CN104999964A - Fault detector for intelligent brake light - Google Patents

Abstract

A fault detector for an intelligent brake light comprises a rear-view mirror of a first motor vehicle, a headlight of a second motor vehicle and a controller, wherein the rear-view mirror comprises a mirror shell, a lens and a driving device; the lens is hinged with the mirror shell; a rear-view mirror surface and a brake checking mirror surface are arranged on the lens; the brake checking mirror is positioned on the back surface of the rear-view mirror surface; the driving device comprises an electric push rod; a starting switch, a stopping switch and a sensor are arranged on the controller; and the sensor is mounted in the mirror shell. During using, the electric push rod is controlled by the controller to control the lens to swing so that the headlight of the rear motor vehicle can be observed by using the brake checking mirror surface; and through the combination of the brake checking mirror surface and a reflecting mirror of the headlight of the rear motor vehicle, whether the brake light is turned on or not is checked. A driver can check whether the brake light has a fault or not without getting off; therefore, a problem that the driver cannot check the brake light during driving is solved.

Description

Intelligent braking lamp failure detector

Technical field

The present invention relates to a kind of brake lights failure testing fixture, particularly a kind of intelligent braking lamp failure detector.

Background technology

At present, self-propelled vehicle is in the process travelled, and whether stoplight stop lamp has fault, and whether stoplight stop lamp is bright, and be difficult to detect, unfavorable to the traffic safety of self-propelled vehicle, a kind of intelligent braking lamp failure detector has become motor vehicle running security needs.

Summary of the invention

The present invention seeks to overcome the deficiencies in the prior art, provide a kind of intelligent braking lamp failure detector, whether the stoplight stop lamp for inspection machine motor-car is normal.

The technical solution used in the present invention is: intelligent braking lamp failure detector, include the back mirror of first self-propelled vehicle, the headlight of second self-propelled vehicle and controller, second self-propelled vehicle is after first self-propelled vehicle, and controller is positioned at the operator's compartment of first self-propelled vehicle; Back mirror includes mirror shell, eyeglass and actuating device, eyeglass and mirror shell hinged, eyeglass is provided with backsight minute surface and brake checks minute surface, and brake checks that minute surface is positioned at the back side of backsight minute surface; Actuating device includes electric pushrod, and shell and the mirror shell of electric pushrod are hinged, and dynamical axis and the eyeglass of electric pushrod are hinged; Controller is provided with starting switch, halt switch and sensor, and sensor is installed in mirror shell.In order to keep the function of its backsight of back mirror, the initial condition of back mirror is: eyeglass is positioned at the frame of mirror shell, and the back mirror of eyeglass is facing to after first self-propelled vehicle, and the chaufeur of first self-propelled vehicle can observe situation below in backsight minute surface; The brake of eyeglass checks that minute surface is positioned at the inside of mirror shell, and brake checks that minute surface is towards front; The dynamical axis of electric pushrod is not for stretch out state, and electric pushrod is enclosed in inside mirror shell by eyeglass, eyeglass proximity transducer.

The using method of intelligent braking lamp failure detector is: during use, first self-propelled vehicle is when waiting traffic lights, chaufeur hand presses the starting switch of controller, the dynamical axis that controller controls electric pushrod stretches out, the eyeglass of the dynamical axis promotion back mirror of electric pushrod is opened and is stretched out, and makes brake check the minute surface of minute surface backward, makes chaufeur check that minute surface can see the headlight of second self-propelled vehicle of following after first self-propelled vehicle in brake, then touch on the brake, whether check brakes lamp is bright; By brake, chaufeur checks whether the headlight of second self-propelled vehicle after specular observation occurs the light that stoplight stop lamp is bright; When touching on the brake, the light of stoplight stop lamp is irradiated on the headlight of second self-propelled vehicle next, after the headlight of second self-propelled vehicle there is the light that stoplight stop lamp is bright, illustrate that stoplight stop lamp is normal, the headlight of second self-propelled vehicle next does not occur brake lights failure being described the light that stoplight stop lamp is bright; The chaufeur of first self-propelled vehicle need not be got off, and just can check whether its stoplight stop lamp has fault, solves the problem of driver drives vehicle check brakes lamp.

