KR100358207B1 - Sideview mirror for vehicle - Google Patents

Abstract

The present invention relates to a rearview mirror for a vehicle, comprising: a housing coupled to a front region of a driver's seat so that an opening formed at one side faces an outer rear region of the vehicle and an opening formed at the other side is disposed inside the vehicle; At least one objective lens for refracting the converged light to converge, and inclined at a predetermined angle within the focal length of the objective lens in the housing to reflect the light passing through the objective lens to the inside of the vehicle, An upper reflecting portion for reflecting light passing through the horizontal center line of the objective lens, and an inner angle of the upper reflecting portion to a right angle, and a mutual contact line below the upper reflecting portion so as to correspond to the horizontal center line of the objective lens; An objective lens system having a lower reflecting portion disposed to reflect light passing through a lower side of a horizontal center line of the objective lens; A third reflection part disposed after the focal length of the objective lens and reflecting light reflected by the upper and lower reflection parts to an inner opening area of the housing, and at least one coupled to an inner opening area of the housing; And an alternative lens system for forming an afocal optical system by expanding and refracting the light reflected by the third reflecting unit to have an image having any one of a 1: 1 magnification and a predetermined unit magnification with an alternative lens of? It features. As a result, the object in the side rear region of the vehicle can be observed accurately and easily without being distorted.

Description

Car rearview mirror {SIDEVIEW MIRROR FOR VEHICLE}

The present invention relates to a rearview mirror for a vehicle, and more particularly, allows the driver to accurately and easily observe objects in the rear and rear of the vehicle with respect to the direction of travel of the vehicle, and protrudes inside the vehicle at the same time. A rearview mirror for a vehicle capable of shortening the protruding length of the housing.

A vehicle is generally equipped with a pair of sideview mirrors in front of the driver's seat and the driver's seat so that the driver can observe the rear and rear of the vehicle in the direction of travel.

Conventional vehicle rearview mirrors are all "planar reflectors" type having reflecting surfaces that are almost flat, and protrude horizontally with respect to the front and rear axis of the vehicle body on the outside of the vehicle, causing air resistance. Such air resistance not only increases fuel consumption of the vehicle but also causes problems such as air pollution.

In addition, such a planar reflector type rearview mirror has a relatively small rear and rear projection angle, and in the case of snow or rain, water droplets, moisture, or frost may contact or condense on the surface of the planar reflector, thus making it difficult to rearview. have.

In consideration of such a problem, the protruding length that protrudes to the outside of the vehicle can be reduced, and the rear view mirror for the vehicle using the optical element can increase the angle of rear observation, PCT Application No. PCT / SE96 / 00439 and US Patent No. US 5,559,640, respectively.

In the case of the PC rearview mirror, the four lenses are arranged along the vertical direction of the vehicle, and two reflectors are arranged between the lenses, so that the optical axes are not easily matched due to the vibration of the vehicle. In addition, the 'screen' (lens) that allows the driver to observe the rear of the vehicle is installed in the lower area of the so-called 'A Pillar' of the vehicle, so the configuration and installation are complicated and practically not practically used. It is true.

In addition, the US patent vehicle rearview mirror, a relatively small convex mirror on the outside of the vehicle and a magnifying glass between the convex lens and the driver so that the rear view can be seen, the upper and lower and left and right directions of the magnifying glass in the driver's view There is a problem that it is severely distorted so that it cannot fully function as a rearview mirror for a vehicle.

On the other hand, "vehicle rearview mirror" for solving the conventional problems are disclosed in Korean Utility Model Publication No. 76588 and US Patent Publication No. 5,264,962 in the name of the present applicant, respectively.

The vehicle rearview mirror of the applicant's name includes two lens groups, an objective lens system, an alternative lens system, and one planar reflector interposed therebetween, so that a relatively wide field of view and relative angle to the rear and rear of the vehicle The rear region can be easily observed with a short optical axis distance.

However, in such a conventional rearview mirror for a vehicle, when the image incident to the objective lens system and the image passing through the alternative lens system are to be enlarged at almost the same magnification (Unit Magnification), the internal protrusion length of the housing increases. There is this. In particular, the housing installed adjacent to the driver's seat side is not easy to match the driver's line of sight and the optical axis of the alternative lens system, there is a problem that it is not easy to secure a sufficient driving space when increasing the internal projection length.

