CN109572540A - A kind of tailstock scintillator with auto parallel Connection control - Google Patents

Abstract

A kind of tailstock scintillator with auto parallel Connection control, including car body, it is characterised in that: be provided with power supply, power supply is provided by car body；Hull back is provided with high beam and dipped headlight；It is provided with 2 time-delay relays with delay function；It is provided with photosensitive delay switch, photosensitive delay switch includes photosensitive sensor；Dipped headlight is in parallel with a time-delay relay, and high beam is in parallel with a time-delay relay；Circuit after dipped headlight is in parallel with time-delay relay is connected with the circuit after high beam and time-delay relay parallel connection, is then connected with power supply, photosensitive delay switch；It is provided with single-chip microcontroller；The working condition of photosensitive sensor control single chip computer；The working condition of the photosensitive delay switch is jointly controlled by photosensitive sensor or photosensitive sensor with single-chip microcontroller.The positive effect of the present invention is the switching alternately to shine using the high beam and dipped headlight of hull back, achievees the purpose that front vehicle is prompted high beam should to be switched to dipped headlight.

Description

A kind of tailstock scintillator with auto parallel Connection control

Technical field

The present invention relates to a kind of tailstock scintillators with auto parallel Connection control.

Background technique

Driving vehicle late at night, in the vehicle of motor vehicle front, will receive the photograph of strong light after driver opens high beam It penetrates, strong light will cause to interfere to the driver in front.

During drive routine, when two cars go in the same direction, the driver of other side by high beam of switching, The flashing of dipped headlight is to achieve the purpose that remind opposite vehicle that high beam is switched to dipped headlight.

But when two cars are in the same direction and when row, then the interference of high beam is avoided without very effective means.

Summary of the invention

The object of the present invention is to provide it is a kind of with auto parallel Connection control tailstock scintillator with make up the prior art no Foot.

The present invention is the technical solution realizing purpose and using:

A kind of tailstock scintillator with auto parallel Connection control, including car body, it is characterised in that: be provided with power supply, power supply is by vehicle Body provides, and provides operating voltage for all circuit elements；

Hull back is provided with lamp group, and lamp group includes high beam and dipped headlight；

It is provided with 2 time-delay relays with delay function；

It is provided with photosensitive delay switch, photosensitive delay switch includes photosensitive sensor, and photosensitive sensor is installed on the car body, photosensitive Sensor can receive the irradiation from the strong light in car body rear, and photosensitive delay switch has delayed-breaking-off function；

Dipped headlight is in parallel with a time-delay relay, and high beam is in parallel with a time-delay relay；

Circuit after dipped headlight and time-delay relay are in parallel is connected with the circuit after high beam and time-delay relay parallel connection, then with Power supply, the series connection of photosensitive delay switch；

It is provided with single-chip microcontroller, single-chip microcontroller has self-locking function, and single-chip microcontroller can control the working condition of 2 time-delay relays, single Piece machine connects to power supply；

The working condition of photosensitive sensor control single chip computer；

The working condition of the photosensitive delay switch is jointly controlled by photosensitive sensor or photosensitive sensor with single-chip microcontroller.

Optimization, it is provided with electric timing switch, electric timing switch connects to power supply, and electric timing switch has not With the function of period closing or opening, electric timing switch is connected with photosensitive sensor, and electric timing switch controls photosensitive biography Circuit where sensor.

Optimization, it is provided with electric timing switch, electric timing switch connects to power supply, and electric timing switch has not With the function of period closing or opening, electric timing switch is connected with photosensitive sensor, and electric timing switch controls photosensitive biography Circuit where sensor.

Optimization, it is provided with manual switch, manual switch has auto-reset function, and manual switch and photosensitive sensor are simultaneously Connection.

Optimization, the manual switch is induction metal plate or button switch.

Optimization, the photosensitive sensor is provided with two or more parallel connection.

Optimization, the photosensitive sensor is mounted on hull back or rearview mirror.

Optimization, the photosensitive sensor is mounted on hull back and rearview mirror.

Optimization, 2 time-delay relays all have delay turn-on power loss.

Optimization, 2 time-delay relays all have delayed-breaking-off function.

Optimization, 2 time-delay relays have opposite delay function.

