CN202106916U

CN202106916U - Rearview mirror removing water by wind energy

Info

Publication number: CN202106916U
Application number: CN2011202231055U
Authority: CN
Inventors: 李耀强
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-06-28
Filing date: 2011-06-28
Publication date: 2012-01-11
Anticipated expiration: 2021-06-28

Abstract

The utility model discloses a rearview mirror removing water by wind energy, which consists of a shell 1, an upper air guide sleeve 2, a lower air guide sleeve 3, a flow deflector 4, a mirror 8 and a mirror regulating device 9, wherein the mirror regulating device 9 is positioned in the shell 1; the mirror 8 is positioned at an open end of the shell 1 and fixed on the mirror regulating device 9; air intakes 4 distributed in grid shape is arranged at the closed end of the shell 1; and the upper air guide sleeve 2 and the lower air guide sleeve 3 are arranged in the shell 1. The rearview mirror removing water by wind energy utilizes the air flowing at a high speed during running of the automobile to blow droplets from the mirror, thereby keeping the mirror clear and clean and ensuring the driving safety.

Description

The wind energy back mirror that dewaters

Technical field

The utility model relates to a kind of wind energy that can effectively utilize wind energy to remove water droplet on back mirror back mirror that dewaters, and especially for dewatering of automobile rearview mirror, belongs to the optimization technique of back mirror.

Background technology

At present, the technology that dewaters of known in the world automobile rearview mirror mainly contains electro heat, canopy, windscreen wiper, air pump blowing etc., but has only electric-heating technology to be able to use at present.Other design plans are not because not mature enough, too complex or have open defect is applied, and like canopy, the cleaning rainfall is trouble more perhaps, and the canopy that adds also can have influence on the visibility of eyeglass; Design plans such as windscreen wiper, air pump blowing mainly are complex structures, are difficult to carry out, and therefore also on automobile, are not used widely.

Therefore, need to seek a kind of simple in structure easy to implement, and the obvious results back mirror technology that dewaters.

Summary of the invention

The purpose of the utility model provides a kind of technology of utilizing the wind energy that produces in the vehicle traveling process to remove the water droplet on the rear view mirror lens.

The technical scheme of the utility model is: the wind energy back mirror that dewaters; Form by shell 1, last streamlined reefer housing 2, following streamlined reefer housing 3, flow deflector 4, eyeglass 8, eyeglass control apparatus 9; Eyeglass control apparatus 9 is placed in the shell 1, and eyeglass 8 is placed in shell 1 open end, and is fixed on the eyeglass control apparatus 9; The closed end of described shell 1 is provided with and is the ventilation inlet 4 that lattice-shaped distributes, and is provided with streamlined reefer housing 2 and following streamlined reefer housing 3 in the shell 1.

The described streamlined reefer housing 2 of going up connects formation upper air duct 12 with the inwall of shell 1; Leave the gap between the end of the end of the upper limb of described shell 1 and last streamlined reefer housing 2, form air outlet 6.

Described upper air duct 12 is to the direction constriction of air outlet 6, and the end of upper air duct 12 is crooked towards the direction of eyeglass 8.

Described streamlined reefer housing 3 down connects formation lower air duct 13 with the inwall of shell 1; Leave the gap between the end of the end of the lower edge of described shell 1 and following streamlined reefer housing 3, form air outlet 7; Described lower air duct 13 is to the direction constriction of air outlet 7.

Be provided with flow deflector 5 at shell 1 inwall, described flow deflector 5 is positioned at the edge of ventilation inlet 4.

The volume of said upper air duct 12 is greater than the volume of said lower air duct 13, and the area of ventilation inlet 4 that is positioned at upper air duct 12 is greater than the area of the ventilation inlet that is positioned at lower air duct 13 4.

The beneficial effect of the utility model is:

1, utilize vehicle traveling process high speed flow air, pass the shell of back mirror, after air channel compression, form high pressure draft at air outlet, with the eyeglass that blows off of the globule on the eyeglass, traffic safety is guaranteed in the clear cleaning that keeps eyeglass.

2, environmental protection and energy saving need not extra interpolation power, and simple in structure, realizes easily.

