CN209833500U - All-round sight glass system - Google Patents

All-round sight glass system Download PDF

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Publication number
CN209833500U
CN209833500U CN201920543653.2U CN201920543653U CN209833500U CN 209833500 U CN209833500 U CN 209833500U CN 201920543653 U CN201920543653 U CN 201920543653U CN 209833500 U CN209833500 U CN 209833500U
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CN
China
Prior art keywords
camera
vehicle
display screen
display device
microprocessor
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Expired - Fee Related
Application number
CN201920543653.2U
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Chinese (zh)
Inventor
于樟
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Individual
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Individual
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Priority to CN201920543653.2U priority Critical patent/CN209833500U/en
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Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The embodiment of the utility model discloses all-round sight glass system relates to vehicle engineering technical field, and it includes camera device, microprocessor and display device, and camera device and display device are connected with the microprocessor electricity respectively, and camera device is including installing the preceding camera in vehicle the place ahead, installing at the back camera in vehicle rear, installing at the left camera of vehicle, installing at the right camera on vehicle right side, and display device includes preceding display screen, back display screen, left display screen, right display screen. The embodiment of the utility model provides an all-round sight glass system for two big driving blind areas at vehicle front lower place and rear are clear visible, still effectively reduce because of the emergence of the vehicle scraping accident that the reflector causes, still help the promotion of the streamlined pleasing to the eye degree spaciousness of vehicle in addition, reduce windage, reduce the oil consumption, still have the real-time recording function in addition, are convenient for clear the matter that the peripheral owner of motor vehicle, objective take place.

