CN116039505B - Rearview mirror assembly capable of imaging on instrument board - Google Patents

Abstract

The invention relates to a rearview mirror assembly capable of imaging an instrument board, which comprises an outer cover and a lens, wherein an assembly cavity for installing an intelligent module for imaging the rearview mirror assembly to the instrument board is arranged between the back of the lens and the outer cover, a sliding rail is arranged on the back of the lens along the longitudinal direction of the lens, a flexible shielding belt is arranged in the transverse direction of the assembly cavity, a front groove communicated with the assembly cavity is formed in the top end of the outer cover, one end of the flexible shielding belt extends towards the top direction of the outer cover and then penetrates through the front groove and extends to the front side of the lens, the other end of the flexible shielding belt extends downwards and then is connected with a force plate, the mirror surface can be isolated from the face of a driver, even if the rearview mirror is impacted by the back surface due to accidents, fragments can be covered by the flexible shielding belt, the face is prevented from being damaged, and meanwhile, when the force plate releases the flexible shielding belt, a data line from the instrument board is separated from a USB interface on the rearview mirror and is powered off, the line is prevented from being burned, and loss is reduced.

Description

Rearview mirror assembly capable of imaging on instrument board

Technical Field

The invention relates to the technical field of rearview mirrors, in particular to a rearview mirror assembly capable of imaging an instrument board.

Background

The rearview mirror is arranged right in front of the cab and is close to front window glass of the cab, the rearview mirror plays a role in rearview observation on a rear vehicle, so that driving safety of the driver is guaranteed, the rearview mirror is different from the rearview mirrors on two sides of the vehicle body, except for different mounting positions, the rearview mirror is fixed on a cab or is adsorbed on the front window glass in a mode of a single sucker or a bracket, along with continuous improvement of social development, the rearview mirror has intelligence, an integrated circuit is arranged in a protective cover where the rearview mirror is located, and the integrated circuit is used for receiving wireless signals and is used for displaying video signals shot by a camera on an instrument board.

When the vehicle is in an emergency in the driving process, the front window glass is damaged, the rearview mirror mounted on the inner side of the front window is most likely to be damaged due to the unexpected accident, besides the damage of the inner components of the rearview mirror, the lens facing the driver is broken, the flying fragments scratch the face and eyeballs, and if the rearview mirror is in an electrified state, the circuit of the rearview mirror is burnt, and even the shot accident record is lost.

Disclosure of Invention

Based on the problems, the invention provides the rearview mirror assembly capable of imaging on the instrument board, when an accident occurs when the front window of the automobile is suddenly, the rearview mirror is automatically covered, the damage of fragments to the face of a driver is avoided, meanwhile, the rearview mirror assembly can be rapidly powered off with the instrument board, and the circuit breaking is avoided.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The rearview mirror assembly capable of imaging the instrument board comprises an outer cover and a lens inlaid in the outer cover and positioned at the front side of the outer cover, an assembly cavity for installing an intelligent module for enabling the rearview mirror assembly to image the instrument board is arranged between the back of the lens and the outer cover, a sliding rail is arranged on the back of the lens along the longitudinal direction of the lens, a flexible shielding belt is arranged on the transverse direction of the assembly cavity, a front groove communicated with the assembly cavity is formed in the top end of the outer cover, one end of the flexible shielding belt extends towards the top direction of the outer cover, then penetrates through the front groove and extends to the front side of the lens, the other end of the flexible shielding belt extends downwards and then is connected with a force-generating plate, the force-generating plate is in sliding fit on the sliding rail along the back of the lens, a trigger rod extending towards the bottom direction of the assembly cavity is connected with a starting plate positioned at the back of the force-generating plate and the trigger rod through a spring, and can swing forwards and backwards, the trigger rod is provided with a positioning pawl which is matched with the positioning pawl for use and forms an interlocking, the positioning pawl is abutted against the positioning block, so that the trigger plate and the trigger rod are mutually self-locked in the assembly cavity, and simultaneously, a pulling force is applied to the force-applying plate to force the force-applying plate to extend the flexible masking tape to one end of the front side of the lens to be positioned at the top of the lens, a transmitting spring is connected between the force-applying plate and the bottom surface of the assembly cavity, when the trigger plate and the trigger rod are mutually self-locked, the transmitting spring is compressed to a force storage state through the lower pulling force of the force-applying plate, the positioning pawl on the trigger plate and the positioning block on the trigger rod are mutually separated, so that when the trigger plate and the trigger rod are not self-locked any more and the force-applying plate is not applied to the transmitting spring, the transmitting spring releases the elastic force, and the flexible masking tape is pushed to move upwards rapidly through the force-applying plate, while allowing the flexible masking tape to release length downwardly from the front channel and to quickly mask the lens.

