CN205632294U - Automobile rear view mirror - Google Patents

Abstract

The utility model discloses an automobile rear view mirror, include the casing and install the reflector on the casing, a serial communication port, the upper end of casing is run through and is provided with the wind -guiding passageway, the air intake of wind -guiding passageway is located the casing to deviate from one side of reflector, the air outlet of wind -guiding passageway sets up down, and is located the mirror surface top of reflector makes the air current of air outlet arrange the mirror surface downward flow of reflector. The utility model has the advantages of simple structure, it is easy to make, and the cost is lower, the energy consumption is lower, and fog effects is better, is favorable to improving driver's the driving field of vision, improves advantages such as driving safety.

Description

A kind of automobile rearview mirror

Technical field

This utility model relates to auto parts and components field, in particular to a kind of automobile rearview mirror.

Background technology

Along with rapid development of economy, automobile more and more enters daily life, and traffic safety becomes emphasis of concern.When rainy weather is driven a vehicle, rear-vision mirror face has the globule to adhere to, and the object making mirror be reflected is deformed, and can mislead the judgement of spacing simultaneously, causes serious puzzlement to driver's driving, time serious, also can produce following consequence:

1, the most accurately car can not be parked on corresponding parking stall when the rainy day stops, it could even be possible to rub with other automobile, cause unnecessary economic loss.

2, rainstorm weather car is in the process of moving, especially at the turning of road, causes vehicle accident because not seeing the vehicle at rear.

For solving the problems referred to above, China number of patent application CN201020582546.X once disclosed a kind of vehicle rearview mirror wiper, vehicle mirrors includes back-mirror housing and the minute surface with shell chamber, passage is maintained between the top in shell chamber and the upper edge of minute surface, wiper includes scraping blade, carbon brush mechanism, power drive mechanism, galvanic circle, first, second signal picker and metal adhesive bar, power drive mechanism is located at shell intracavity, carbon brush mechanism is connected with power drive mechanism, and coordinate with the upper edge of minute surface, scraping blade and carbon brush mechanism.This wiper advantage is: remove the water smoke on minute surface timely and effectively.

But above-mentioned rearview mirror wiper, design structure is complicated, operate inconvenience relatively for squeegee devices relatively automobile rearview mirror, is difficult to put in actual production and application defects such as going.

Utility model content

For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is: how to provide a kind of simple in construction, easy to manufacture, cost is relatively low；Energy consumption is relatively low, except fog effect is preferable, is conducive to improving the driving visual field of driver, improves the automobile rearview mirror of travel safety.

In order to solve above-mentioned technical problem, this utility model have employed following technical scheme:

A kind of automobile rearview mirror, including housing and the illuminator that is arranged on housing；It is characterized in that, the upper end of described housing is provided through air-guiding aisle, the air inlet of described air-guiding aisle is positioned at housing and deviates from the side of described illuminator, the air outlet of described air-guiding aisle is arranged down, and be positioned at above the minute surface of described illuminator, enable the minute surface of the suitable described illuminator of air-flow of air outlet to flow downward.

When vehicle travels, the automobile of the relatively high speed traveling of air forms back draught, and back draught deviates from the air inlet of the side of illuminator and enters in air-guiding aisle via housing, and the air outlet above the minute surface of illuminator flows downward out along the minute surface of illuminator.When automobile was driven a vehicle in the rainy day, the water smoke on rear-vision mirror face is gathered into water droplet by the air-flow of air outlet from top to bottom, minute surface just can be made the cleanest, it is to avoid the attachment of the globule, be conducive to improving the driving vision of driver after water drops flows down.Said structure is simple, and easy to make, cost is relatively low.During use, take full advantage of the air-flow formed in vehicle traveling process, energy-conserving and environment-protective.

As optimization, the area of the air inlet of described air-guiding aisle is more than the area of the air outlet of described air-guiding aisle.As such, it is possible to improve air outlet air velocity so that rearview mirror except fog effect more preferable.

As optimization, described housing is positioned at the position below the minute surface of described illuminator and has the osculum of vertically communicated setting.

So, the water droplet blown off from the minute surface of illuminator can flow away smoothly from osculum, it is to avoid rainwater at the congregate of rearview mirror, is then blown the air-flow at place by air outlet and blows and spatter, affect the visual field of driver, be conducive to improving travel safety further.

As optimization, being additionally provided with the electrical heating module for heating illuminator between described housing and illuminator, described electrical heating module has the electric-control system with vehicle and is connected and adds thermally coupled end.

During use, it is connected to adding thermally coupled end in the electric-control system of vehicle, too low once outdoor temperature, electrical heating module can be started illuminator is heated, avoid illuminator temperature too low and produce fogging, be conducive to improving the driving visual field in sleet sky, improve the safety driven.

As optimization, being provided with the first humidity sensor for being connected with the electric-control system of vehicle in described air-guiding aisle, described first humidity sensor is for detecting the air humidity in air-guiding aisle；The second humidity sensor for being connected it is provided with the electric-control system of vehicle in described osculum；Described second humidity sensor is for detecting the air humidity in osculum.