Accordingly, an object of the present invention is to provide a rearview mirror for a vehicle that can accurately and easily observe the rear and rear regions of the vehicle with little distortion, and shorten the protruding length of the housing that protrudes into the vehicle.

1 is a cross-sectional view of a rearview mirror for a vehicle according to an embodiment of the present invention;

2 is an enlarged view illustrating main parts of FIG. 1;

3 is a perspective view showing the arrangement of the optical element of FIG.

4 is a view illustrating an optical path corresponding to a center line in a vertical direction of the objective lens system of FIG. 1;

5 is a view illustrating a state of use of the vehicle rearview mirror of FIG. 1.

Explanation of symbols on the main parts of the drawings

3: housing 5: exterior part

6,8 spherical part 7: inner tube part

11: objective lens unit 13: upper reflecting unit

15: lower reflector 17: third reflector

19: Alternative lens 23: External duct

24: internal duct 25: air intake

27: air guide tube 33: filter member

35: blower 37: heater coil

According to the present invention, a housing coupled to the front region of the driver's seat so that the opening formed on one side toward the outer rear region of the vehicle and the opening formed on the other side is disposed inside the vehicle; At least one objective lens for refracting the converged light to converge, and inclined at a predetermined angle within the focal length of the objective lens in the housing to reflect the light passing through the objective lens to the inside of the vehicle, An upper reflecting portion for reflecting light passing through the horizontal center line of the objective lens, and an inner angle of the upper reflecting portion to a right angle, and a mutual contact line below the upper reflecting portion so as to correspond to the horizontal center line of the objective lens; An objective lens system having a lower reflecting portion disposed to reflect light passing through a lower side of a horizontal center line of the objective lens; A third reflection part disposed after the focal length of the objective lens and reflecting light reflected by the upper and lower reflection parts to an inner opening area of the housing, and at least one coupled to an inner opening area of the housing; Afocal optical system by expanding and refracting to have a magnification of any one of 1: 1 magnification and a predetermined unit magnification, which is identical to visual observation of light reflected by the third reflector with an alternative lens of It is achieved by a vehicle rearview mirror, characterized in that it comprises an alternative lens system to form a.

Here, the upper reflection portion and the lower reflection portion is preferably an amish type prism formed integrally with each other.

The objective lens, the upper reflecting portion and the lower reflecting portion may be composed of an amish-type prism formed integrally with each other.

Preferably, the third reflecting portion is formed of a planar reflector.

It is effective to form the third reflector and the alternative lens integrally with each other.

In addition, it is preferable that the third reflecting portion be composed of a prism.

The alternative lens is effectively composed of a flat convex lens disposed in the inner opening region of the housing, and a convex convex lens disposed between the flat convex lens and the third reflecting portion.

The housing preferably includes an exterior portion coupled to the vehicle such that a spherical portion formed at one end thereof is exposed to the inside of the vehicle, and an inner tube portion pivotably coupled to the spherical portion.

And, the air inlet is formed on one side and the outer duct coupled to surround the outer portion, and the first branch pipe for guiding the air introduced into the outer duct through the air inlet to the surface of the objective lens To be effective.

An inner duct whose one end is in communication with the outer duct and coupled to surround the inner tube portion, and the air branched from the first branch pipe and introduced through the air inlet to the surface of the alternative lens disposed at the outermost portion of the housing It is preferable to further include a guiding second branch pipe.

