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CN-121989819-A - Invisible intelligent cockpit of back windshield, vehicle tail gate structure and vehicle

CN121989819ACN 121989819 ACN121989819 ACN 121989819ACN-121989819-A

Abstract

The application discloses a invisible intelligent cockpit of a rear windshield, a vehicle tail gate structure and a vehicle, wherein the invisible intelligent cockpit of the rear windshield comprises a metal plate supporting surface of a flanging area where the rear windshield and the tail gate metal plate are combined, and a mounting structure for mounting at least one outward detection or signal receiving and transmitting part is arranged on the metal plate supporting surface of the flanging area, and the outward detection or signal receiving and transmitting part is covered by a tail gate inner decorative plate through a transparent area or a blacking area of the rear windshield to realize the functions of the outward detection or signal receiving and transmitting part. According to the scheme, a plurality of outwards-detected or signal receiving and transmitting parts which are required to be arranged in an exposed mode are intensively and hidden and arranged on the flanging supporting surface where the rear windshield and the tail door are combined, and are completely covered by the tail door inner decorative plate, so that the integrated design of parts is realized, and the problems of damage to the whole shape of the tail part of a vehicle and increase of wind resistance caused by a traditional external sensor are avoided.

Inventors

  • SONG LI

Assignees

  • 上汽通用汽车有限公司
  • 泛亚汽车技术中心有限公司

Dates

Publication Date
20260508
Application Date
20260324

Claims (10)

  1. 1. Invisible intelligent cockpit of back windscreen, its characterized in that includes: the mounting structure for mounting at least one outward detection or signal receiving and transmitting part (4) is arranged on a metal plate supporting surface of a flanging area where the rear windshield (1) and the tail door metal plate (2) are combined, and the outward detection or signal receiving and transmitting part (4) is covered by the tail door inner decoration plate (3) through a transparent area or a blacking area of the rear windshield (1).
  2. 2. The invisible intelligent cockpit for a rear windshield according to claim 1, wherein the tail gate sheet metal (2) at the lower part of the rear windshield (1) provides four supporting edges, including a supporting edge of an upper boundary area of the windshield, a supporting edge of a lower boundary area of the windshield and supporting edges of two side areas of the windshield, and the mounting structure is arranged on a sheet metal surface where the supporting edges of the upper boundary area of the windshield, the lower boundary area of the windshield and the supporting edges of the two side areas of the windshield are located.
  3. 3. The invisible front windshield cockpit according to claim 2 wherein the mounting structure is provided on the support edge of the upper boundary area of the windshield to obtain an optimal rearward and upward detection range.
  4. 4. The invisible intelligent cockpit of a rear windshield according to claim 2, wherein when the mounting structure is arranged on the supporting edge of the lower boundary area of the windshield and the supporting edges of the two side areas of the windshield, the tail gate inner decoration plate (3) is locally protruded inwards or in a split way so as to provide an arrangement space for the outwards detecting or signal receiving and transmitting parts (4).
  5. 5. The invisible front windshield cockpit according to any one of claims 1 to 4, wherein the mounting structure is a bridging bracket (5) welded or screwed at a flange of the tail gate sheet metal (2), the bridging bracket (5) providing a mounting plane for mounting the outward detecting or signaling element (4).
  6. 6. The invisible front windshield cockpit according to claim 1, wherein the outward detection or signal receiving and transmitting part (4) comprises at least one of a satellite communication antenna, a rear view intelligent driving camera, a laser radar and a millimeter wave radar.
  7. 7. A vehicle tail gate structure, applying the invisible intelligent cabin for a rear windshield according to any one of claims 1 to 6, and comprising a tail gate sheet metal (2), a rear windshield glass (1) and a tail gate inner decoration board (3); A mounting bracket is arranged at a support flanging position where the mounting edge of the rear windshield glass (1) is combined with the tail door sheet metal (2); At least one outward detecting or signal receiving part (4) is fixed on the mounting bracket, and the detecting or signal receiving surface of the part faces the rear windshield glass (1); the tail door inner decoration board (3) covers the outward detection or signal receiving and transmitting part (4) and the mounting bracket.
  8. 8. Vehicle tailgate structure according to claim 7, characterized in that the detection or signalling path of the outward detection or signalling element (4) is through a transparent area of the rear windscreen (1) or an uncolored area reserved for satisfying the field of view.
  9. 9. The vehicle tail gate structure according to claim 7 or 8, wherein the tail gate metal plate (2) is integrated with a satellite communication antenna and a rearview camera on an area mounting surface formed at a support flange of an upper boundary of the rear windshield (1).
  10. 10. A vehicle comprising a rear windshield stealth intelligent cockpit according to any one of claims 1-6 or a vehicle tail gate structure according to any one of claims 7-9.