As a further preferred option: the back of dustcoat is equipped with the universal seat, installs the mount that is used for fixing the rear-view mirror assembly in the automobile cab through the universal seat.

As a further preferred option: the back of dustcoat runs through and is fixed with two places symmetry in the guide brackets of mount both sides, and common sliding fit has a clamp frame between two guide brackets, and the clamp frame is "U-shaped" bent rod structure, and the inboard space of its "U-shaped" is located the mount periphery, and the open end of its "U-shaped" gets into the back of the assembly intracavity and is close to the starter board and keep away from the back that is provided with the locating pawl other end from the guide bracket guide, and the closed end of its "U-shaped" extends to the back of mount, and surpasses the back of mount and continue to extend, and when its closed one end received the striking, will act on the starter board through the open end to make this end of starter board swing in the direction of lens, thereby make the locating pawl and the locating piece on the machine pole of starter board other end quick separation.

As a further preferred option: the back of dustcoat is connected with reset spring, is fixed with the preforming on the pressure frame, and reset spring overlaps simultaneously and establishes on the pressure frame, and reset spring's both ends respectively elastic connection between the back of preforming and dustcoat for the pressure frame can make its quick return under reset spring effect again after once the start plate of extrusion.

As a further preferred option: the front two sides of the outer cover are respectively provided with a baffle, the two baffles are covered on the two sides of the flexible shielding belt and used for positioning and guiding the flexible shielding belt when the flexible shielding belt is downwards released to be long, the flexible shielding belt penetrates through the two sides of the top of the outer cover and is respectively provided with an upper hanging plate, the front two sides of the outer cover are respectively provided with a lower hanging seat positioned at two corners of the bottom of the outer cover, and an elastic pulling belt is connected between the upper hanging plate and the lower hanging seat, so that when the flexible shielding belt is downwards released along the lenses, the quick tightening effect of the elastic pulling belt is utilized to quickly pull the bottom edges of the flexible shielding belt (to be mutually overlapped with the bottom edges of the lenses).

As a further preferred option: the top of the outer cover is provided with a top groove communicated with the front groove and the assembly cavity along the transverse direction of the outer cover, and a round corner which is used for releasing the flexible shielding belt from the inside of the assembly cavity upwards and is smooth and excessive when the flexible shielding belt is released towards the front side direction of the lens is formed between the front groove and the top groove.

As a further preferred option: the USB component comprises a sleeve fixed in the assembly cavity and positioned in the top groove, a through groove formed in the sleeve and communicated with the tube cavity of the sleeve, and an integrated module fixed in the assembly cavity and close to the sleeve, wherein a fixed contact is arranged at one end of the integrated module, the fixed contact penetrates through the groove and is exposed in the sleeve, a USB interface is placed in the sleeve, a movable contact which is in contact with the fixed contact and is connected with the integrated module is arranged at one end of the USB interface close to the through groove, a perforation is formed in the bottom end of the sleeve, a push rod which is vertically upwards and is vertically arranged on the same line with the perforation is arranged on the force-exerting plate, and the force-exerting plate moves upwards and pushes the flexible shielding belt to upwards release length, and simultaneously drives the push rod to move upwards along the perforation to enter the sleeve so as to upwards move the USB interface in the sleeve and simultaneously separate the movable contact of the USB interface from the fixed contact of the integrated module.