The invention has the beneficial effects as follows: intelligent braking lamp failure detector is provided with brake and checks minute surface, utilize controller to control electric pushrod and control eyeglass swing, brake is checked, and minute surface can observe the headlight of self-propelled vehicle after it, minute surface combines with the catadioptre of the headlight of self-propelled vehicle below to utilize brake to check, whether detection stoplight stop lamp is bright; Chaufeur need not be got off, and just can check whether its stoplight stop lamp has fault, solves the problem of driver drives vehicle check brakes lamp.

Accompanying drawing explanation

Fig. 1 is intelligent braking lamp failure detector structural representation;

Fig. 2 is the structural representation after eyeglass is opened.

Detailed description of the invention

With specific embodiment, the present invention is further detailed with reference to the accompanying drawings below:

Eyeglass 6 shown in intelligent braking lamp failure detector structural representation shown in Fig. 1 and Fig. 2 open after structural representation, intelligent braking lamp failure detector, it is characterized in that: described intelligent braking lamp failure detector, include headlight 4 and the controller 5 of back mirror 2, second self-propelled vehicle 3 of first self-propelled vehicle 1, second self-propelled vehicle 3 is after first self-propelled vehicle 1, and controller 5 is positioned at the operator's compartment 6 of first self-propelled vehicle 1; Back mirror 2 includes mirror shell 7, eyeglass 8 and actuating device 9, and eyeglass 8 is hinged with mirror shell 7, and eyeglass 8 is provided with backsight minute surface 10 and brake checks minute surface 11, and brake checks that minute surface 11 is positioned at the back side of backsight minute surface 10; Actuating device 9 includes electric pushrod 12, and the shell 13 of electric pushrod 12 is hinged with mirror shell 7, and the dynamical axis 14 of electric pushrod 12 is hinged with eyeglass 8; Controller 5 is provided with starting switch 15, halt switch 16 and sensor 17, and sensor 17 is installed in mirror shell 7.

In order to keep the function of its backsight of back mirror 2, the initial condition of back mirror 2 is: eyeglass 8 is positioned at the frame 18 of mirror shell 7, the backsight minute surface 10 of eyeglass 8 is after first self-propelled vehicle 1, and the chaufeur of first self-propelled vehicle 1 can observe situation below in backsight minute surface 10; The brake of eyeglass 8 checks that minute surface 11 is positioned at the inside of mirror shell 7, and brake checks that minute surface 11 is towards front; The dynamical axis 14 of electric pushrod 12 is not for stretch out state, and electric pushrod 12 is enclosed in inside mirror shell 7 by eyeglass 8, eyeglass 8 proximity transducer 17.

The using method of intelligent braking lamp failure detector is: during use, first self-propelled vehicle 1 is when waiting traffic lights, chaufeur hand presses the starting switch 15 of controller 5, the dynamical axis 14 that controller 5 controls electric pushrod 12 stretches out, the eyeglass 8 that the dynamical axis 14 of electric pushrod 12 promotes back mirror 2 is opened and is stretched out, brake is made to check the minute surface of minute surface 11 backward, chaufeur is made to check that minute surface 11 can see the headlight 4 of second self-propelled vehicle 3 of following after first self-propelled vehicle 1 in brake, then touch on the brake, whether check brakes lamp is bright; Whether the headlight 4 that chaufeur observes second self-propelled vehicle 3 next by brake inspection minute surface 11 there is the light that stoplight stop lamp is bright; When touching on the brake, the light of stoplight stop lamp is irradiated on the headlight 4 of second self-propelled vehicle 3 next, after the headlight 4 of second self-propelled vehicle 3 there is the light that stoplight stop lamp is bright, illustrate that stoplight stop lamp is normal, the headlight 4 of second self-propelled vehicle 3 next does not occur brake lights failure being described the light that stoplight stop lamp is bright; The chaufeur of first self-propelled vehicle 1 need not be got off, and just can check whether its stoplight stop lamp has fault, solves the problem of driver drives vehicle check brakes lamp.