Description

Invisible intelligent cockpit of back windshield, vehicle tail gate structure and vehicle Technical Field The application relates to the technical field of vehicle manufacturing, in particular to a invisible intelligent cockpit of a rear windshield, a vehicle tail door structure and a vehicle. Background Along with the rapid development of the intellectualization and networking of automobiles, the quantity of various sensors and communication devices applied to the automobile body is increased, such as rear-view intelligent driving cameras, laser radars, millimeter wave radars, satellite communication antennas and the like. These devices generally require outward detection or signaling and therefore traditionally must be disposed on the exterior surface of the vehicle body. Conventional arrangements have a number of limitations. For example, the communication antenna is often integrated in the roof of a vehicle, but as the design of the shark fin is gradually simplified or eliminated along with the evolution of the vehicle model and the improvement of aerodynamic requirements, the limited space of the shark fin cannot meet the increasing antenna layout requirements. Whereas rearward facing cameras, radar or the like are typically arranged outside the rear roof, rear spoiler or tailgate. These exposed arrangements, while meeting functional requirements, tend to destroy the overall aesthetic appeal of the vehicle, increase windage, and expose the parts directly to complex harsh external environments with higher risk of collision, fouling and aging. Therefore, an innovative solution is urgently needed in the field of automobile design, and various parts for outward detection and signal receiving and transmitting can be skillfully hidden on the premise of ensuring normal operation of the functions of the parts, so that the design targets of not affecting the external shape of the vehicle, improving the aerodynamic performance and enhancing the protection of the parts are achieved. Disclosure of Invention The application provides a invisible intelligent cockpit of a rear windshield, a vehicle tail door structure and a vehicle, which solve the problems of modeling damage, wind resistance increase and easy damage of parts caused by the exposed arrangement of automobile rear Fang Zhi and communication parts in the prior art. The application provides a invisible intelligent cockpit of a rear windshield, which comprises the following components: the mounting structure for mounting at least one outward detection or signal receiving and transmitting part is arranged on a metal plate supporting surface of a flanging area where the rear windshield and the tail gate metal plate are combined, and the outward detection or signal receiving and transmitting part penetrates through a transparent area or a blacking area of the rear windshield to realize the function and is covered by a tail gate inner decorative plate. The automobile tail integrated structure has the beneficial effects that a plurality of outward detection or signal receiving and transmitting parts which are required to be exposed are intensively and hidden and arranged on the flanging supporting surface of the combination of the rear windshield and the tail gate, so that the integrated design of parts is realized, in addition, all functional parts are completely covered by the tail gate inner decoration plate and are completely invisible from the outside of the automobile, the damage of the traditional external sensor to the integral shape of the tail part of the automobile is avoided, and the problems of shape damage, wind resistance increase and easy damage of parts caused by the exposed arrangement of the automobile rear Fang Zhi and communication parts are avoided. In one embodiment, the tail gate sheet metal at the lower part of the rear windshield provides four supporting edges, wherein the four supporting edges comprise a supporting edge of an upper boundary area of the windshield, a supporting edge of a lower boundary area of the windshield and supporting edges of two side areas of the windshield, and the mounting structure is arranged on a sheet metal surface where the supporting edges of the upper boundary area of the windshield, the lower boundary area of the windshield and the supporting edges of the two side areas of the windshield are located. In one embodiment, the mounting structure is provided on the support edge of the upper boundary region of the windshield to obtain an optimal rearward and upward detection range. In one embodiment, when the mounting structure is arranged on the supporting edge of the lower boundary area of the windshield and the supporting edges of the two side areas of the windshield, the tail gate inner trim panel is locally protruded inwards or in a split mode so as to provide an arrangement space for the outwards detecting or signal receiving and transmitting parts. In one embodiment, the mounting structure is a bridgin