And a heating means disposed in the flow path of the air introduced through the air inlet, and configured to heat the air, wherein the blower is disposed in the external duct to allow air from the outside into the external duct through the air inlet. In addition, according to the present invention, a housing coupled to a front region of a driver's seat of the vehicle such that an opening formed at one side faces an outer rear region of the vehicle and an opening formed at the other side is disposed inside the vehicle. and; An objective lens made of a convex lens disposed in an outer opening area of the vehicle of the housing and refracting so as to converge the light passing therethrough; Disposed to be inclined at a predetermined angle within the focal length of the objective lens in the housing so as to reflect the light passing through the objective lens to the inside of the vehicle, and reflects the light that has passed to the upper side of the horizontal center line of the objective lens The upper reflecting surface and the inner reflecting angle of the upper reflecting surface are perpendicular to each other, and the light is disposed below the upper reflecting surface so that the mutual contact line corresponds to the horizontal center line of the objective lens and passes through the lower side of the horizontal center line of the objective lens. An amish-type prism formed integrally with a lower reflection surface reflecting the light; A planar reflector disposed after the focal length of the objective lens and reflecting light reflected by the prism to an inner opening region of the housing; A rearview mirror for a vehicle, comprising: an alternative lens formed of a convex lens coupled to an inner opening of the housing to enlarge and refract the light reflected from the planar reflector so that an image having a 1: 1 magnification is formed. In addition, according to the present invention, a housing coupled to the front region of the driver's seat so that the opening formed on one side toward the outer rear region of the vehicle and the opening formed on the other side is disposed inside the vehicle; An objective lens portion formed of a convex lens disposed in an outer opening area of the vehicle and refracted to converge to pass light; and the object in the housing to reflect light passing through the objective lens portion to the inside of the vehicle. It is formed to be inclined at a predetermined angle within the focal length of the lens portion to reflect the light passing through the upper side of the horizontal center line of the objective lens portion and the upper reflection surface and the mutual angle of the internal angle perpendicular to each other and the mutual contact line is the object A light transmitting member which is disposed below the upper reflection surface so as to correspond to the horizontal center line of the lens unit and integrally formed with a lower reflection surface reflecting light passing through the lower side of the horizontal center line of the objective lens unit; A planar reflector disposed after a focal length of the objective lens unit and reflecting light passing through the light transmitting member to an inner opening region of the housing; And an alternative lens formed of a convex lens coupled to an inner opening of the housing to enlarge and refract the light reflected from the planar reflector to form a 1: 1 magnification image. And, according to the present invention, the housing coupled to the front region of the driver's seat so that the opening formed on one side toward the outer rear region of the vehicle and the opening formed on the other side is disposed inside the vehicle; An objective lens made of a convex lens disposed in an outer opening area of the vehicle of the housing and refracting so as to converge the light passing therethrough; Disposed to be inclined at a predetermined angle within the focal length of the objective lens in the housing so as to reflect the light passing through the objective lens to the inside of the vehicle, and reflects the light that has passed to the upper side of the horizontal center line of the objective lens An upper plane reflecting surface and an inner angle of the upper plane reflecting surface are perpendicular to each other, and a contact line is disposed below the upper plane reflecting surface so as to correspond to a horizontal center line of the objective lens, so that the lower side of the horizontal center line of the objective lens is disposed. A rectangular reflection mirror integrally formed with a lower plane reflection surface for reflecting the light passing therethrough; A planar reflector disposed after a focal length of the objective lens and reflecting light reflected by the rectangular reflector to an inner opening region of the housing; A rearview mirror for a vehicle, comprising: an alternative lens formed of a convex lens coupled to an inner opening of the housing to enlarge and refract the light reflected from the planar reflector so that an image having a 1: 1 magnification is formed. Is provided.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First, an afocal system is used as a design concept for observing a rear region at a 1: 1 magnification by an optical system for observing the rear. In the following descriptions of the afocal system, in order to design an afocal system having two lens groups, the total power of the system is referred to as k, and each lens refractive power is represented by k. When k ₁ , k ₂ and the distance between two lens groups are d, the total refractive power must satisfy Equation 1 below. The Lagrange invariant of the afocal system is represented by Equation 2 below, and the angular magnification M _A is represented by Equation 3 below. Here, n ₁ , n ₂ is the refractive index of each lens, β _1, β ₂ is the field angle, that is _1/2 of the angle between the object and the eye with respect to the optical axis, h ₁ , h ₂ is the height from the optical axis for the light passing through the system. Thus, the following equation must be satisfied to form an afocal system with a 1: 1 magnification. Thus, in Equation 4, k ₁ d = 0 or d = 2 / k _1. First, when k ₁ d = 0, since the system is a system like a pair of windows, light from an object On the other hand, when d = 2 / k ₁ , k ₁ 0 and the distance d between the two lenses are positive in the physical sense, and the distance d is the focal length of the first lens group. Where Equation 1 is equal to k ₁ = k ₂ , i.e., the two lens groups have the same focal length, and the distance between the two lens groups is the sum of the respective focal lengths. Is a kind of Kepler optical system with 1: 1 magnification. When the aperture of the system is at a distance b from the second lens group (an alternative lens system of the present invention), The diameter ratio is shown in Equation 5 below. Therefore, when b is larger than the focal length of the first lens group, the diameter of the second lens group is larger than the diameter of the first lens group. As described above, an apocal system having a 1: 1 magnification is regarded as a basic concept. A rearview mirror for a vehicle of the present invention is manufactured, hereinafter, a rearview mirror for a vehicle according to an embodiment of the present invention will be described.