As a further preferred option: the top end of the outer cover is provided with a sealing plate buckled and pressed on the top groove.

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

The rear view mirror is internally provided with a starting plate, the starting plate and a pressing frame arranged on two sides of the rear view mirror form a triggering action, the pressing frame is close to a front window when the rear view mirror is installed in a cab, when the front window is broken and is about to be impacted on the rear view mirror due to an accident in the front side direction of a vehicle, an accident object is impacted on the pressing frame, the pressing frame moves inwards and triggers the starting plate in an outer cover of the rear view mirror to act, a force-applying plate forming a self-locking effect with the starting plate is arranged in the rear view mirror, the force-applying plate is enabled to emit when the starting plate is forced to act, so that a flexible shielding belt in the rear view mirror is released, and the mirror surface of the rear view mirror is covered by the mode, the mirror surface can be isolated from the face of a driver, and even if the rear view mirror is impacted on the ground due to the accident, fragments are covered by the flexible shielding belt, the face is prevented from being damaged by the flexible shielding belt, and meanwhile, when the force-applying plate releases the flexible shielding belt, a data line from the instrument panel is separated from a USB interface on the rear view mirror, and the rear view mirror is powered off, and burning loss is prevented.

Drawings

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

FIG. 2 is a schematic view of the structure of the present invention from the back view of FIG. 1;

FIG. 3 is a schematic diagram of the structure of the interlocking structure of the start plate and the force-generating plate in the assembly cavity after being disconnected in the longitudinal direction and the action principle of controlling the flexible masking tape under the action of the interlocking structure;

FIG. 4 is a schematic view of the bladder of the present invention from another rotational angle of view of FIG. 3 with the firing spring removed;

FIG. 5 is an enlarged view of the structure of the portion B of FIG. 4 according to the present invention;

FIG. 6 is a schematic view of a partial planar structure at a front view of the present invention;

FIG. 7 is a schematic side plan view of the present invention in section;

FIG. 8 is a schematic view of a partial structure of the present invention from a top view with the closure plate removed;

FIG. 9 is an enlarged view of the portion A of FIG. 8 according to the present invention;

FIG. 10 is a schematic view of a USB device of the present invention in a cut-away plane;

fig. 11 is a schematic view of the internal structure of the back cover of the present invention viewed from the back view and with the back of the cover cut away.

The main reference numerals illustrate:

1. an outer cover; 2. a lens; 3. assembling the cavity; 4. a flexible masking tape; 5. a front groove; 6. a slide rail; 7. a force-generating plate; 8. a trigger lever; 9. a spring; 10. a start plate; 11. a positioning pawl; 12. a positioning block; 13. a firing spring; 14. a universal seat; 15. a fixing frame; 16. a guide seat; 17. a pressing frame; 18. a return spring; 19. tabletting; 20. a baffle; 21. a hanging plate is arranged; 22. a lower hanging seat; 23. an elastic pull strap; 24. a top groove; 25. round corners; 26. a USB component; 27. a sleeve; 28. a through groove; 29. an integration module; 30. a stationary contact; 31. a USB interface; 32. a movable contact; 33. perforating; 34. a push rod; 35. and (5) sealing plates.

Detailed Description

The following description of the embodiments of the present invention, taken in conjunction with the accompanying drawings, will be clearly and fully described in terms of the drawings, wherein the embodiments described are some, but not all, of the embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, are intended to fall within the scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used for convenience of description and simplicity of description, only as to the orientation or positional relationship shown in the drawings, and not as an indication or suggestion that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present form will be understood in the specific case by those skilled in the art.

