CN104999968A

CN104999968A - Stop lamp inspection mechanical hand device

Info

Publication number: CN104999968A
Application number: CN201510374456.9A
Authority: CN
Inventors: 林智勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-06-29
Filing date: 2015-06-29
Publication date: 2015-10-28

Abstract

A stop lamp inspection mechanical hand device comprises rearview mirrors of a first motor vehicle, front lamps of a second motor vehicle and a controller. The rearview mirrors comprise mirror shells, detection lenses and detection mechanical hands. The detection mechanical hands are installed in the mirror shells. The detection lenses are connected with the detection mechanical hands. The mirror shells are provided with detection guide ports. The faces of the detection lenses face the rear face of the first motor vehicle. The controller is provided with a start switch, a stop switch, a first sensor and a second sensor. The first sensor and the second sensor are arranged on a shell of a power element. In the use process, the detection mechanical hands are controlled through the controller to drive the detection lenses to stretch out, the front lamps of the rear motor vehicle can be observed through the detection lenses, the detection lenses are combined with reflecting mirrors of the front lamps of the rear motor vehicle, and whether stop lamps are turned on or not is detected; a driver can detect whether the stop lamps are broken or not without getting off the vehicle and the purpose that the driver detects the stop lamps in the travelling process is achieved.

Description

Stoplight stop lamp checks robot device

Technical field

The present invention relates to a kind of brake lights failure testing fixture, particularly a kind of stoplight stop lamp checks robot device.

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, is difficult to detect, unfavorable to the traffic safety of self-propelled vehicle, and a kind of stoplight stop lamp checks that robot device 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 stoplight stop lamp to check robot device, whether the stoplight stop lamp for inspection machine motor-car is normal.

The technical solution used in the present invention is: stoplight stop lamp checks robot device, 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, detects eyeglass and inspecting manipuator, inspecting manipuator is installed in mirror shell, and detect eyeglass and be connected with inspecting manipuator, mirror shell is provided with detection targeting port, detect eyeglass and be positioned at the position facing toward and detect targeting port, detect the minute surface of eyeglass after first self-propelled vehicle; Inspecting manipuator is made up of dynamical element, and dynamical element includes hydraulic actuating cylinder, cylinder and electric element; The unit head of dynamical element is fixedly connected with detection eyeglass, the shell of dynamical element is fixedly connected with mirror shell, controller is provided with starting switch, halt switch, first sensor and the second sensor, and first sensor and the second sensor are located on the shell of dynamical element.

Stoplight stop lamp checks that the using method of robot device is: during use, first self-propelled vehicle is when waiting traffic lights, chaufeur hand presses the starting switch of controller, controller controls dynamical element and drives detection eyeglass to stretch out in mirror shell, make chaufeur can see the headlight of second self-propelled vehicle of following after first self-propelled vehicle in detection eyeglass, then touch on the brake, whether check brakes lamp is bright; Whether chaufeur observes second self-propelled vehicle below headlight by detecting eyeglass 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 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: stoplight stop lamp checks that robot device is provided with, utilizing controller to control inspecting manipuator drives detection eyeglass to stretch out, make detection eyeglass can observe the headlight of self-propelled vehicle after it, utilize and detect eyeglass and combine with the catadioptre of the headlight of self-propelled vehicle below, 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 that stoplight stop lamp checks robot device structural representation;

Fig. 2 is the structural representation after detection eyeglass stretches out.

Detailed description of the invention

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

Stoplight stop lamp shown in Fig. 1 check eyeglass shown in robot device structural representation and Fig. 2 stretch out after structural representation, stoplight stop lamp checks robot device, 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, detects eyeglass 8 and inspecting manipuator 9, inspecting manipuator 9 is installed in mirror shell 7, detect eyeglass 8 to be connected with inspecting manipuator 9, mirror shell 7 is provided with and detects targeting port 10, detect eyeglass 8 and be positioned at the position facing toward and detect targeting port 10, detect the minute surface of eyeglass 8 after first self-propelled vehicle 1; Detect the width of targeting port 10 and be highly greater than the width and height that detect eyeglass 8, to ensure that detecting eyeglass 8 can stretch out outside mirror shell 7 in detection targeting port 10; Inspecting manipuator 9 is made up of dynamical element 11, and dynamical element 11 includes hydraulic actuating cylinder, cylinder and electric element; The unit head 12 of dynamical element 11 is fixedly connected with detection eyeglass 8, the shell of dynamical element 11 is fixedly connected with mirror shell 7, controller 5 is provided with starting switch 13, halt switch 14, first sensor 15 and the second sensor 16, and first sensor 15 and the second sensor 16 are located on the shell of dynamical element 11.