The positive effect of the present invention is: the present invention is mounted on the high beam and dipped beam of hull back using relay control The switching that lamp alternately shines, a kind of switching in this way, dipped headlight should be switched to for high beam by reaching prompt front vehicle Purpose.

Detailed description of the invention

Fig. 1 is lamp group mounting structure schematic diagram of the invention.

Fig. 2 is circuit connection diagram of the invention.

Fig. 3 is another circuit connection diagram of the invention.

Fig. 4 is the connection schematic diagram that the present invention has electric timing switch.

Fig. 5 is another connection schematic diagram that the present invention has electric timing switch.

Fig. 6 is the connection schematic diagram that the present invention has electronic timer.

Specific embodiment

Embodiment 1:

In fig 1 and 2: 1 is car body, and 2 be car body console, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, 5 be hull back, 51 hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive prolong Shi Kaiguan, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output End, 94 be output end.

Lamp group 3 is mounted on hull back 5, i.e., high beam 32 and dipped headlight 31 are mounted on hull back 5.

The geometry visibility scope of high beam 32 and dipped headlight 31 can with reference to the geometry of high beam and dipped headlight in GB4785 Degree of opinion range.

The luminous intensity of high beam 32 and dipped headlight 31 is with reference to dipped headlight luminous intensity range in GB4785, to prevent remote Light lamp 32 and the issued light of dipped headlight 31 influence the sight of rear driver.

To further decrease influence of the luminous intensity to rear car, fog lamp in GB4785, position lamp, turn signal, system can refer to The emission standards range of dynamic lamp, avoids excessively high luminous intensity from causing bad interference to the sight of rear driver.

The luminous intensity of dipped headlight 31 should be suitably lower than the luminous intensity of high beam 32, selected geometry visibility scope with It is that high beam 32 and dipped headlight 31 are shining that the light and shade variation of light, which enables rear driver to be easily identified,.

The photosensitive sensor 81 of photosensitive delay switch 8 is mounted on car body 1, the strong illumination at 1 rear of car body to backsight The sight of driver can be caused to interfere by the reflection of rearview mirror 4 when mirror 4, strong light also can through hull back glass 51 The sight of driver is caused to interfere, while automobile its light range in travelling has certain variation, therefore upper a moment can It can be radiated on the covering around hull back glass 51, lower a moment may enter the visibility region of driver, therefore For the sight of the driver preferably protected, photosensitive sensor 81 can be mounted on hull back 5, especially car body tail Portion's glass 51 and its around, in order to preferably collect from car body front vehicle issue strong light, two or more can be set Photosensitive sensor 81, and the position of photosensitive sensor 81 is reasonably distributed, strong light can be made to drive people into interference It just, to have the function that early warning, can also similarly be done on rearview mirror 4 similar detected by photosensitive sensor 81 before member's sight Arrangement.

Photosensitive sensor 81 can also be mounted on rearview mirror 4 and hull back 5 simultaneously, so that photosensitive sensor 81 The strong light from 1 rear of car body can be received, is combined by the way that photosensitive sensor 81 to be mounted on rearview mirror 4 and hull back 5 Effect, can preferably realize the automatic detection of strong light.

It needs illumination to reach higher intensity photosensitive sensor 81 just to start to work, so that stopping even if front and back vehicle is drawn close When, the dipped headlight of front vehicle will not make photosensitive sensor 81 work.

Time-delay relay 171 and time-delay relay 272 all have delayed-breaking-off function, and original state is to disconnect.

On the car body by the installation of time-delay relay 171, in parallel with the dipped headlight 31 in lamp group 3.

On the car body by the installation of time-delay relay 272, in parallel with the high beam 32 in lamp group 3.

By circuit of the time-delay relay 171 after in parallel with dipped headlight 31 with time-delay relay 272 it is in parallel with high beam 32 after Circuit series connection, and connect with photosensitive delay switch 8 and its power supply 6.

Single-chip microcontroller 9 is mounted on car body 1, and the input terminal 91 of single-chip microcontroller 9 is connect with photosensitive sensor 81, output end 93 with prolong When relay 171 control terminal connection, output end 93 connect with the control terminal of time-delay relay 272, complete whole device with it is electric The installation on road.