Referring to fig. 1-11, a rearview mirror assembly capable of imaging an instrument panel comprises an outer cover 1 and a lens 2 inlaid in the outer cover 1 and positioned at the front side of the outer cover, wherein the back of the outer cover 1 is provided with a universal seat 14, a fixing frame 15 for fixing the rearview mirror assembly into an automobile cab is arranged through the universal seat 14, an assembly cavity 3 for installing an intelligent module for imaging the rearview mirror assembly to the instrument panel is arranged between the back of the lens 2 and the outer cover 1, a sliding rail 6 is arranged on the back of the lens 2 along the longitudinal direction of the lens, a flexible shielding belt 4 is arranged in the transverse direction of the assembly cavity 3, the top end of the outer cover 1 is provided with a front groove 5 communicated with the assembly cavity 3, one end of the flexible shielding belt 4 extends towards the top direction of the outer cover 1 and then penetrates through the front groove 5 and extends to the front side of the lens 2, the other end of the flexible shielding belt 4 extends downwards and is connected with a force-applying plate 7, the force-generating plate 7 is in sliding fit on the sliding rail 6 along the back surface of the lens 2, the bottom surface of the force-generating plate 7 is connected with a trigger rod 8 extending towards the bottom direction of the assembly cavity 3, the assembly cavity 3 is internally connected with a starting plate 10 which is positioned at the back parts of the force-generating plate 7 and the trigger rod 8 and can swing back and forth, the starting plate 10 is provided with a positioning pawl 11, the trigger rod 8 is provided with a positioning block 12 which is matched with the positioning pawl 11 and forms interlocking, the positioning pawl 11 is abutted against the positioning block 12 so that the starting plate 10 and the trigger rod 8 are mutually self-locked in the assembly cavity 3, and simultaneously, a pulling force is applied to the force-generating plate 7 so as to force the flexible shielding belt 4 to extend to one end of the front side of the lens 2 to be positioned at the top of the lens 2, a transmitting spring 13 is connected between the force-generating plate 7 and the bottom surface of the assembly cavity 3, and when the starting plate 10 and the trigger rod 8 are mutually self-locked, by pulling down the force-generating plate 7 to compress the firing spring 13 to a stored force state, when the positioning pawl 11 on the actuation plate 10 and the positioning block 12 on the trigger lever 8 are separated from each other so that the actuation plate 10 and the trigger lever 8 are no longer self-locking and the force-generating plate 7 no longer presses the firing spring 13, the firing spring 13 will release the elastic force and push the flexible shade band 4 to move quickly upwards through the force-generating plate 7, and simultaneously the flexible shade band 4 is released downwards along the lens 2 from the front slot 5 by a length and covers the lens 2 quickly.

As a further preferred option: the back of the outer cover 1 is penetrated and fixed with two guide seats 16 which are symmetrical to two sides of the fixed frame 15, a pressing frame 17 is matched between the two guide seats 16 in a sliding way, the pressing frame 17 is of a U-shaped bent rod structure, the inner space of the U-shaped is positioned at the periphery of the fixed frame 15, the open end of the U-shaped is guided from the guide seat 16 and enters the assembly cavity 3 and is close to the starting plate 10 and far away from the back of the other end provided with the positioning pawl 11, the closed end of the U-shaped extends to the back of the fixed frame 15 and extends beyond the back of the fixed frame 15, and when the closed end is impacted, impact force is exerted on the starting plate 10 through the open end, so that the end of the starting plate 10 swings towards the direction of the lens 2, and the positioning pawl 11 at the other end of the starting plate 10 is rapidly separated from the positioning block 12 on the trigger rod 8.

