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

car rearview mirror

technical field

The utility model relates to the field of automobile parts, in particular to an automobile rearview mirror.

Background technique

With the rapid development of the economy, more and more cars have entered people's daily life, and driving safety has become the focus of people's attention. When driving in rainy weather, water droplets adhere to the surface of the rearview mirror, which will deform the object reflected by the mirror and mislead the judgment of the distance between vehicles, causing serious trouble to the driver. In severe cases, the following consequences will also occur :

1. When parking in rainy days, the car cannot be parked in the corresponding parking space accurately, and it may even cause friction with other cars, causing unnecessary economic losses.

2. When the car is driving in heavy rain, especially at the turning of the road, it may cause traffic accidents because it cannot see the vehicles behind it clearly.

In order to solve the above problems, my country's patent application number CN201020582546.X once disclosed a vehicle rearview mirror wiper, the vehicle rearview mirror includes a rearview mirror housing and a mirror surface with a shell cavity, and the upper part of the shell cavity and the upper part of the mirror surface There is a channel along the edge. The wiper includes a scraper, a carbon brush mechanism, a power transmission mechanism, a conductive circuit, a first and a second signal collector, and a metal suction strip. The power transmission mechanism is located in the shell cavity, and the carbon brush mechanism It is connected with the power transmission mechanism and cooperates with the upper edge of the mirror, the scraper and the carbon brush mechanism. The advantage of the wiper is that it can timely and effectively remove the water mist on the mirror surface.

But above-mentioned rearview mirror wiper, design structure is complicated, scraper device is relatively inconvenient to operate compared with automobile rearview mirror, is difficult to put into the defect such as going in the actual production and application.

Utility model content

Aiming at the deficiencies of the above-mentioned prior art, the technical problem to be solved by the utility model is: how to provide a device with simple structure, easy manufacture, low cost; A car rearview mirror that improves driving safety.

In order to solve the above technical problems, the utility model adopts the following technical solutions:

An automobile rearview mirror, comprising a housing and a reflector mounted on the housing; it is characterized in that an air guide channel is provided through the upper end of the housing, and the air inlet of the air guide channel is located at a position away from the housing. On one side of the reflector, the air outlet of the air guiding channel is arranged downward, and is located above the mirror surface of the reflector, so that the airflow at the air outlet can flow downward along the mirror surface of the reflector.

When the vehicle is running, the air forms a reverse airflow relative to the high-speed car. The reverse airflow enters the air guide channel through the air inlet on the side of the housing away from the reflector, and flows along the direction of the reflector from the air outlet above the reflector. The mirror flows out downwards. When the car is driving on a rainy day, the airflow from the air outlet will gather the water mist on the mirror surface of the rearview mirror into water droplets from top to bottom. After the water droplets slide, the mirror surface can be cleaned quickly, avoiding the adhesion of water droplets, and it is beneficial to improve the driver's driving. vision. The above-mentioned structure is simple, convenient to manufacture and low in cost. During use, the airflow formed during the running of the car is fully utilized, which is energy-saving and environmentally friendly.

As an optimization, the area of the air inlet of the air guide channel is larger than the area of the air outlet of the air guide channel. In this way, the airflow speed at the air outlet can be increased, so that the defogging effect of the rearview mirror is better.

As an optimization, the housing is provided with a vertically penetrating drain hole at a position below the mirror surface of the reflector.

In this way, the water droplets blown down from the mirror surface of the reflector can flow away smoothly from the drain hole, preventing rainwater from accumulating at the bottom of the rearview mirror, and then being splashed by the airflow at the air outlet, affecting the driver's field of vision. It is beneficial to further improve driving safety.

As an optimization, an electric heating module for heating the reflective mirror is also arranged between the housing and the reflective mirror, and the electric heating module has a heating connection end connected with the electric control system of the vehicle.

When in use, connect the heating connection end to the electric control system of the vehicle. Once the outdoor temperature is too low, the electric heating module can be activated to heat the reflector to avoid fogging caused by the low temperature of the reflector, which is beneficial to improve rain. Driving vision in snowy weather improves driving safety.

As an optimization, a first humidity sensor for connecting with the electric control system of the vehicle is arranged in the air guide channel, and the first humidity sensor is used to detect the air humidity in the air guide channel; A second humidity sensor connected with the electric control system of the vehicle; the second humidity sensor is used to detect the air humidity in the drain hole.