1 is a cross-sectional view of a rearview mirror for a vehicle according to an embodiment of the present invention. As shown in this figure, the vehicle rearview mirror 2 includes the vehicle 1 such that the opening formed at one end faces the side rear region of the vehicle 1 and the opening formed at the other end faces the inside of the vehicle 1. A housing 3 made of a tubular member coupled to the front region of the driver's seat, an objective lens system disposed in the outer opening region of the housing 3 and refracting to converge the light of the side rear region of the vehicle 1; A 1: 1 magnification or predetermined unit magnification (UNIT), which is disposed in the front region of the objective lens system along the direction of travel of the optical axis L _PC passing through the lens system and looks the same as what the driver sees with the naked eye. An alternative lens system for forming an objective lens and an afocal optical system by expanding and refracting an image having a magnification of any one of magnification; Air supply provided to the system.

The housing 3 includes an exterior portion 5 coupled to the vehicle 1 such that an opening formed at one end thereof faces the side rear region of the vehicle 1 and the other end protrudes inside the vehicle 1. It has an inner tube portion 7 which is in communication with 5 and which is pivotally coupled to the outer portion 5. A spherical part 6 is formed inside the end of the exterior part 5 arranged to protrude inside the vehicle 1, and the spherical part 8 of the inner tube part 7 is formed in the spherical part 6. It is pivotally receptively coupled.

The air supply part has an air inlet 25 extending to face the opening of the exterior part 5 so that air can be introduced from the outside, and the exterior part 5 is spaced apart from the exterior part 5 for air supply. ) And an inner duct 24 coupled to surround the end region of the inner tube part 7 at an interval for air supply between the outer duct 23 and the inner duct part 7.

Inside the outer duct 23 is provided an opening and closing device (not shown) to open and close the air inlet 25, the air guide pipe 27 to form a flow path of air is coupled. The first branch pipe 29 and the second branch pipe 31 are respectively coupled to the end of the air guide tube 27 to supply the air introduced through the air inlet 25 to the objective lens system and the alternative lens system.

The first branch pipe 29 is arranged in the shape of a coil in the circumferential region of the exterior portion 5, and the end portion is fixed to the surface of the objective lens portion 11 disposed at the outermost portion so that air can be injected. The second branch pipe 31 is disposed in the shape of a coil in the circumferential region of the inner tube portion 7, and an end portion of the second branch pipe 31 may blow air to the surface of the alternative lens 19 disposed at the outermost portion of the inner tube portion 7. It is fixed.

On the other hand, the inside of the air guide tube 27 is disposed in the transverse direction with respect to the flow path of the air filter member 33 is coupled to filter foreign matter in the air introduced from the outside, the filter member 33 In the rear region of the air blower 35 is provided to supply air to the alternative lens system and the objective lens system through each air supply pipe (29, 31). A heater coil 37 is provided on the downstream side of the blower 35 along the flow direction of the air so as to heat the air introduced from the outside. Here, the heater coil 37 may be disposed upstream of the blower 35.