Stoplight stop lamp checks that the using method of robot device is: during use, first self-propelled vehicle 1 is when waiting traffic lights, chaufeur hand presses the starting switch 13 of controller 5, controller 5 controls dynamical element 11 and drives detection eyeglass 8 to stretch out in mirror shell 7, make chaufeur can see the headlight 4 of second self-propelled vehicle 3 of following after first self-propelled vehicle 1 in detection eyeglass 8, then touch on the brake, whether check brakes lamp is bright; Whether chaufeur observes second self-propelled vehicle 3 next headlight 4 by detecting eyeglass 8 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.

When stoplight stop lamp checks that robot device uses, controller 5 controls dynamical element 11 and drives detection eyeglass 8 to stretch out in the detection targeting port 10 of mirror shell 7, when detect eyeglass 8 stretch out put in place time, the unit head 12 of dynamical element 11 is close to the position of first sensor 15, first sensor 15 is by its Signal transmissions to controller 5, and controller 5 controls dynamical element 11 to be stopped; After detection eyeglass 8 stretches out and puts in place, chaufeur can observe the headlight 4 of second self-propelled vehicle 3 after first self-propelled vehicle 1 in detection eyeglass 8; Then touch on the brake, utilize and detect eyeglass 8 and combine with the catadioptre of 3 headlights 4 of second self-propelled vehicle below, whether the stoplight stop lamp detecting first self-propelled vehicle 1 is bright, and whether detection stoplight stop lamp has fault; Detect complete, the halt switch 14 of controller 5 is pressed with hand, controller 5 controls dynamical element 11 and drives eyeglass 8 to reset, when detecting eyeglass 8 and returning to initial position, dynamical element 11 unit head 12 is close to the position of the second sensor 16, second sensor 16 is by its Signal transmissions to controller 5, and controller 5 controls dynamical element 11 to be stopped.

In order to better observe the situation of left stoplight stop lamp and right stoplight stop lamp, back mirror 2 includes left-hand mirror 17 and right rear view mirror 18; Left-hand mirror 17 includes left mirror shell 19, left detection eyeglass 20 and left dynamical element 21, left dynamical element 21 is installed in left mirror shell 19, left detection eyeglass 20 is connected with dynamical element 21, left mirror shell 19 is provided with left detection targeting port 22, and left detection eyeglass 20 is positioned at the position facing to left detection targeting port 22; Right rear view mirror 18 includes right mirror shell 23, right detection eyeglass 24 and right dynamical element 25, right dynamical element 25 is installed in right mirror shell 23, right detection eyeglass 24 is connected with right dynamical element 25, right mirror shell 23 is provided with right detection targeting port 26, and right detection eyeglass 24 is positioned at the position facing to right detection targeting port 26.

When chaufeur touches on the brake, whether the light deflector being observed the left front lamp 27 on second self-propelled vehicle 3 left side after it by the left detection eyeglass 20 of left-hand mirror 17 there is the light that stoplight stop lamp is bright, checks whether left stoplight stop lamp has fault; When left detection eyeglass 20 reaches the outside of left mirror shell 19, left detection eyeglass 20 is positioned at the left side of left mirror shell 19, and the distance of left detection eyeglass 20 to the first self-propelled vehicle 1 line of centers is greater than the distance of left mirror shell 19 to the first self-propelled vehicle 1 line of centers.

When chaufeur touches on the brake, whether the light deflector of the right front lamp 28 observed after it on the right of second self-propelled vehicle 3 by the right detection eyeglass 24 of right rear view mirror 18 there is the light that stoplight stop lamp is bright, checks whether right stoplight stop lamp has fault; When right detection eyeglass 24 reaches the outside of right mirror shell 23, right detection eyeglass 24 is positioned at the right of right mirror shell 23, and the distance of right detection eyeglass 24 to the first self-propelled vehicle 1 line of centers is greater than the distance of right mirror shell 23 to the first self-propelled vehicle 1 line of centers.