When in use, both the first humidity sensor and the second humidity sensor are connected to the electric control system of the vehicle. When it rains, the air is mixed with rainwater, and the air humidity detected by the first humidity sensor and the second humidity sensor is relatively large; When the rain stops, the air humidity in the air guide channel decreases relatively, but the air humidity is still relatively high due to the water droplets flowing down the reflector at the drain outlet; after the accumulated water is drained, the first humidity sensor and the second humidity sensor detect air humidity is low. Therefore, the start and stop of the electric heating module can be controlled according to the air humidity detected by the first humidity sensor and the second humidity sensor. When the air humidity detected by the first humidity sensor and the second humidity sensor are both high, it means that it is raining and the air humidity is high. If the electric heating module is activated to heat the reflector, the energy consumption is too large and the effect is not significant. And when the air humidity detected by the first humidity sensor and the second humidity sensor is small, it means that the sky is fine, the field of view of the reflector is better, and heating is not needed. Only when the air humidity detected by the first humidity sensor is relatively high and the air humidity detected by the second humidity sensor is relatively low, the electric heating module is activated to heat the reflector to accelerate the defogging speed.

As an optimization, the first humidity sensor is located at the air inlet of the air guide channel. In this way, the detection accuracy of the first humidity sensor can be improved.

As an optimization, the position of the casing below the mirror surface of the reflective mirror has a water collection groove arranged along the reflective mirror, and the drainage hole is arranged at the bottom of the water collection groove. In this way, it is more conducive to quickly draining the accumulated water at the bottom of the rearview mirror.

As an optimization, the length of the water collection tank is consistent with the width of the reflector, and the section of the water collection tank is arc-shaped; there are a plurality of drainage holes equidistantly arranged along the length of the water collection tank. In this way, the cross section of the sump is arc-shaped, so that the water droplets blown off the mirror surface of the reflector can be smoothly gathered at the bottom of the sump, avoiding the residue of water droplets, and improving the drainage effect.

As an optimization, the air inlet of the air guiding channel is arranged along the width direction of the housing, and the length is consistent with the width of the housing, and the air outlet of the air guiding channel is along the width direction of the reflector, etc. There are multiple distance settings. In this way, the integrated air inlet can make the air intake more smooth, and at the same time, setting multiple air outlets can make the air outlet speed of each position similar, and improve the defogging effect of the entire reflector.

To sum up, the utility model has the advantages of simple structure, easy manufacture, low cost, low energy consumption, good defogging effect, which is beneficial to improve the driver's driving vision and driving safety.

Description of drawings

Fig. 1 is a schematic structural view of an embodiment of the utility model.

detailed description

Below in conjunction with accompanying drawing, the utility model is described in further detail.

During specific implementation, as shown in Fig. 1, a kind of automobile rearview mirror comprises housing 1 and reflective mirror 2 installed on the housing 1; The air inlet of the air guide channel 11 is located on the side of the housing 1 away from the reflector 2, and the air outlet of the air guide channel 11 is arranged downwards, and is located above the mirror surface of the reflector 2, so that the air flow of the air outlet It can flow downward along the mirror surface of the reflector 2 .

When the vehicle is running, the air forms a reverse airflow relative to the high-speed car. The reverse airflow enters the air guide channel through the air inlet on the side of the housing away from the reflector, and flows along the direction of the reflector from the air outlet above the reflector. The mirror flows out downwards. When the car is driving on a rainy day, the airflow from the air outlet will gather the water mist on the mirror surface of the rearview mirror into water droplets from top to bottom. After the water droplets slide, the mirror surface can be cleaned quickly, avoiding the adhesion of water droplets, and it is beneficial to improve the driver's driving. vision. The above-mentioned structure is simple, convenient to manufacture and low in cost. During use, the airflow formed during the running of the car is fully utilized, which is energy-saving and environmentally friendly.

During implementation, the area of the air inlet of the air guide channel 11 is larger than the area of the air outlet of the air guide channel 11 . In this way, the airflow speed at the air outlet can be increased, so that the defogging effect of the rearview mirror is better.

In practice, the housing 1 has a drain hole 12 vertically penetrating at a position below the mirror surface of the reflector 2 .

In this way, the water droplets blown down from the mirror surface of the reflector can flow away smoothly from the drain hole, preventing rainwater from accumulating at the bottom of the rearview mirror, and then being splashed by the airflow at the air outlet, affecting the driver's field of vision. It is beneficial to further improve driving safety.

During implementation, an electric heating module 3 for heating the reflector is also arranged between the housing 1 and the reflector 2, and the electric heating module 3 has a heating connection end connected with the electric control system of the vehicle.

When in use, connect the heating connection end to the electric control system of the vehicle. Once the outdoor temperature is too low, the electric heating module can be activated to heat the reflector to avoid fogging caused by the low temperature of the reflector, which is beneficial to improve rain. Driving vision in snowy weather improves driving safety.

During implementation, the first humidity sensor 13 used to be connected to the electric control system of the vehicle is arranged in the air guide channel 11, and the first humidity sensor 13 is used to detect the air humidity in the air guide channel 11; The second humidity sensor 14 for connecting with the electric control system of the vehicle is arranged in the 12 ; the second humidity sensor 14 is used for detecting the air humidity in the drain hole 12 .