To sum up: the rearview mirror assembly is installed in a cab in a conventional fixed mode through a fixing frame 15, the closed end of a pressing frame 17 is extended to be close to an automobile front window, when the front window is broken due to a traffic accident, a front window is broken by a downward impact object, but once the impact force acts on the closed end of the pressing frame 17, the pressing frame 17 is acted by the impact force to enable the open end of the pressing frame 17 to enter the assembly cavity 3 along a guide seat 16, the starting plate 10 in the assembly cavity 3 is just pressed, the top end of the starting plate 10 is forced to swing towards the direction of a lens 2, the bottom end of the starting plate 10 is then separated from a positioning pawl 11 and a positioning block 12 on a trigger rod 8 quickly, a force-transmitting plate 7 connected to the top of the trigger rod 8 is not interlocked with the starting plate 10 any more, and an elastic force is released to the force-transmitting plate 7 at the moment, the force-transmitting plate 7 is forced to move upwards along a sliding rail 6, a flexible belt 4 connected to the top end of the force-transmitting plate 7 is enabled to move upwards and the lens 2 is enabled to be pressed by a front groove 5 to face-ward along the length of the lens 2, and the lens 2 can be completely broken by the lens 2, and the lens can be completely covered by the lens 2 when the lens is completely broken, and the lens assembly can be completely covered by the driver. In order to achieve the above purpose, the pressing frame 17 is provided with a "U-shaped" bent rod structure, and then the mirror is installed to extend toward the front window, so that the impact force generated by the impact object can be directly applied to the starting plate 10, and the pressure can be transferred to the starting plate 10 when the impact object is not in the cab, so that the starting plate 10 and the force-applying plate 7 are quickly separated to be enough for the force-applying plate 7 to quickly release the flexible shielding belt 4 and cover the lens 2, thereby avoiding the lens 2 from splashing the face due to breakage in the first time. In order to achieve the above purpose, the positioning pawl 11 and the positioning block 12 are interlocked between the starting plate 10 and the force-generating plate 7, so that the positioning pawl 11 and the positioning block 12 which are interlocked together can be quickly separated when the starting plate 10 is extruded by the pressing frame 17, and the separation speed is further improved under the boosting action of the transmitting spring 13. The positioning pawl 11 and the positioning block 12 are wedge-shaped blocks with simple structures in the drawing, the positioning pawl 11 and the positioning block 12 are in virtual contact when being interlocked, the positioning pawl 11 and the positioning block 12 can be quickly unlocked when being extruded by the pressing frame 17, and the requirements of quickly unlocking the force-generating plate 7 and quickly releasing the flexible shielding belt 4 for a length to cover the lens 2 are met. The force-generating plate 7, the starting plate 10 and the flexible shielding belt 4 are contained in the assembly cavity 3 when not acting, the pressing frame 17 is positioned at the back of the rearview mirror, and the attractive appearance of the rearview mirror is not affected, but when the accident occurs, the impact force generated during the impact is utilized, the lens 2 is quickly covered by the automatic starting protection function, the power of the whole action is derived from the accident, and the whole rearview mirror does not have a complicated automatic structure such as a circuit, so that the manufacturing cost is low, and the whole rearview mirror cannot be burdened.

As shown in fig. 2, 3 and 7: the back of the outer cover 1 is connected with a reset spring 18, the pressing frame 17 is fixedly provided with a pressing sheet 19, the reset spring 18 is sleeved on the pressing frame 17 at the same time, two ends of the reset spring 18 are respectively and elastically connected between the pressing sheet 19 and the back of the outer cover 1, so that after the pressing frame 17 presses the starting plate 10 once, the reset spring 18 can be quickly reset under the action of the reset spring 18, the reset spring 18 has the reset function, and the elastic performance generated by the reset spring is utilized to buffer the pressing frame 17 when the pressing frame 17 is impacted, the pressing frame 17 applies pressure to the starting plate 10 by utilizing the pressure after buffering and unloading the pressure, but not directly impacts the starting plate 10, if the impact force of an accident is smaller, the influence on the internal structure of the rearview mirror caused by the direct bearing of the starting plate 10 can be avoided, meanwhile, the complete breakage of the lens 2 can be avoided to the greatest extent, the impact of fragments on the human body can be directly avoided, and the whole structure of the pressing frame 17 is more reasonable.