2 is an enlarged view illustrating main parts of the rearview mirror of FIG. 1, FIG. 3 is a perspective view illustrating an arrangement of the optical elements of FIG. 1, and FIG. 4 is a view of an optical path corresponding to a center line in a vertical direction of the objective lens system of FIG. FIG. 5 is a view illustrating a state of use of the vehicle rearview mirror of FIG. 1. As shown in these figures, the objective lens system is disposed inside the exterior portion 5, and has a light transmitting member for refracting and reflecting the image of the side rear region of the vehicle 1 to converge to the inside of the vehicle 1 ( Has 9).

The light transmitting member 9 has a convex lens-type objective lens 11 that refracts so that the light passing through converges, and a predetermined angle within the focal length of the objective lens section 11 (in this embodiment, disposed at 45 degrees). An upper reflection portion 13 and an upper reflection portion 13, each of which is a planar reflection surface that is disposed to be inclined and reflects light passing through an image side of the horizontal center line of the objective lens portion 11 toward the inside of the vehicle 1; And the inner angle are perpendicular to each other and the mutual contact line is disposed under the upper reflecting portion 13 within the focal length of the objective lens portion 11 so as to correspond to the horizontal center line of the objective lens portion 11, It is composed of a so-called Amish type PRISM formed integrally with a lower reflecting portion 15 having a planar reflecting surface that reflects light passing through the lower region of the horizontal center line into the inside of the vehicle 1.

The alternative lens system is arranged in the inner opening region of the inner tube portion 7 to enlarge the refractive index so that an image having either magnification of either 1: 1 magnification or a predetermined unit magnification is formed on the image incident through the light transmitting member 9. A third reflection between the convex lens type alternative lens 19 and the light transmitting member 9 and the alternative lens 19 to reflect an image provided from the light transmitting member 9 to the alternative lens 19 side; It consists of a part 17.

Here, as shown in FIG. 4, the third reflector 17 may allow the optical paths L _PL and L _PR reflected by the upper reflector 13 and the lower reflector 15 to cross each other. It is comprised by the planar reflector arrange | positioned after the focal length of the objective lens part 11, and can also be comprised by a prism. The alternative lens 19 is composed of a single convex lens, but if the distance from the driver is relatively large, such as when the rearview mirror 2 for the vehicle is installed in the passenger seat, The planar convex lens (PLANO-CONVEX LENS) may be installed at the outermost part of the tube portion 7 and the concave-convex lens (CONCAVE-CONVEX LENS) may be provided between the flat convex lens and the third reflecting portion 17.

By such a configuration, when the image of the object in the side rear region of the vehicle 1 to which the housing 3 is coupled passes through the objective lens unit 11 in the form of substantially parallel light, the upper reflecting unit 13 is the objective lens unit. The image incident through the upper region of the horizontal center line of (11) is reflected to the lower reflection portion 15 with the reflection angle corresponding to the incident angle, and the lower reflection portion 15 is again reflected upward to the third reflection portion 17. Done. At the same time, the lower reflector 15 reflects the image incident through the lower region of the horizontal center line of the objective lens unit 11 to the upper reflector 13 with a predetermined reflection angle, and the upper reflector 13 The reflection angle is reflected downward to the third reflector 17 with the reflection angle corresponding to the incident angle.

Accordingly, the images reflected by the upper reflection portion 13 and the lower reflection portion 15 cross each other at the focal point of the objective lens portion 11, so that the left and right sides of the third reflection portion 17 are corrected. An image is made.

The image reflected by the third reflector 17 is enlarged to form an image having a 1: 1 magnification or a predetermined unit magnification through the alternative lens 19 constituting the afocal optical system together with the light transmitting member 9. By being transmitted to the driver in the form of almost parallel light, the driver can observe the object in the lateral and rear region with little distortion.

On the other hand, when water droplets or frost is caught on the surface of the objective lens unit 11 or the alternative lens 19, when the air inlet 25 is opened by an opening / closing device (not shown), the inside of the air guide tube 27 Air enters. The air introduced into the air guide tube 27 is filtered while passing through the filter member 33, and the surface of the objective lens unit 11 and the first branch pipe 29 and the second branch pipe 31 are separated from each other. Sprayed to the surface of the alternative lens 19, respectively, to remove water droplets or frost on each surface of the objective lens unit 11 and the alternative lens 19.