Description

All-round sight glass system
Technical Field
The embodiment of the utility model provides a relate to vehicle engineering technical field, concretely relates to all-round sight glass system.
Background
Automotive vehicles are a common tool in manufacturing and living. In normal driving of motor vehicles, particularly in motorways or downtown areas, the driver needs to be left-to-right and highly mentally focused. The existing reflectors (commonly called as 'ears') on two sides of a motor vehicle are used for assisting a driver to observe the surrounding situation of the vehicle, but the reflectors can only be arranged at the positions of two sides of the vehicle, which are positioned at the front of a cab, due to the limited visual range, the driver can not comprehensively observe the surrounding environment situation of the vehicle, and the driver still has a plurality of blind areas, such as the lower side and the rear side of the vehicle head. The blind area can cause accidents; the reflector is easy to scrape when two vehicles meet or under narrow road conditions, and can generate wind resistance, thereby being unfavorable for reducing oil consumption, and the reflector restricts the streamline aesthetic degree and the spaciousness of the motor vehicle.
SUMMERY OF THE UTILITY MODEL
Therefore, the embodiment of the utility model provides an all-round sight glass system to solve among the prior art because the visual range of reflector is little and the navigating mate that leads to have the blind area, because the installation of reflector leads to easy scraping, windage is big, streamlined poor problem.
In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:
according to a first aspect of an embodiment of the present invention, an omnidirectional mirror system comprises a camera device, a microprocessor and a display device, wherein the camera device and the display device are electrically connected with the microprocessor respectively, the microprocessor and the display device are both disposed in a vehicle, and the display device is integrated on a dashboard or a front platen mounted on the dashboard, the camera device comprises a front camera mounted in front of the vehicle, a rear camera mounted in rear of the vehicle, a left camera mounted on left side of the vehicle, and a right camera mounted on right side of the vehicle, the display device comprises a front display screen for displaying picture information photographed by the front camera, a rear display screen for displaying picture information photographed by the rear camera, a left display screen for displaying picture information photographed by the left camera, and a right display screen for displaying picture information photographed by the right camera, the front display screen, the rear display screen, the left display screen and the right display screen are arranged in the vertical and horizontal positions, and the height of the upper edge of the front display screen is lower than that of the upper edge of the left display screen or the right display screen.
Further, the omnidirectional mirror system also comprises a memory, and the memory is electrically connected with the microprocessor.
Furthermore, the omnidirectional view mirror system also comprises a data interface, and the data interface is electrically connected with the memory.
Further, the data interface is a USB interface.
Further, the front camera and the rear camera are wide-angle cameras, and the shooting angle is 90-120 degrees.
Further, the shooting angle of the front camera and the rear camera is 105 °.
Further, the pixels of the front camera, the rear camera, the left camera and the right camera are all 130-500 ten thousand pixels.
Further, the pixels of the front camera, the rear camera, the left camera and the right camera are all 300 ten thousand pixels.
The embodiment of the utility model provides a have following advantage:
the all-directional sight glass system provided by the embodiment of the utility model displays the blind areas of the front lower part and the rear part of the vehicle on the display device positioned on the instrument panel or the front panel through adopting the cameras in the front and rear directions, so that two driving blind areas are clear and visible; the left and right cameras are adopted to replace the existing left and right reflectors, so that the conditions of the left and right sides of the vehicle can be effectively observed, the occurrence of vehicle scraping accidents caused by the reflectors can be effectively reduced, and in addition, the cameras are used for replacing the reflectors, so that the streamline attractiveness and the spaciousness of the vehicle can be improved, the wind resistance can be reduced, and the oil consumption can be reduced; furthermore, the embodiment of the utility model provides an all-round sight glass system still is equipped with the memory, has the real-time recording function, is convenient for clear the peripheral affairs that take place of motor vehicle.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.
The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.
Fig. 1 is a schematic structural diagram of an omnidirectional mirror system provided in embodiment 1 of the present invention.
In the figure: 11-front camera, 12-rear camera, 13-left camera, 14-right camera, 20-microprocessor, 30-display device, 31-front display screen, 32-rear display screen, 33-left display screen, 34-right display screen, 40-memory.
Detailed Description
The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the present specification, the terms "upper", "lower", "left", "right", "middle", and the like are used for the sake of clarity only, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof are also considered to be the scope of the present invention without substantial changes in the technical content.
Example 1
As shown in fig. 1, embodiment 1 provides an omnidirectional mirror system including an image pickup device, a microprocessor 20, a display device 30, and a memory 40. The camera device, the display device 30 and the memory 40 are respectively electrically connected with the microprocessor 20, the memory 40 and the display device 30 are all arranged in the vehicle, the display device 30 can be integrated on an instrument panel and also can be independently arranged on a front bedplate on the instrument panel, wherein the camera device is used for collecting pictures of the environment around the vehicle, the microprocessor 20 is used for transmitting the pictures collected by the camera device to the display device 30 and the memory 40, the display device 30 is used for displaying the pictures collected by the camera device, and the memory 40 is used for storing the pictures collected by the camera device. The display device 30 is arranged in an inclined mode, the included angle between the display device 30 and the horizontal plane is 45-70 degrees, different inclination angles are taken according to different vehicle types during installation, the inclination angle of a common small automobile is closer to 45 degrees, the view of a driver is prevented from being shielded, the installation angle of a large automobile can be properly increased, and the maximum angle can be 70 degrees.