As shown in fig. 6, 7 and 9: the front two sides of the outer cover 1 are respectively provided with one baffle 20, the two baffles 20 are covered on the two sides of the flexible shielding belt 4 and used for positioning and guiding when the flexible shielding belt 4 is released downwards to a certain length, the flexible shielding belt 4 penetrates through the two sides of the top of the outer cover 1 and is respectively provided with one upper hanging plate 21, the front two sides of the outer cover 1 are respectively provided with one lower hanging seat 22 positioned at two corners of the bottom of the outer cover, an elastic pulling belt 23 is connected between the upper hanging plate 21 and the lower hanging seat 22, when the flexible shielding belt 4 is released downwards along the lens 2, the bottom edge of the flexible shielding belt 4 is quickly pulled down to coincide with the bottom edge of the lens 2, the elastic pulling belt 23 which is pulled on the front side of the flexible shielding belt 4 is positioned on the front side of the lens 2, a force generating plate 7 used for controlling whether the flexible shielding belt 4 is released or not is positioned in an assembly cavity 3 at the back of the lens 2, when the elastic pulling belt 23 and the front and the back of the transmitting spring 13 are arranged to just form the release length of the flexible shielding belt 4, the front and back combined auxiliary members which are pushed to quickly pull the elastic pulling belt 23, when the flexible shielding belt 4 is pulled down along the lens 2 is quickly released along the bottom of the lens 2, the flexible shielding belt is not pulled down to the flexible shielding belt 2, the elastic pulling belt is quickly released along the bottom side, and the safety belt is not released.

In another embodiment, the power-off function of the rear view mirror is further formed when the force-generating plate 7 moves upward when the above-mentioned releasing function of the flexible masking tape 4 is utilized, specifically described as follows: the top end of the outer cover 1 is provided with a top groove 24 communicated with the front groove 5 and the assembly cavity 3 along the transverse direction, the top end of the outer cover 1 is provided with a USB component 26, the USB component 26 comprises a sleeve 27 fixed in the assembly cavity 3 and positioned in the top groove 24, a through groove 28 arranged on the sleeve 27 and communicated with the cavity of the sleeve 27, and an integrated module 29 fixed in the assembly cavity 3 and close to the sleeve 27, one end of the integrated module 29 is provided with a fixed contact 30, the fixed contact 30 penetrates through the groove 28 and is exposed in the sleeve 27, a USB interface 31 is inserted in the sleeve 27, one end of the USB interface 31 close to the through groove 28 is provided with a movable contact 32 which is contacted with the fixed contact 30 and is connected with the integrated module 29, the bottom end of the sleeve 27 is provided with a through hole 33, the force plate 7 is provided with a mandril 34 which is vertically upwards arranged on the same vertical line as the through hole 33, when the force plate 7 moves upwards and pushes the flexible shielding belt 4 to release the length upwards, the mandril 34 is simultaneously driven to move upwards, and the mandril 34 enters the sleeve 27 along the through hole 33, so that the through hole 33 moves the through hole 33 into the sleeve 27, and simultaneously the movable contact 31 in the sleeve 27, and the movable contact 31 is contacted with the movable contact 30, and the movable contact 31 in the same direction as the movable contact 31 with the movable contact 31.

In summary, the USB interface 31 will be matched with a data line, one end of the data line is connected to the USB interface 31, the other end is connected to the instrument panel, when the front window is impacted by an accident, the impact object may impact on the pressing frame 17, the pressing frame 17 is used to press the starting board 10, so that the locked force-generating board 7 is unlocked and releases the flexible shielding tape 4 to the front side of the lens 2 to cover the lens 2 rapidly, the push rod 34 on the top surface of the force-generating board 7 moves upwards to enter the sleeve 27 along the through hole 33, so that the USB interface 31 tightly matched with the sleeve 27 moves upwards, the movable contact 32 on the USB interface 31 moves upwards to be separated from the fixed contact 30 exposed in the sleeve 27 through the through groove 28, and the fixed contact 30 is an assembly connection point on the integrated module 29, and also the instrument panel provides a power supply and a signal introduction connection point to the rearview mirror through the USB interface 31.