During use, the first humidity sensor and the second humidity sensor are all connected with the electric-control system of vehicle, when raining, air are mingled with the air humidity that rainwater, the first humidity sensor and the second humidity sensor detect the biggest；In the rain stopping time, the air humidity in air-guiding aisle is relatively reduced, and discharge outlet is because also having water droplet dirty on illuminator, and air humidity is the biggest；After hydrops drains, the air humidity that the first humidity sensor and the second humidity sensor detect is the least.Therefore, it can the air humidity detected according to the first humidity sensor and the second humidity sensor, control the start and stop of electrical heating module.When the air humidity that the first humidity sensor and the second humidity sensor detect is the biggest, illustrating to rain, air humidity is relatively big, heats illuminator if starting electrical heating module, and energy consumption is excessive, and effect is the most notable.And air humidity that the first humidity sensor and the second humidity sensor detect the least time, explanation becomes a fine day, and the visual field of illuminator is preferable, it is not necessary to heating.The air humidity only detected when the first humidity sensor is relatively big, when air humidity that the second humidity sensor detects is less, starts electrical heating module and heats illuminator, accelerate the speed except mist.

As optimization, described first humidity sensor is positioned at the air inlet of described air-guiding aisle.As such, it is possible to improve the detection accuracy of the first humidity sensor.

As optimization, described housing is positioned at the position below the minute surface of described illuminator and has the water leg arranged along illuminator, and described osculum is arranged on the bottom of described water leg.So, advantageously in the hydrops of the bottom quickly draining rearview mirror.

As optimization, the length of described water leg is consistent with the width of described illuminator, and the cross section of described water leg is curved；Described osculum has been placed equidistant multiple along the length of water leg.So, the cross section of water leg is curved, the water droplet blown off on the minute surface of illuminator can be enable to be gathered in the bottom of water leg smoothly, it is to avoid the residual of water droplet, is conducive to improving the effect of draining.

As optimization, the air inlet of described air-guiding aisle is arranged along the width of described housing, and length is consistent with the width of described housing, and the air outlet of described air-guiding aisle has been placed equidistant multiple along the width of described illuminator.So, the air inlet being wholely set can make air intake more smooth and easy, meanwhile, is arranged to by air outlet multiple, can make each position to go out wind velocity close, improve whole illuminator except fog effect.

In sum, this utility model has simple in construction, easy to manufacture, and cost is relatively low；Energy consumption is relatively low, except fog effect is preferable, is conducive to improving the driving visual field of driver, improves the advantages such as travel safety.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model one embodiment.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings.

When being embodied as, as it is shown in figure 1, a kind of automobile rearview mirror, including housing 1 and the illuminator 2 that is arranged on housing 1；The upper end of described housing 1 is provided through air-guiding aisle 11, the air inlet of described air-guiding aisle 11 is positioned at housing 1 and deviates from the side of described illuminator 2, the air outlet of described air-guiding aisle 11 is arranged down, and be positioned at above the minute surface of described illuminator 2, enable the minute surface of the suitable described illuminator 2 of air-flow of air outlet to flow downward.

When vehicle travels, the automobile of the relatively high speed traveling of air forms back draught, and back draught deviates from the air inlet of the side of illuminator and enters in air-guiding aisle via housing, and the air outlet above the minute surface of illuminator flows downward out along the minute surface of illuminator.When automobile was driven a vehicle in the rainy day, the water smoke on rear-vision mirror face is gathered into water droplet by the air-flow of air outlet from top to bottom, minute surface just can be made the cleanest, it is to avoid the attachment of the globule, be conducive to improving the driving vision of driver after water drops flows down.Said structure is simple, and easy to make, cost is relatively low.During use, take full advantage of the air-flow formed in vehicle traveling process, energy-conserving and environment-protective.

During enforcement, the area of the air inlet of described air-guiding aisle 11 is more than the area of the air outlet of described air-guiding aisle 11.As such, it is possible to improve air outlet air velocity so that rearview mirror except fog effect more preferable.

During enforcement, described housing 1 is positioned at the position below the minute surface of described illuminator 2 and has the osculum 12 of vertically communicated setting.

So, the water droplet blown off from the minute surface of illuminator can flow away smoothly from osculum, it is to avoid rainwater at the congregate of rearview mirror, is then blown the air-flow at place by air outlet and blows and spatter, affect the visual field of driver, be conducive to improving travel safety further.

During enforcement, being additionally provided with the electrical heating module 3 for heating illuminator between described housing 1 and illuminator 2, described electrical heating module 3 has the electric-control system with vehicle and is connected and adds thermally coupled end.

During use, it is connected to adding thermally coupled end in the electric-control system of vehicle, too low once outdoor temperature, electrical heating module can be started illuminator is heated, avoid illuminator temperature too low and produce fogging, be conducive to improving the driving visual field in sleet sky, improve the safety driven.

During enforcement, being provided with the first humidity sensor 13 for being connected with the electric-control system of vehicle in described air-guiding aisle 11, described first humidity sensor 13 is for detecting the air humidity in air-guiding aisle 11；The second humidity sensor 14 for being connected it is provided with the electric-control system of vehicle in described osculum 12；Described second humidity sensor 14 is for detecting the air humidity in osculum 12.