Description of drawings

Fig. 1 is that cross-sectional schematic is looked on the left side of the utility model;

Fig. 2 be the utility model the master look External view;

Fig. 3 is the External view of overlooking of the utility model.

Among the figure 1, shell, 12, upper air duct, 13, lower air duct, 2, go up streamlined reefer housing, 3, streamlined reefer housing down, 4, ventilation inlet, 5, flow deflector, 6, go up air outlet, 7, air outlet down, 8, eyeglass, 9, the eyeglass control apparatus.

The specific embodiment

As shown in figures 1 and 3; The wind energy back mirror that dewaters, by shell 1, go up streamlined reefer housing 2, streamlined reefer housing 3, flow deflector 4, eyeglass 8, eyeglass control apparatus 9 are formed down, eyeglass control apparatus 9 is placed in the shell 1; Eyeglass 8 is placed in shell 1 open end; And be fixed on the eyeglass control apparatus 9, the closed end of described shell 1 is provided with and is the ventilation inlet 4 that lattice-shaped distributes, and is provided with streamlined reefer housing 2 and following streamlined reefer housing 3 in the shell 1.

High velocity air as depicted in figs. 1 and 2, as to produce in the process of running car, from ventilation inlet 4 through flow deflector 5 water conservancy diversion; Get into upper air duct 12 and lower air duct 13; Be the structure of constriction gradually because last lower air duct all is the direction from ventilation inlet to the direction of air outlet, therefore, the air-flow of entering is compressed; Pressure increases, and high-voltage air-flow blows out from air outlet 6 and air outlet 7.Because the end of upper air duct 12 is crooked towards the direction of eyeglass 8, therefore, the wind that blows out from air outlet 6 directly blows to eyeglass 8 tops; Water droplet on the eyeglass is blowed to the below; Little water droplet converges into big water droplet, and under high pressure draft and gravitational double action, drips rapidly; And the high pressure draft that is come out by air outlet 7 blows away, thereby guarantees that back mirror can keep good visibility when driving.

The foregoing description only is to be used for the purposes of interpretation the utility model; And be not to be the restriction to the utility model, those skilled in the art are in the essential scope of the utility model; Make various variations or alternative, also should belong to the protection category of the utility model.

Claims

1. the wind energy back mirror that dewaters; Form by shell (1), last streamlined reefer housing (2), following streamlined reefer housing (3), flow deflector (4), eyeglass (8), eyeglass control apparatus (9); Eyeglass control apparatus (9) is placed in the shell (1), and eyeglass (8) is placed in shell (1) open end, and is fixed on the eyeglass control apparatus (9); It is characterized in that: the closed end of described shell (1) is provided with and is the ventilation inlet (4) that lattice-shaped distributes, and is provided with streamlined reefer housing (2) and following streamlined reefer housing (3) in the shell (1).

2. the wind energy according to claim 1 back mirror that dewaters is characterized in that: the described streamlined reefer housing (2) of going up connects formation upper air duct (12) with the inwall of shell (1); Leave the gap between the end of the end of the upper limb of described shell (1) and last streamlined reefer housing (2), form air outlet (6).

3. the wind energy according to claim 2 back mirror that dewaters is characterized in that: described upper air duct (12) is to the direction constriction of air outlet (6), and the end of upper air duct (12) is crooked towards the direction of eyeglass (8).

4. the wind energy according to claim 1 back mirror that dewaters is characterized in that: described streamlined reefer housing (3) down connects formation lower air duct (13) with the inwall of shell (1); Leave the gap between the end of the end of the lower edge of described shell (1) and following streamlined reefer housing (3), form air outlet (7); Described lower air duct (13) is to the direction constriction of air outlet (7).

5. the wind energy according to claim 1 back mirror that dewaters, it is characterized in that: be provided with flow deflector (5) at shell (1) inwall, described flow deflector (5) is positioned at the edge of ventilation inlet (4).

6. according to claim 3 and the 4 described wind energies back mirror that dewaters; It is characterized in that: the volume of said upper air duct (12) is greater than the volume of said lower air duct (13), and the area of ventilation inlet (4) that is positioned at upper air duct (12) is greater than the area of the ventilation inlet that is positioned at lower air duct (13) (4).