When in use, both the first humidity sensor and the second humidity sensor are connected to the electric control system of the vehicle. When it rains, the air is mixed with rainwater, and the air humidity detected by the first humidity sensor and the second humidity sensor is relatively large; When the rain stops, the air humidity in the air guide channel decreases relatively, but the air humidity is still relatively high due to the water droplets flowing down the reflector at the drain outlet; after the accumulated water is drained, the first humidity sensor and the second humidity sensor detect air humidity is low. Therefore, the start and stop of the electric heating module can be controlled according to the air humidity detected by the first humidity sensor and the second humidity sensor. When the air humidity detected by the first humidity sensor and the second humidity sensor are both high, it means that it is raining and the air humidity is high. If the electric heating module is activated to heat the reflector, the energy consumption is too large and the effect is not significant. And when the air humidity detected by the first humidity sensor and the second humidity sensor is small, it means that the sky is fine, the field of view of the reflector is better, and heating is not needed. Only when the air humidity detected by the first humidity sensor is relatively high and the air humidity detected by the second humidity sensor is relatively low, the electric heating module is activated to heat the reflector to accelerate the defogging speed.

In practice, the first humidity sensor 13 is located at the air inlet of the air guide channel 11 . In this way, the detection accuracy of the first humidity sensor can be improved.

During implementation, the housing is provided with a water collection tank disposed along the reflection mirror at a position below the mirror surface of the reflection mirror, and the drainage hole is provided at the bottom of the water collection tank. In this way, it is more conducive to quickly draining the accumulated water at the bottom of the rearview mirror.

During implementation, the length of the water collection tank is consistent with the width of the reflector 2, and the section of the water collection tank is arc-shaped; there are a plurality of drainage holes 12 equidistantly arranged along the length of the water collection tank. In this way, the cross section of the sump is arc-shaped, so that the water droplets blown off the mirror surface of the reflector can be smoothly gathered at the bottom of the sump, avoiding the residue of water droplets, and improving the drainage effect.

During implementation, the air inlet of the air guide channel 11 is arranged along the width direction of the housing 1, and the length is consistent with the width of the housing 1, and the air outlet of the air guide channel 11 is arranged along the width direction of the reflector. There are multiple equidistant settings in the width direction of 2. In this way, the integrated air inlet can make the air intake more smooth, and at the same time, setting multiple air outlets can make the air outlet speed of each position similar, and improve the defogging effect of the entire reflector.

The above descriptions are only preferred embodiments of the present utility model, and are not limited to the present utility model. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present utility model shall be included in the Within the protection scope of the present utility model.

Claims (9)

1. A car rearview mirror, comprising a housing (1) and a reflector (2) installed on the housing (1); it is characterized in that, the upper end of the housing (1) is provided with a wind guide A channel (11), the air inlet of the air guide channel (11) is located on the side of the casing (1) away from the reflector (2), the air outlet of the air guide channel (11) is set downward, and Located above the mirror surface of the reflector (2), the airflow at the air outlet can flow downward along the mirror surface of the reflector (2). 2. The automobile rearview mirror according to claim 1, characterized in that, the area of the air inlet of the air guide channel (11) is larger than the area of the air outlet of the air guide channel (11). 3 . The automobile rearview mirror according to claim 1 , characterized in that, the housing ( 1 ) has a drainage hole ( 12 ) arranged vertically through at a position below the mirror surface of the reflector ( 2 ). 4 . 4. The automobile rearview mirror according to claim 3, characterized in that an electric heating module (3) for heating the reflector is also arranged between the housing (1) and the reflector (2), the The electric heating module (3) has a heating connection end connected with the electric control system of the vehicle. 5. The automobile rearview mirror according to claim 4, characterized in that, a first humidity sensor (13) for connecting with the electronic control system of the vehicle is arranged in the air guide channel (11), and the first humidity sensor (13) The humidity sensor (13) is used to detect the air humidity in the air guiding channel (11); the second humidity sensor (14) for connecting with the electric control system of the vehicle is arranged in the drain hole (12); the second The humidity sensor (14) is used to detect the air humidity in the drain hole (12). 6. The automobile rearview mirror according to claim 5, characterized in that, the first humidity sensor (13) is located at the air inlet of the air guide channel (11). 7. The automobile rearview mirror according to claim 3, characterized in that, the housing (1) has a water collection tank arranged along the width direction of the reflector at a position below the mirror surface of the reflector (2), The drainage hole (12) is arranged at the bottom of the sump. 8. The automobile rearview mirror according to claim 7, characterized in that, the length of the water collection tank is consistent with the width of the reflector (2), and the section of the water collection tank is arc-shaped; A plurality of drainage holes (12) are equidistantly arranged along the length of the sump. 9. The automobile rearview mirror according to claim 1, characterized in that, the air inlet of the air guiding channel (11) is arranged along the width direction of the housing (1), and the length is the same as that of the housing ( 1) have the same width, and multiple air outlets of the air guide channel (11) are equidistantly arranged along the width direction of the reflector (2).