When there is strong light in rear of vehicle, when photosensitive sensor 81 on strong illumination to hull back 5 or rearview mirror 4, light Dependent sensor 81 is started to work, and photosensitive sensor 81 is issued to photosensitive delay switch 8 and by input terminal 91 to single-chip microcontroller 9 simultaneously Pumping signal, so that single-chip microcontroller 9 and photosensitive delay switch 8 are started to work.

So that photosensitive delay switch 8 is closed, and trigger, while entire circuit is connected.

After photosensitive delay switch 8 is closed, the output end 93 of single-chip microcontroller 9 issues pumping signal to time-delay relay 171, so that Time-delay relay 171 is started to work.

Time-delay relay 171 have delayed-breaking-off function, so time-delay relay 171 be on-state, at this time with relay The dipped headlight 31 in parallel of device 171 is short-circuit and is in OFF state.

Relay 272 is off-state at this time, therefore the energization of high beam 32 in parallel with time-delay relay 272 at this time is in Luminance, i.e. the stage dipped headlight 31 are extinguished, and high beam 32 shines.

After certain interval of time, after the delay time for reaching time-delay relay 171, time-delay relay 171 is disconnected, dipped headlight 31 are powered and shine, and output end 94 issues pumping signal to the control terminal of time-delay relay 272 at this time, so that time-delay relay 272 start to work.

Time-delay relay 272 is delay cut-off relay, therefore the time-delay relay when the start-up operation of time-delay relay 272 272 connect, and high beam 32 is short-circuited and extinguishes, i.e., the stage dipped headlight 31 shines, and high beam 32 extinguishes.

Completing dipped headlight 31 --- the primary of high beam 32 alternately shines.

After reaching the delay time of time-delay relay 272, repeat the above steps, dipped headlight 31 may be implemented --- distance light The multiple of lamp 32 alternately shines.

The delay time of photosensitive delay switch 8 is equal to the sum of the fluorescent lifetime of high beam 32 and dipped headlight 31, when reaching light After the delay time of quick delay switch 8, photosensitive delay switch 8 is disconnected, and dipped headlight 31, high beam 32 neither shine.

During dipped headlight 31 and high beam 32 shine, i.e., during single-chip microcontroller 9 works, single-chip microcontroller 9 is under the action of program It is self-locking, even if the strong light at rear is irradiated to photosensitive sensor 81 again at this time, and make there is pumping signal to feed back from input terminal 91 To single-chip microcontroller 9, single-chip microcontroller 9 is also ignored, and the self-locking time of single-chip microcontroller 9 is identical as the delay time of photosensitive delay switch 8, when Input terminal 91 receives after signal time reaches the self-locking time, and single-chip microcontroller 9 unlocks.The strong light in rear is avoided repeatedly by light sensor Device 81 detects, and influences the delay of photosensitive delay switch 8 and time-delay relay 171 and time-delay relay 272.

The delay time of time-delay relay 171 and time-delay relay 272 is 0.3 ~ 1.5 second, i.e. dipped headlight 31 and high beam 32 fluorescent lifetime is 0.3 ~ 1.5 second, and the enough rear drivers of 0.3 ~ 1.5 second fluorescent lifetime have found and understand the light The meaning.

After the photosensitive delay of delay switch 8 reaches the sum of dipped headlight 31 and 32 fluorescent lifetime of high beam, photosensitive delay switch 8 It disconnects, so that entire circuit disconnects, dipped headlight 31 and high beam 32 neither shine at this time, and relay 171 and relay 272 are distinguished It resets, single-chip microcontroller 9 unlocks.

Lamp group 3 can be set to it is multiple, it is in parallel between each other, be mounted on the tailstock so that after touch delay switch 8 is closed, Multiple dipped headlights 31, high beam 32 carry out alternately flashing simultaneously, can preferably remind front vehicle, vehicle is switched by distance light For dipped beam.

The luminous intensity of dipped headlight 31, high beam 32 is regulated and controled simultaneously, luminous intensity cannot influence rear by force very much The sight of vehicle operator.

Lamp group 3 is mounted on to the higher position of 1 tailstock of car body, so that the dipped headlight 31 in lamp group 3 and 32 institute of high beam Light is issued to be easy to be seen by front vehicle.