The camera device comprises a front camera 11, a rear camera 12, a left camera 13, a right camera 14, a data line for connecting with the microprocessor 20 and a power line for connecting with a power supply. The power supply is a storage battery of the vehicle, the camera is connected with the ignition switch through a power line so as to be connected with the storage battery, when the ignition switch is in 'ON', the circuit connection between the camera and the storage battery is closed, and when the ignition switch is in 'OFF', the circuit connection between the camera and the storage battery is disconnected. The front camera 11 is installed in front of the vehicle, and preferably, the front camera 11 is installed in the middle of a front bumper of the vehicle head, so that the front camera 11 is prevented from being blocked in angle by a vehicle nose. The rear camera 12 is mounted behind the vehicle, preferably in the middle of the rear bumper of the vehicle rear, to avoid the rear camera 12 being blocked in angle by the "buttocks". The left camera 13 is mounted on the left side of the vehicle, and preferably, the left camera 13 is mounted on the left mirror position of the vehicle. The right camera 14 is mounted on the right side of the vehicle, and preferably, the right camera 14 is mounted in a right mirror position of the vehicle. Wherein, because the left camera 13 and the right camera 14 are installed, the left and right reflectors are not installed.
The front camera 11 and the rear camera 12 are wide-angle cameras, the shooting angle is 90-120 degrees, and preferably, the shooting angle of the front camera 11 and the shooting angle of the rear camera 12 are 105 degrees; the pixels of the front camera 11, the rear camera 12, the left camera 13 and the right camera 14 are all 130-500 ten thousand pixels, and preferably, the pixels of the front camera 11, the rear camera 12, the left camera 13 and the right camera 14 are all 300 ten thousand pixels.
The microprocessor 20 may adopt an existing 4-channel video capture card, such as an weather-sensitive TC4000S, a friend-meet sound image X2HDV flagship capture card, a round steel GC311, etc., the microprocessor 20 is connected to the ignition switch through a power line so as to be connected to the storage battery, when the ignition switch is ON, the circuit connection between the microprocessor 20 and the storage battery is closed, and when the ignition switch is OFF, the circuit connection between the microprocessor 20 and the storage battery is disconnected.
The display device 30 includes a front display 31, a rear display 32, a left display 33, a right display 34, a data line for connection with the microprocessor 20, and a power line for connection with a power source. The display screen is connected with the ignition switch through a power line so as to be connected with the storage battery, when the ignition switch is positioned ON, the circuit connection between the display screen and the storage battery is closed, and when the ignition switch is positioned OFF, the circuit connection between the display screen and the storage battery is disconnected. The front display screen 31 is used for displaying the picture information shot by the front camera 11, the rear display screen 32 is used for displaying the picture information shot by the rear camera 12, the left display screen 33 is used for displaying the picture information shot by the left camera 13, and the right display screen 34 is used for displaying the picture information shot by the right camera 14. The front display screen 31, the rear display screen 32, the left display screen 33 and the right display screen 34 are arranged at the upper, lower, left and right positions, wherein the upper edge of the front display screen 31 is lower than the upper edge of the left display screen 33 or the right display screen 34, so that the front display screen 31, the left display screen 33 and the right display screen 34 are distributed in a concave shape, and the front display screen 31 is prevented from blocking the visual field of a driver. Preferably, the height of the front display screen 31 and the rear display screen 32 is 6cm, the height of the left display screen 33 and the right display screen 34 is 8cm, the lower edge of the front display screen 31 is flush with the lower edge of the left display screen 33 and the lower edge of the right display screen 34, the rear display screen 32 is arranged on the lower side of the left display screen 33 or the right display screen 34, the width of the display screens is adjusted according to different vehicle models, the width of the front display screen 31 is 2/3 of the diameter of a steering wheel, and the left display screen 33 and the right display screen 34 are arranged in bilateral symmetry relative to the front display screen 31.
In this embodiment, the omnidirectional mirror system is further provided with a data interface, the data interface is electrically connected to the memory 40, so as to facilitate exporting the data stored in the memory 40, and preferably, the data interface is a USB interface.
In the omnidirectional viewing mirror system provided by the embodiment, the front and rear cameras are adopted to display the blind areas in the front lower part and the rear part of the vehicle on the display device 30 positioned on the instrument panel or the front panel, so that the two blind areas are clearly visible; the camera in the left and right directions replaces the existing left and right reflectors, so that the conditions of the left and right sides of the vehicle can be effectively observed, the vehicle scraping accidents caused by the reflectors are effectively reduced, and the camera is used for replacing the reflectors, so that the streamline attractiveness and the spaciousness of the vehicle are promoted, the wind resistance is reduced, and the oil consumption is reduced. The memory 40 can store the picture information shot by the camera, so that the omnidirectional view mirror system provided by the embodiment has a real-time recording function, and is convenient for clearing the matters around the motor vehicle.
Example 2
Embodiment 2 provides another omnidirectional mirror system, which is basically the same as the omnidirectional mirror system provided in embodiment 1, except that two front cameras are provided and respectively installed above left and right headlights of a vehicle, and a front display screen is divided into a left screen and a right screen to display picture information shot by the two front cameras; two rear cameras are arranged, one of the rear cameras is arranged at the same position as the rear camera in the embodiment 1, the other rear camera is arranged at a position close to the roof of the vehicle and is preferably arranged in the vehicle, and the rear display screen displays pictures shot by the two rear cameras in an up-down screen mode. In this embodiment, the microprocessor employs a 6-way or 8-way video capture card.
The all-round sight glass system that this embodiment provided can carry out clear demonstration to the current blind area of vehicle more comprehensively, improves the comfort level of driving.
Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (8)