During use, the first humidity sensor and the second humidity sensor are all connected with the electric-control system of vehicle, when raining, air are mingled with the air humidity that rainwater, the first humidity sensor and the second humidity sensor detect the biggest；In the rain stopping time, the air humidity in air-guiding aisle is relatively reduced, and discharge outlet is because also having water droplet dirty on illuminator, and air humidity is the biggest；After hydrops drains, the air humidity that the first humidity sensor and the second humidity sensor detect is the least.Therefore, it can the air humidity detected according to the first humidity sensor and the second humidity sensor, control the start and stop of electrical heating module.When the air humidity that the first humidity sensor and the second humidity sensor detect is the biggest, illustrating to rain, air humidity is relatively big, heats illuminator if starting electrical heating module, and energy consumption is excessive, and effect is the most notable.And air humidity that the first humidity sensor and the second humidity sensor detect the least time, explanation becomes a fine day, and the visual field of illuminator is preferable, it is not necessary to heating.The air humidity only detected when the first humidity sensor is relatively big, when air humidity that the second humidity sensor detects is less, starts electrical heating module and heats illuminator, accelerate the speed except mist.

During enforcement, described first humidity sensor 13 is positioned at the air inlet of described air-guiding aisle 11.As such, it is possible to improve the detection accuracy of the first humidity sensor.

During enforcement, described housing is positioned at the position below the minute surface of described illuminator and has the water leg arranged along illuminator, and described osculum is arranged on the bottom of described water leg.So, advantageously in the hydrops of the bottom quickly draining rearview mirror.

During enforcement, the length of described water leg is consistent with the width of described illuminator 2, and the cross section of described water leg is curved；Described osculum 12 has been placed equidistant multiple along the length of water leg.So, the cross section of water leg is curved, the water droplet blown off on the minute surface of illuminator can be enable to be gathered in the bottom of water leg smoothly, it is to avoid the residual of water droplet, is conducive to improving the effect of draining.

During enforcement, the air inlet of described air-guiding aisle 11 is arranged along the width of described housing 1, and length is consistent with the width of described housing 1, and the air outlet of described air-guiding aisle 11 has been placed equidistant multiple along the width of described illuminator 2.So, the air inlet being wholely set can make air intake more smooth and easy, meanwhile, is arranged to by air outlet multiple, can make each position to go out wind velocity close, improve whole illuminator except fog effect.

The foregoing is only preferred embodiment of the present utility model, not with this utility model for limiting, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within should be included in protection domain of the present utility model.

Claims (9)

1. an automobile rearview mirror, including housing (1) and the illuminator (2) that is arranged on housing (1)；It is characterized in that, air-guiding aisle (11) it is provided through before and after the upper end of described housing (1), the air inlet of described air-guiding aisle (11) is positioned at housing (1) and deviates from the side of described illuminator (2), the air outlet of described air-guiding aisle (11) is arranged down, and be positioned at above the minute surface of described illuminator (2), enable the minute surface of the suitable described illuminator (2) of air-flow of air outlet to flow downward.

2. automobile rearview mirror as claimed in claim 1, it is characterised in that the area of the air inlet of described air-guiding aisle (11) is more than the area of the air outlet of described air-guiding aisle (11).

3. automobile rearview mirror as claimed in claim 1, it is characterised in that described housing (1) is positioned at the position below the minute surface of described illuminator (2) and has the osculum (12) of vertically communicated setting.

4. automobile rearview mirror as claimed in claim 3, it is characterized in that, being additionally provided with the electrical heating module (3) for heating illuminator between described housing (1) and illuminator (2), described electrical heating module (3) has the electric-control system with vehicle and is connected and adds thermally coupled end.

5. automobile rearview mirror as claimed in claim 4, it is characterized in that, being provided with the first humidity sensor (13) for being connected with the electric-control system of vehicle in described air-guiding aisle (11), described first humidity sensor (13) is used for detecting the air humidity in air-guiding aisle (11)；The second humidity sensor (14) for being connected it is provided with the electric-control system of vehicle in described osculum (12)；Described second humidity sensor (14) is used for detecting the air humidity in osculum (12).

6. automobile rearview mirror as claimed in claim 5, it is characterised in that described first humidity sensor (13) is positioned at the air inlet of described air-guiding aisle (11).

7. automobile rearview mirror as claimed in claim 3, it is characterized in that, described housing (1) is positioned at the position below the minute surface of described illuminator (2) and has the water leg of the width setting along illuminator, and described osculum (12) is arranged on the bottom of described water leg.

8. automobile rearview mirror as claimed in claim 7, it is characterised in that the length of described water leg is consistent with the width of described illuminator (2), and the cross section of described water leg is curved；Described osculum (12) has been placed equidistant multiple along the length of water leg.

9. automobile rearview mirror as claimed in claim 1, it is characterized in that, the air inlet of described air-guiding aisle (11) is arranged along the width of described housing (1), and length is consistent with the width of described housing (1), the air outlet of described air-guiding aisle (11) has been placed equidistant multiple along the width of described illuminator (2).