If the same output end 92 connects photosensitive delay switch 8 and time-delay relay 171 or time-delay relay 272 simultaneously When, when needing to complete repeatedly alternately to shine, then it will affect the delay of photosensitive delay switch 8.

The present embodiment can also be arranged that a manual switch 82 is in parallel with photosensitive sensor 81, and manual switch 82 is in driver Closure detects that strong light generates identical effect, manual switch 82 and photosensitive sensor 81 with photosensitive sensor 81 under manual action Can the connection of different from single-chip microcontroller 9 input terminals, so as to be respectively processed to input signal.

Embodiment 2:

In fig 1 and 2: 1 is car body, and 2 be car body console, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, 5 be hull back, 51 hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive prolong Shi Kaiguan, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output End, 94 be output end.

Embodiment 2 and 1 is essentially identical, the difference is that: time-delay relay 171 and time-delay relay 272 all have Delay power function, original state are closure.

When there is strong light in rear of vehicle, when photosensitive sensor 81 on strong illumination to hull back 5 or rearview mirror 4, light Dependent sensor 81 is started to work, and photosensitive sensor 81 is issued to photosensitive delay switch 8 and by input terminal 91 to single-chip microcontroller 9 simultaneously Pumping signal, so that single-chip microcontroller 9 and photosensitive delay switch 8 are started to work.

So that photosensitive delay switch 8 is closed, and trigger, while entire circuit is connected.

After photosensitive delay switch 8 is closed, the output end 93 of single-chip microcontroller 9 issues pumping signal to time-delay relay 171, so that Time-delay relay 171 is started to work.

Time-delay relay 171 has the function of delay power, so time-delay relay 171 is off-state and is delayed, at this time The dipped headlight 31 in parallel with relay 171 is powered and is in luminance.

Relay 272 is on-state at this time, therefore high beam 32 in parallel with time-delay relay 272 at this time is short-circuited place In OFF state, i.e., the stage dipped headlight 31 shines, and high beam 32 extinguishes.

After certain interval of time, after the delay time for reaching time-delay relay 171, time-delay relay 171 is connected, dipped headlight 31 are short-circuited and extinguish, and output end 94 issues pumping signal to the control terminal of time-delay relay 272 at this time, so that time-delay relay 272 start to work.

Time-delay relay 272 is delay power relay, therefore the time-delay relay when the start-up operation of time-delay relay 272 272 disconnect, and high beam 32 is powered and shines, i.e., the stage dipped headlight 31 extinguishes, and high beam 32 shines.

Completing dipped headlight 31 --- the primary of high beam 32 alternately shines.

After reaching the delay time of time-delay relay 272, repeat the above steps, dipped headlight 31 may be implemented --- distance light The multiple of lamp 32 alternately shines.

Embodiment 3:

In figures 1 and 3: 1 is car body, and 2 be car body console, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, 5 be hull back, 51 hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive prolong Shi Kaiguan, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output End, 94 be output end.

Embodiment 3 and embodiment 1,2 are essentially identical, the difference is that: the input of photosensitive sensor 81 and single-chip microcontroller 9 91 connection of end, the output end 92 of single-chip microcontroller 9 are connect with the control terminal of photosensitive sensor 8.So that photosensitive sensor 8 by photosensitive Sensor 81 jointly controls with single-chip microcontroller 9.

So that photosensitive delay switch 8, which needs to receive strong light in photosensitive sensor 81, issues pumping signal to single-chip microcontroller After 9, the entrance working condition of single-chip microcontroller 9 is simultaneously self-locking, and single-chip microcontroller 9 issues pumping signal to photosensitive delay switch 8 by output end 92 Photosensitive delay switch 8 could be made to be closed, and by the connection type, avoid the strong light of front vehicle and irradiate interference light repeatedly The delay time of quick delay switch 8.

The present embodiment can also use output end 92 to connect with the control terminal of photosensitive delay switch 8, output end 93 and delay The control terminal of relay 171 connects, and output end 94 is connected with the control terminal of time-delay relay 272.

Embodiment 4:

In figures 1 and 3: 1 is car body, and 2 be driver's cabin, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, and 5 are Hull back, 51 be hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive delay Switch, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output end, 94 be output end.

