet sliding plate (47) facing the electromagnet device (48).

4. The artificial intelligence embedded vehicle navigation system of claim 1, wherein: the spring (45) is in a compressed state.