Intelligent braking lamp failure detector use time, the dynamical axis 14 that controller 5 controls electric pushrod 12 stretches out, and the eyeglass 8 that dynamical axis 14 postpones visor 2 swings, and eyeglass 8 is overturn, make brake check minute surface 11 minute surface backward and the minute surface of backsight minute surface 7 forward; Then touch on the brake, whether the headlight 4 utilizing brake inspection minute surface 11 to observe second self-propelled vehicle 3 below occurs the bright red light of first self-propelled vehicle 1 stoplight stop lamp, and whether check brakes lamp has fault; Check complete, the halt switch 16 of controller 5 is pressed with hand, the dynamical axis 14 that controller 5 controls electric pushrod 12 is regained, dynamical axis 14 draws eyeglass 8 reversing sense to swing reset, when eyeglass 8 resets the position of proximity transducer 17, sensor 17 is by its Signal transmissions to controller 5, and controller 5 controls electric pushrod 12 to be stopped, the eyeglass 8 of back mirror 2 resets to the position of initial condition, recovers the normal usage function of back mirror 2.

In order to better observe the situation of left stoplight stop lamp and right stoplight stop lamp, back mirror 2 includes left-hand mirror 19 and right rear view mirror 20; Electric pushrod 12 includes left electric pushrod 21 and right electric pushrod 22; Left-hand mirror 19 includes left mirror shell 23 and left eyeglass 24, is provided with left hinge 47 between left eyeglass 23 and left mirror shell 24, and left eyeglass 23 is connected with left mirror shell 24 by left hinge 47, and left eyeglass 24 is provided with left-hand mirror face 25 and left brake checks minute surface 26; The left dynamical axis 27 of left electric pushrod 21 is hinged with left eyeglass 24, and the left outside shell 28 of left electric pushrod 21 is hinged with left mirror shell 23; Right rear view mirror 20 includes right mirror shell 29 and right eyeglass 30, is provided with right hinge 48 between right eyeglass 30 and right mirror shell 29, and right eyeglass 30 is connected with right mirror shell 29 by right hinge 48, and right eyeglass 30 includes right rear view mirror face 31 and right brake checks minute surface 32; The right dynamical axis 33 of right electric pushrod 22 is hinged with right eyeglass 30, and the right casing 34 of right electric pushrod 22 is hinged with right mirror shell 29.

When intelligent braking lamp failure detector uses, when chaufeur touches on the brake, whether the light deflector observing the left front lamp 35 on second self-propelled vehicle 3 left side after it by the left brake inspection minute surface 26 of left-hand mirror 19 there is the light that stoplight stop lamp is bright, checks whether left stoplight stop lamp has fault; After left electric pushrod 21 promotes left eyeglass 24 rotating opening, left eyeglass 24 swings to the outside of left mirror shell 23, make left brake check that minute surface 26 is positioned at the left side of left mirror shell 23, left brake is checked, and the distance of minute surface 26 to the first self-propelled vehicle 1 line of centers is greater than the distance of left mirror shell 23 to the first self-propelled vehicle 1 line of centers.

When intelligent braking lamp failure detector uses, when chaufeur touches on the brake, check whether the light deflector of the right front lamp 36 that minute surface 32 is observed after it on the right of second self-propelled vehicle 3 occurs the light that stoplight stop lamp is bright, checks whether right stoplight stop lamp has fault by the right brake of right rear view mirror 20; After right electric pushrod 22 promotes right eyeglass 30 rotating opening, right eyeglass 30 swings to the outside of right mirror shell 29, make right brake check that minute surface 32 is positioned at the right of right mirror shell 29, make the distance of right mirror shell 29 to the first self-propelled vehicle 1 line of centers be greater than the distance of right mirror shell 29 to the first self-propelled vehicle 1 line of centers.