As shown in fig. 1, the top end of the housing 1 is provided with a closing plate 35 which is snapped onto the top slot 24, but in normal use, the USB interface 31 is reserved for data line connection with the instrument panel.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (6)

1. A rearview mirror assembly capable of being imaged on an instrument board, comprising an outer cover (1) and a lens (2) inlaid in the outer cover (1) and positioned at the front side of the outer cover, and is characterized in that: an assembling cavity (3) for installing an intelligent module for enabling a rearview mirror assembly to image an instrument board is arranged between the back of the lens (2) and the outer cover (1), a sliding rail (6) is arranged on the back of the lens (2) along the longitudinal direction of the lens, a flexible shielding belt (4) is arranged on the transverse direction of the assembling cavity (3), a front groove (5) communicated with the assembling cavity (3) is formed in the top end of the outer cover (1), one end of the flexible shielding belt (4) extends towards the top direction of the outer cover (1), then penetrates through the front groove (5) and extends to the front side of the lens (2), the other end of the flexible shielding belt (4) extends downwards and then is connected with a force-generating plate (7), the force-generating plate (7) is in sliding fit on the sliding rail (6) along the back of the lens (2), a trigger rod (8) extending towards the bottom direction of the assembling cavity (3) is connected with a trigger rod (8) in the assembling cavity (3), one end of the flexible shielding belt (4) extends towards the top direction of the top of the outer cover (1) and then extends to the front groove (5), the front end of the flexible shielding belt extends towards the top of the outer cover (1) and extends to the front groove (2), a trigger rod (8) and a pawl (11) is arranged on the front end of the trigger rod (11) and a pawl (11) which is formed on the positioning block (12) in a position sleeve, when the starting plate (10) and the trigger rod (8) are mutually self-locked in the assembly cavity (3), and simultaneously, pulling force is applied to the force-generating plate (7) to force the flexible shielding tape (4) to extend to one end of the front side of the lens (2) to be positioned at the top of the lens (2), a transmitting spring (13) is connected between the force-generating plate (7) and the bottom surface of the assembly cavity (3), when the starting plate (10) and the trigger rod (8) are mutually self-locked, the transmitting spring (13) is compressed to a force-storing state through the lower pulling force of the force-generating plate (7), so that a positioning pawl (11) on the starting plate (10) and a positioning block (12) on the trigger rod (8) are mutually separated, and when the starting plate (10) and the trigger rod (8) are not self-locked any more and the force-generating plate (7) is not pressing the transmitting spring (13), the transmitting spring (13) releases elasticity, and the flexible shielding tape (4) is pushed to move upwards rapidly through the force-generating plate (7), and the flexible shielding tape (4) is enabled to be released from the front groove (5) and the lens (2) to be quickly covered by the length (2) downwards;

The back of the outer cover (1) is provided with a universal seat (14), and a fixing frame (15) for fixing the rearview mirror assembly into an automobile cab is arranged through the universal seat (14);

The back of the outer cover (1) penetrates through and is fixedly provided with two guide seats (16) which are symmetrical to two sides of the fixing frame (15), the two guide seats (16) are matched with a pressing frame (17) in a sliding mode, the pressing frame (17) is of a U-shaped bent rod structure, the inner side space of the U-shaped is located at the periphery of the fixing frame (15), the open end of the U-shaped is guided by the guide seats (16) and then enters the assembly cavity (3) and is close to the starting plate (10) and far away from the back of the other end provided with the positioning pawl (11), the closed end of the U-shaped extends to the back of the fixing frame (15), and extends beyond the back of the fixing frame (15), and when the closed end is impacted, impact force acts on one end of the starting plate (10) through the open end, so that one end of the starting plate (10) swings towards the direction of the lens (2), and the positioning pawl (11) at the other end of the starting plate (10) is separated from the positioning block (12) on the machine rod (8) rapidly.