Embodiment 4 is substantially the same manner as Example 3, the difference is that: the time-delay relay 171 and delay relay Device 272 has opposite delay function, i.e. time-delay relay 171 has the function of that delay power, time-delay relay 272 have delay Power down function.

When there is strong light in rear of vehicle, when photosensitive sensor 81 on strong illumination to hull back 5 or rearview mirror 4, light Dependent sensor 81 issues pumping signal to single-chip microcontroller 9 by input terminal 91, so that single-chip microcontroller 9 is started to work and self-locking, it is then single The output end 92 of piece machine 9 issues pumping signal to the control terminal of photosensitive delay switch 8, so that photosensitive delay switch 81 starts work Make, i.e., photosensitive delay switch 8 is closed, and trigger, while entire circuit is connected.

Since time-delay relay 171 has the function of delay power i.e. original state for closure, time-delay relay 272, which has, to be prolonged When power down function disconnect.

Allow at this time the dipped headlight 31 in parallel with time-delay relay 171 be short-circuited and in OFF state, with delay after The high beam 32 in parallel of electric appliance 272 is powered and is in luminance.

After certain interval of time, the output end 93 and output end 94 of single-chip microcontroller 9 respectively to time-delay relay 171 and delay after Electric appliance 272 issues pumping signal, so that time-delay relay 171 and time-delay relay 272 enter working condition and trigger.

Time-delay relay 171 has the function of delay power, therefore time-delay relay 171 disconnects when working, thus at this time with The dipped headlight 31 in parallel of time-delay relay 171 is powered and shines, and time-delay relay 272 has delay break function, therefore works When time-delay relay 272 be closed, so high beam 32 in parallel with time-delay relay 272 at this time is short-circuited and extinguishes.

Complete dipped headlight 31 --- the primary of high beam 32 alternately shines.

After the delay time for reaching time-delay relay 171 and time-delay relay 272, and it is restored to photosensitive delay switch closure Original state, therefore can be had more by single-chip microcontroller 9 issue pumping signal dipped headlight 31 is replaced with high beam more than 32 times It shines.

Embodiment 5:

In fig 1 and 2: 1 is car body, and 2 be driver's cabin, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, and 5 are Hull back, 51 be hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive delay Switch, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output end, 94 be output end.

Embodiment 5 and embodiment 4 are essentially identical, the difference is that: photosensitive sensor 81 is defeated with single-chip microcontroller 9 simultaneously Enter end 91 to connect with the control terminal of photosensitive delay switch 8.

Embodiment 6:

In Fig. 1,4 and 5: 1 is car body, and 2 be driver's cabin, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, 5 It is hull back, 51 be hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive prolong Shi Kaiguan, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output End, 94 be output end, and 10 be electric timing switch.

Embodiment 6 and embodiment 1,2,3,4,5 are essentially identical, the difference is that: it is provided with electric timing switch 10, Electric timing switch 10 is connect with power supply 6, and electric timing switch 10 is connected with photosensitive sensor 81, so that electric timing switch 10 It can control whether 81 place circuit of photosensitive sensor is connected.

Electric timing switch 10 during the day between disconnect during section, that is, 8:00 ~ 19:00, be closed in the stage at night, to make During the day between will not make dipped headlight 31 and high beam 32 luminous having strong illumination to photosensitive sensor 81, and night The late stage then can be with normal luminous, so as to effectively avoid interference caused by the various light sources such as sunlight on daytime.

Electric timing switch 10 only influences 81 stage on daytime of photosensitive sensor simultaneously, but manual switch 82 is unaffected, Driver shines in the alternating that dipped headlight 31 and high beam 32 can may be implemented in the stage on daytime by manual operation, to reach To the purpose of prompt.Button switch or induction metal plate etc. can be used in manual switch 82.

Embodiment 7:

In Fig. 1 and 6: 1 is car body, and 2 be driver's cabin, and 3 be lamp group, and 31 be dipped headlight, and 32 be high beam, and 4 be rearview mirror, and 5 are Hull back, 51 be hull back glass, and 6 be power supply, and 71 be time-delay relay 1,72 be time-delay relay 2,8 be photosensitive delay Switch, 81 be photosensitive sensor, and 82 be manual switch, and 9 be single-chip microcontroller, and 91 be input terminal, and 92 be output end, and 93 be output end, 95 be input terminal, and 96 be output end, and 10 be electronic timer, and 101 be output end.