In order to implement the connection of electric pushrod 12 and eyeglass 8 and mirror shell 7, actuating device 9 includes electric pushrod 12, first hinged seat 37 and the second hinged seat 38, first hinged seat 37 is fixedly connected with eyeglass 8, second hinged seat 38 is fixedly connected with mirror shell 7, the dynamical axis 14 of electric pushrod 12 and the first hinged seat 37 hinged, the shell 13 of electric pushrod 12 and the second hinged seat 38 hinged; First hinged seat 37 includes left first hinged seat 39 and left second hinged seat 40, and left first hinged seat 39 is fixedly connected with left eyeglass 24, the left dynamical axis 27 of left electric pushrod 21 and the first hinged seat 39 hinged; Left second hinged seat 40 is fixedly connected with left mirror shell 23, and the left outside shell 28 of left electric pushrod 21 is hinged with left second hinged seat 40; Second hinged seat 38 includes right first hinged seat 41 and right second hinged seat 42, and right first hinged seat 41 is fixedly connected with right eyeglass 30, and the right dynamical axis 33 of right electric pushrod 22 is hinged with right first hinged seat 41; Right second hinged seat 42 is fixedly connected with right mirror shell 29, and the right casing 28 of right electric pushrod 22 is hinged with right second hinged seat 42.

Minute surface 11 observes situation below conveniently to utilize the brake of the eyeglass 8 opened to check, control the angle that eyeglass 8 swings, what controller 5 was provided with electric pushrod 12 stretches out master cock 43 and retraction master cock 44, for controlling the stroke of electric pushrod 12, to reach the object controlling the angle that eyeglass 8 rotates; The angle that eyeglass 8 rotates is less than 180 ° of angles, and the angle that eyeglass 8 rotates is directly proportional to the stroke of the dynamical axis 14 of electric pushrod 12; When eyeglass 8 is opened, press and stretch out master cock 43, the dynamical axis 14 that controller 5 controls electric pushrod 12 stretches out, and the angle that eyeglass 8 is opened increases; Press retraction master cock 44, the dynamical axis 14 that controller 5 controls electric pushrod 12 is retracted, dynamical axis 14 drives eyeglass 8 counter-rotation, utilize and stretch out the stroke that master cock 43 and retraction master cock 44 control the dynamical axis 14 of electric pushrod 12, the brake of eyeglass 8 is checked, and minute surface 11 is in the position of the headlight observing second self-propelled vehicle 3.

In order to implement the weave control of left eyeglass 24 and right eyeglass 30, sensor 17 includes left sensor 45 and right sensor 46, left sensor 45 is installed in left mirror shell 24, right sensor 46 is installed in right mirror shell 29, and controller 5 is connected with left sensor 45 and right sensor 46 by control line; When left electric pushrod 21 drives left eyeglass 24 to reset, left eyeglass 24 is close to left sensor 45, and left sensor 45 is by its Signal transmissions to controller 5, and controller 5 controls left electric pushrod 21 to be stopped; When right electric pushrod 22 drives right eyeglass 30 to reset, right eyeglass 30 is close to right sensor 46, and right sensor 46 is by its Signal transmissions to controller 5, and controller 5 controls right electric pushrod 22 to be stopped.

Claims (10)

1. intelligent braking lamp failure detector, it is characterized in that: described intelligent braking lamp failure detector, include the back mirror (2) of first self-propelled vehicle (1), the headlight (4) of second self-propelled vehicle (3) and controller (5), second self-propelled vehicle (3) is after first self-propelled vehicle (1), and controller (5) is positioned at the operator's compartment (6) of first self-propelled vehicle (1); Back mirror (2) includes mirror shell (7), eyeglass (8) and actuating device (9), eyeglass (8) is hinged with mirror shell (7), eyeglass (8) is provided with backsight minute surface (10) and brake checks minute surface (11), and brake checks that minute surface (11) is positioned at the back side of backsight minute surface (10); Actuating device (9) includes electric pushrod (12), and the shell (13) of electric pushrod (12) is hinged with mirror shell (7), and the dynamical axis (14) of electric pushrod (12) is hinged with eyeglass (8); Controller (5) is provided with starting switch (15), halt switch (16) and sensor (17), and sensor (17) is installed in mirror shell (7).