2. The rearview mirror assembly for an instrument panel according to claim 1, wherein: the back of dustcoat (1) is connected with reset spring (18), is fixed with preforming (19) on pressure frame (17), and reset spring (18) cover is established simultaneously on pressure frame (17), and the both ends of reset spring (18) elastic connection respectively between preforming (19) and the back of dustcoat (1) for pressure frame (17) can make it reset fast again under reset spring (18) effect after once start plate (10) is pressed.

3. The rearview mirror assembly for an instrument panel according to claim 2, wherein: the utility model discloses a flexible shade strip, including dustcoat (1), including flexible shade strip (4), top, bottom, upper hanging plate (21), flexible shade strip (4), baffle (20) are equipped with respectively in the preceding both sides of dustcoat (1), and two baffle (20) cover are in the both sides of flexible shade strip (4) for carry out the location direction when releasing length downwards to flexible shade strip (4), flexible shade strip (4) run through to the top both sides of dustcoat (1) respectively be equipped with a piece and go up hanging plate (21), the preceding both sides of dustcoat (1) respectively are equipped with one and lie in lower hanging seat (22) of its bottom both corners department, go up being connected with elasticity stretching strap (23) between hanging plate (21) and lower hanging seat (22), when making this flexible shade strip (4) release length downwards along lens (2), utilize the quick tightening effect of elasticity stretching strap (23) to with the base quick pull-down of flexible shade strip (4) to coincide each other with the base of lens (2).

4. A rearview mirror assembly for an instrument panel as in claim 3, wherein: the top end of the outer cover (1) is provided with a top groove (24) communicated with the front groove (5) and the assembly cavity (3) along the transverse direction of the outer cover, and a round corner (25) which is used for releasing the flexible shielding belt (4) from the interior of the assembly cavity (3) upwards towards the front side direction of the lens (2) to smooth and excessively is formed between the front groove (5) and the top groove (24).

5. The rearview mirror assembly for an instrument panel according to claim 4, wherein: the top end of the outer cover (1) is provided with a USB component (26), the USB component (26) comprises a sleeve (27) fixed in the assembly cavity (3) and positioned in the top groove (24), a through groove (28) arranged on the sleeve (27) and communicated with the tube cavity of the sleeve (27), and an integrated module (29) fixed in the assembly cavity (3) and close to the sleeve (27), one end of the integrated module (29) is provided with a stationary contact (30), the stationary contact (30) penetrates through the groove (28) and is exposed in the sleeve (27), a USB interface (31) is inserted in the sleeve (27), one end of the USB interface (31) close to the through groove (28) is provided with a movable contact (32) which is contacted with the stationary contact (30) and is connected with the integrated module (29), the stationary contact (30) is an assembly wiring point on the integrated module (29), the instrument panel also provides a power supply and a signal introducing connection point into the rear part through the USB interface (31), the bottom end of the sleeve (27) is provided with a perforation hole (33), the jack (27) pushes the jack (33) upwards, and simultaneously drives the jack rod (7) to move upwards, and the jack rod (34) moves upwards in a vertical direction, and drives the jack rod (7) to move upwards, and the jack rod (7) moves upwards, and the jack (7 moves downwards and the jack (7), and the ejector rod (34) enters the sleeve (27) along the perforation (33) so as to move the USB interface (31) in the sleeve (27) upwards and simultaneously separate the movable contact (32) of the USB interface (31) from the fixed contact (30) of the integrated module (29).

6. The rearview mirror assembly for an instrument panel according to claim 5, wherein: the top end of the outer cover (1) is provided with a sealing plate (35) buckled on the top groove (24).