Embodiment 7 and embodiment 6 are essentially identical, the difference is that: it is provided with electronic timer 10, electronic timer 10 connect with power supply 6, and the output end 101 of electronic timer 10 is connect with the input terminal 95 of single-chip microcontroller, manual switch 8 and input terminal 96 connections.

Electronic timer 10 issues always pumping signal to single-chip microcontroller 9 during section, that is, 8:00 ~ 19:00 during the day, so that Single-chip microcontroller 9 is automatically closed photosensitive sensor 81 and connect with the signal of the input terminal 91 of single-chip microcontroller 9, even if so that having intense light irradiation at this time It is mapped to photosensitive sensor 81 and issues pumping signal single-chip microcontroller 9 and also ignore, until entering the period at night.But manual switch 82 pumping signals issued are not influenced by electronic timer.

Claims (11)

1. a kind of tailstock scintillator with auto parallel Connection control, including car body, it is characterised in that: be provided with power supply, power supply by Car body provides, and provides operating voltage for all circuit elements；

Hull back is provided with lamp group, and lamp group includes high beam and dipped headlight；

It is provided with 2 time-delay relays with delay function；

It is provided with photosensitive delay switch, photosensitive delay switch includes photosensitive sensor, and photosensitive sensor is installed on the car body, photosensitive Sensor can receive the irradiation from the strong light in car body rear, and photosensitive delay switch has delayed-breaking-off function；

Dipped headlight is in parallel with a time-delay relay, and high beam is in parallel with a time-delay relay；

Circuit after dipped headlight and time-delay relay are in parallel is connected with the circuit after high beam and time-delay relay parallel connection, then with Power supply, the series connection of photosensitive delay switch；

It is provided with single-chip microcontroller, single-chip microcontroller has self-locking function, and single-chip microcontroller can control the working condition of 2 time-delay relays, single Piece machine connects to power supply；

The working condition of photosensitive sensor control single chip computer；

The working condition of the photosensitive delay switch is jointly controlled by photosensitive sensor or photosensitive sensor with single-chip microcontroller.

2. a kind of tailstock scintillator with auto parallel Connection control according to claim 1 is it is characterized by: be provided with electricity Sub- time switch, electric timing switch connect to power supply, and electric timing switch has the function in different time sections closing or opening Can, electric timing switch is connected with photosensitive sensor, and electric timing switch controls circuit where photosensitive sensor.

3. a kind of tailstock scintillator with auto parallel Connection control described in claim 1 is determined it is characterized by: being provided with electronics Shi Kaiguan, electric timing switch connect to power supply, and electric timing switch has the function in different time sections closing or opening, electricity Sub- time switch is connected with photosensitive sensor, and electric timing switch controls circuit where photosensitive sensor.

4. it is according to any one of claims 1 to 3 it is a kind of with auto parallel Connection control tailstock scintillator it is characterized by: It is provided with manual switch, manual switch has auto-reset function, and manual switch is in parallel with photosensitive sensor.

5. a kind of tailstock scintillator with auto parallel Connection control according to claim 4 is it is characterized by: the hand Dynamic switch is induction metal plate or button switch.

6. a kind of tailstock scintillator with auto parallel Connection control according to claim 1 is it is characterized by: the light Dependent sensor is provided with two or more parallel connection.

7. a kind of tailstock scintillator with auto parallel Connection control according to claim 1 or 6 is it is characterized by: described Photosensitive sensor is mounted on hull back or rearview mirror.

8. a kind of tailstock scintillator with auto parallel Connection control according to claim 6 is it is characterized by: the light Dependent sensor is mounted on hull back and rearview mirror.

9. a kind of tailstock scintillator with auto parallel Connection control according to claim 1 is it is characterized by: described 2 Time-delay relay all has delay turn-on power loss.

10. a kind of tailstock scintillator with auto parallel Connection control according to claim 1 is it is characterized by: described 2 A time-delay relay all has delayed-breaking-off function.

11. a kind of tailstock scintillator with auto parallel Connection control according to claim 1 is it is characterized by: described 2 A time-delay relay has opposite delay function.