2. intelligent intelligent braking lamp failure detector according to claim 1, it is characterized in that: the initial condition of described back mirror (2) is: eyeglass (8) is positioned at the frame (18) of mirror shell (7), the backsight minute surface (10) of eyeglass (8) is after first self-propelled vehicle (1), the brake of eyeglass (8) checks that minute surface (11) is positioned at the inside of mirror shell (7), and brake checks that minute surface (11) is towards front; The dynamical axis (14) of electric pushrod (12) is not for stretch out state, and electric pushrod (12) is enclosed in mirror shell (7) the inside by eyeglass (8), eyeglass (8) proximity transducer (17).

3. intelligent intelligent braking lamp failure detector according to claim 1, is characterized in that: described back mirror (2) includes left-hand mirror (19) and right rear view mirror (20); Electric pushrod (12) includes left electric pushrod (21) and right electric pushrod (22).

4. intelligent braking lamp failure detector according to claim 3, it is characterized in that: described left-hand mirror (19) includes left mirror shell (23) and left eyeglass (24), left hinge (47) is provided with between left eyeglass (23) and left mirror shell (24), left eyeglass (23) is connected with left mirror shell (24) by left hinge (47), and left eyeglass (24) is provided with left-hand mirror face (25) and left brake checks minute surface (26); The left dynamical axis (27) of left electric pushrod (21) is hinged with left eyeglass (24), and the left outside shell (28) of left electric pushrod (21) is hinged with left mirror shell (23).

5. intelligent braking lamp failure detector according to claim 3, it is characterized in that: described right rear view mirror (20) includes right mirror shell (29) and right eyeglass (30), right hinge (48) is provided with between right eyeglass (30) and right mirror shell (29), right eyeglass (30) is connected with right mirror shell (29) by right hinge (48), and right eyeglass (30) includes right rear view mirror face (31) and right brake checks minute surface (32); The right dynamical axis (33) of right electric pushrod (22) is hinged with right eyeglass (30), and the right casing (34) of right electric pushrod (22) is hinged with right mirror shell (29).

6. intelligent braking lamp failure detector according to claim 1, it is characterized in that: described actuating device (9) includes electric pushrod (12), the first hinged seat (37) and the second hinged seat (38), first hinged seat (37) is fixedly connected with eyeglass (8), second hinged seat (38) is fixedly connected with mirror shell (7), the dynamical axis (14) of electric pushrod (12) is hinged with the first hinged seat (37), and the shell (13) of electric pushrod (12) is hinged with the second hinged seat (38).

7. intelligent braking lamp failure detector according to claim 6, it is characterized in that: described the first hinged seat (37) includes left first hinged seat (39) and left second hinged seat (40), left first hinged seat (39) is fixedly connected with left eyeglass (24), and the left dynamical axis (27) of left electric pushrod (21) is hinged with the first hinged seat (39); Left second hinged seat (40) is fixedly connected with left mirror shell (23), and the left outside shell (28) of left electric pushrod (21) is hinged with left second hinged seat (40).

8. intelligent braking lamp failure detector according to claim 6, it is characterized in that: described the second hinged seat (38) includes right first hinged seat (41) and right second hinged seat (42), right first hinged seat (41) is fixedly connected with right eyeglass (30), and the right dynamical axis (33) of right electric pushrod (22) is hinged with right first hinged seat (41); Right second hinged seat (42) is fixedly connected with right mirror shell (29), and the right casing (28) of right electric pushrod (22) is hinged with right second hinged seat (42).

9. intelligent braking lamp failure detector according to claim 6, is characterized in that: what described controller (5) was provided with electric pushrod (12) stretches out master cock (43) and retraction master cock (44).

10. intelligent braking lamp failure detector according to claim 6, it is characterized in that: described sensor (17) includes left sensor (45) and right sensor (46), left sensor (45) is installed in left mirror shell (24), right sensor (46) is installed in right mirror shell (29), and controller (5) is connected with left sensor (45) and right sensor (46) by control line.