1. The omnibearing vision mirror system is characterized by comprising a camera device, a microprocessor (20) and a display device (30), wherein the camera device and the display device (30) are respectively electrically connected with the microprocessor (20), the microprocessor (20) and the display device (30) are both arranged in a vehicle, the display device (30) is integrated on an instrument panel or a front platen arranged on the instrument panel, the camera device comprises a front camera (11) arranged in the front of the vehicle, a rear camera (12) arranged in the rear of the vehicle, a left camera (13) arranged on the left side of the vehicle and a right camera (14) arranged on the right side of the vehicle, and the display device (30) comprises a front display screen (31) used for displaying picture information shot by the front camera (11), a rear display screen (32) used for displaying picture information shot by the rear camera (12), The camera comprises a left display screen (33) used for displaying picture information shot by a left camera (13), and a right display screen (34) used for displaying picture information shot by a right camera (14), wherein the front display screen (31), the rear display screen (32), the left display screen (33) and the right display screen (34) are arranged at the upper position, the lower position, the left position and the right position, and the upper edge height of the front display screen (31) is lower than that of the left display screen (33) or the right display screen (34).
2. The all-around mirror system according to claim 1, further comprising a memory (40), wherein the memory (40) is electrically connected to the microprocessor (20).
3. The all-round mirror system according to claim 2, characterized in that it further comprises a data interface electrically connected to said memory (40).
4. The all-directional mirror system according to claim 3, wherein said data interface is a USB interface.
5. -all-round mirror system according to claim 1, characterized in that the front camera (11) and the rear camera (12) are wide-angle cameras, the shooting angle being 90-120 °.
6. -all-round mirror system according to claim 5, characterized in that the shooting angle of the front camera (11) and the rear camera (12) is 105 °.
7. The omnidirectional mirror system according to claim 1, wherein the pixels of the front camera (11), the rear camera (12), the left camera (13) and the right camera (14) are all 130-500 ten thousand pixels.
8. The omnidirectional mirror system according to claim 7, wherein the pixels of the front camera (11), the rear camera (12), the left camera (13), and the right camera (14) are all 300 ten thousand pixels.
CN201920543653.2U 2019-04-19 2019-04-19 All-round sight glass system Expired - Fee Related CN209833500U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920543653.2U CN209833500U (en) 2019-04-19 2019-04-19 All-round sight glass system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920543653.2U CN209833500U (en) 2019-04-19 2019-04-19 All-round sight glass system

Publications (1)

Publication Number Publication Date
CN209833500U true CN209833500U (en) 2019-12-24

Family

ID=68912865

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920543653.2U Expired - Fee Related CN209833500U (en) 2019-04-19 2019-04-19 All-round sight glass system

Country Status (1)

Country Link
CN (1) CN209833500U (en)

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20191224

CF01 Termination of patent right due to non-payment of annual fee