Dynamical element 11 is provided with various structures, and when dynamical element 11 is hydraulic actuating cylinder, dynamical element 11 is provided with hydraulic efficiency gear, and controller 5 is provided with hydraulic control line and is connected with hydraulic efficiency gear; Or when dynamical element 11 is cylinder, dynamical element 11 is provided with compressed air source unit, controller 5 is provided with source of the gas control line and is connected with compressed air source unit.

In order to implement the detection of first left stoplight stop lamp of self-propelled vehicle 1 and right stoplight stop lamp, first sensor 15 includes left first sensor 29 and right first sensor 30, second sensor 16 includes left second sensor 31 and right second sensor 32; Left first sensor 29 and left second sensor 31 are installed on left dynamical element 21, and first sensor 29 is installed on the left end of left dynamical element 21, and left second sensor 31 is installed on the right-hand member of left dynamical element 21; Right first sensor 30 and right second sensor 32 are installed on right dynamical element 25, and right first sensor 30 is installed on the right-hand member of right dynamical element 25, and right second sensor 32 is installed on right dynamical element 25 left end.

Controller 5 controls left dynamical element 21 when driving left detection eyeglass 20 to stretch out to put in place, the induction pieces of the left unit head 33 of left dynamical element 21 is close to left first sensor 29, left first sensor 29 by its Signal transmissions to controller 5, controller 5 controls left dynamical element 21 to be stopped, and left detection eyeglass 20 stops stretching out; Controller 5 controls left dynamical element 21 and drives left detection eyeglass 20 to reset when putting in place, the induction pieces of the left unit head 33 of left dynamical element 21 is close to left second sensor 31, left second sensor 31 by its Signal transmissions to controller 5, controller 5 controls left dynamical element 21 to be stopped, and left detection eyeglass 20 stops retracting.

Controller 5 controls right dynamical element 25 when driving right detection eyeglass 24 to stretch out to put in place, the induction pieces of the right unit head 34 of right dynamical element 25 is close to right first sensor 30, right first sensor 30 by its Signal transmissions to controller 5, controller 5 controls right dynamical element 25 to be stopped, and right detection eyeglass 24 stops stretching out; Controller 5 controls right dynamical element 25 and drives right detection eyeglass 24 to reset when putting in place, the induction pieces of the right unit head 34 of right dynamical element 25 is close to right second sensor 32, right second sensor 32 by its Signal transmissions to controller 5, controller 5 controls right dynamical element 25 to be stopped, and right detection eyeglass 24 stops retracting.

In order to make detection eyeglass 8 reach outside mirror shell 7 in mirror shell 7, the stroke of dynamical element 11 is greater than and detects eyeglass 8 in mirror shell 7, reach stroke outside mirror shell 7.

In order to control the stroke detecting eyeglass 8, the distance of first sensor 15 to the second sensor 16 is equal with the stroke that detection eyeglass 8 reaches outside mirror shell 7 in mirror shell 7.

Claims

1. stoplight stop lamp checks robot device, include the back mirror (2) of first self-propelled vehicle (1), the headlight (4) of second self-propelled vehicle (3) and controller (5), back mirror (2) includes mirror shell (7), detect eyeglass (8) and inspecting manipuator (9), mirror shell (7) is provided with and detects targeting port (10), inspecting manipuator (9) is made up of dynamical element (11), the unit head (12) of dynamical element (11) is fixedly connected with detection eyeglass (8), controller (5) is provided with starting switch (13), halt switch (14), first sensor (15) and the second sensor (16), back mirror (2) includes left-hand mirror (17) and right rear view mirror (18), left-hand mirror (17) includes left mirror shell (19), left detection eyeglass (20) and left dynamical element (21), left mirror shell (19) is provided with left detection targeting port (22), right rear view mirror (18) includes right mirror shell (23), right detection eyeglass (24) and right dynamical element (25), right mirror shell (23) is provided with right detection targeting port (26), first sensor (15) includes left first sensor (29) and right first sensor (30), second sensor (16) includes left second sensor (31) and right second sensor (32),

It is characterized in that: described stoplight stop lamp checks that the using method of robot device is: during use, first self-propelled vehicle (1) is when waiting traffic lights, chaufeur hand presses the starting switch (16) of controller (5), controller (5) controls dynamical element (11) and drives detection eyeglass (8) to stretch out in mirror shell (7), make chaufeur can see the headlight (4) of second self-propelled vehicle (3) of following after first self-propelled vehicle (1) in detection eyeglass (8), then touch on the brake, whether check brakes lamp is bright; Whether chaufeur observes second self-propelled vehicle (3) below headlight (4) by detecting eyeglass (8) 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, there is the light that stoplight stop lamp is bright in the headlight (4) of second self-propelled vehicle (3) next, explanation 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.

2. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: when described stoplight stop lamp checks that robot device uses, controller (5) controls dynamical element (11) and drives detection eyeglass (8) to stretch out in the detection targeting port (10) of mirror shell (7), when detect eyeglass (8) stretch out put in place time, the unit head (12) of dynamical element (11) is close to the position of first sensor (15), first sensor (15) is by its Signal transmissions to controller (5), and controller (5) controls dynamical element (11) to be stopped; After detection eyeglass (8) is stretched out and put in place, chaufeur can observe the headlight (4) of second self-propelled vehicle (3) after first self-propelled vehicle (1) in detection eyeglass (8); Then touch on the brake, utilize and detect eyeglass (8) and combine with the catadioptre of (3) headlight (4) of second self-propelled vehicle below, whether the stoplight stop lamp detecting first self-propelled vehicle (1) is bright, and whether detection stoplight stop lamp has fault; Detect complete, the halt switch (14) of controller (5) is pressed with hand, controller (5) controls dynamical element (11) and drives eyeglass (8) to reset, when detecting eyeglass (8) and returning to initial position, dynamical element (11) unit head (12) is close to the position of the second sensor (16), second sensor (16) is by its Signal transmissions to controller (5), and controller (5) controls dynamical element (11) to be stopped.

3. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: when described chaufeur touches on the brake, whether the light deflector being observed the left front lamp (27) on second self-propelled vehicle (3) left side after it by the left detection eyeglass (20) of left-hand mirror (17) there is the light that stoplight stop lamp is bright, checks whether left stoplight stop lamp has fault.

4. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: when described left detection eyeglass (20) reaches the outside of left mirror shell (19), left detection eyeglass (20) is positioned at the left side of left mirror shell (19), and left detection eyeglass (20) is greater than the distance of left mirror shell (19) to first self-propelled vehicle (1) line of centers to the distance of first self-propelled vehicle (1) line of centers.

5. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: when described chaufeur touches on the brake, whether the light deflector being observed the right front lamp (28) on second self-propelled vehicle (3) the right after it by the right detection eyeglass (24) of right rear view mirror (18) there is the light that stoplight stop lamp is bright, checks whether right stoplight stop lamp has fault.

6. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: when described right detection eyeglass (24) reaches the outside of right mirror shell (23), right detection eyeglass (24) is positioned at the right of right mirror shell (23), and right detection eyeglass (24) is greater than the distance of right mirror shell (23) to first self-propelled vehicle (1) line of centers to the distance of first self-propelled vehicle (1) line of centers.

7. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: described controller (5) controls left dynamical element (21) when driving left detection eyeglass (20) to stretch out to put in place, the left unit head (33) of left dynamical element (21) is close to left first sensor (29), left first sensor (29) by its Signal transmissions to controller (5), controller (5) controls left dynamical element (21) to be stopped, and the stopping of left detection eyeglass (20) stretches out.

8. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: described controller (5) controls left dynamical element (21) and drives left detection eyeglass (20) to reset when putting in place, the left unit head (33) of left dynamical element (21) is close to left second sensor (31), left second sensor (31) by its Signal transmissions to controller (5), controller (5) controls left dynamical element (21) to be stopped, and the stopping of left detection eyeglass (20) is retracted.

9. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: described controller (5) controls right dynamical element (25) when driving right detection eyeglass (24) to stretch out to put in place, the right unit head (34) of right dynamical element (25) is close to right first sensor (30), right first sensor (30) by its Signal transmissions to controller (5), controller (5) controls right dynamical element (25) to be stopped, and the stopping of right detection eyeglass (24) stretches out.

10. stoplight stop lamp according to claim 1 checks robot device, it is characterized in that: described controller (5) controls right dynamical element (25) and drives right detection eyeglass (24) to reset when putting in place, the right unit head (34) of right dynamical element (25) is close to right second sensor (32), right second sensor (32) by its Signal transmissions to controller (5), controller (5) controls right dynamical element (25) to be stopped, and the stopping of right detection eyeglass (24) is retracted.