When the vehicle 1 is stopped, power is supplied to the blower 35 to introduce air from the outside, and the introduced air is supplied to the objective lens unit 11 and the alternative lens 19 through the branch pipes 29 and 31. Spray to the surface of When freezing occurs on the surface of the objective lens unit 11, such as in winter when the outside air temperature is relatively low, power is supplied to the heater coil 37 to heat the air, and the heated air is supplied to the objective lens unit 11. By spraying on the surface of the can be easily eliminated the frozen state of the surface.

In the above-described and illustrated embodiments, the optical axis L _PC passing through the objective lens unit 11 is formed to be substantially parallel to the axis L _VC of the vehicle 1 and the inner tube portion 7 is rotatable. One example is described, but the inner tube 7 of the housing 3 is configured to face the driver's seat so that the driver's line of sight and the optical axis L _{PC of the} alternative lens 19 coincide with each other. Of course, you can install).

In the above-described and illustrated embodiments, the light transmitting member 9 in which the objective lens unit 11, the upper reflecting unit 13, and the lower reflecting unit 15 are integrally described is described as an example. 11 and the upper reflection portion 13 and the lower reflection portion 15 may be configured separately, and the upper reflection portion 13 and the lower reflection portion 15 are integrally formed in an amish type prism shape. In addition, the objective lens 11 formed separately on one side thereof may be disposed.

In the above-described and illustrated embodiments, the third reflector 17 and the alternative lens 19 are separately described and described, but the third reflector 17 and the alternative lens 19 may be configured to be integrally formed with each other. In addition, in the above-described and illustrated embodiments, the air guide tube 27 is provided in the outer duct 23 so that the air can be supplied to the objective lens unit 11 and the alternative lens 19. Although the case where the 1st branch pipe | tube 29 and the 2nd branch pipe | tube 31 are connected to the terminal of 27 is demonstrated for example, the outer duct 23 and the inner duct 24 outside the housing 3 are demonstrated. Air injection holes are formed in the distal regions of the housing 3, the outer duct 23, and the inner duct 24 so that air is injected toward the surfaces of the objective lens unit 11 and the alternative lens 19, respectively. It may also be configured to.

As described above, according to the present invention, the upper reflector, the lower reflector and the third reflector are disposed between the objective lens and the alternative lens, so that the driver hardly distorts the objects in the rear and rear of the vehicle with respect to the traveling direction of the vehicle. A rearview mirror for a vehicle is provided that allows for accurate and easy observation and at the same time shortens the projecting length of the housing projecting inside the vehicle.

In addition, the vehicle rearview mirror according to the present invention is relatively easy to match the optical axis, the image shake due to the vibration of the vehicle is less, as well as the objective lens and the alternative constituting the afocal optical system of the image of almost parallel light from the object By recognizing the image as almost parallel light through the lens, the rear region of the vehicle can be easily observed.

Claims (15)

A housing coupled to the front region of the driver's seat so that the opening formed at one side faces the outer rear region of the vehicle and the opening formed at the other side is disposed inside the vehicle; At least one objective lens for refracting the converged light to converge, and inclined at a predetermined angle within the focal length of the objective lens in the housing to reflect the light passing through the objective lens to the inside of the vehicle, An upper reflecting portion for reflecting light passing through the horizontal center line of the objective lens, and an inner angle of the upper reflecting portion to a right angle, and a mutual contact line below the upper reflecting portion so as to correspond to the horizontal center line of the objective lens; An objective lens system having a lower reflecting portion disposed to reflect light passing through a lower side of a horizontal center line of the objective lens; A third reflection part disposed after the focal length of the objective lens and reflecting light reflected by the upper and lower reflection parts to an inner opening area of the housing, and at least one coupled to an inner opening area of the housing; And an alternative lens system for forming an afocal optical system by expanding and refracting the light reflected by the third reflecting unit to have an image having any one of a 1: 1 magnification and a predetermined unit magnification with an alternative lens of? A vehicle rearview mirror characterized by the above-mentioned. The rearview mirror of claim 1, wherein the upper reflecting portion and the lower reflecting portion are an amish type prism formed integrally with each other. The vehicle rearview mirror of claim 1, wherein the objective lens, the upper reflection portion, and the lower reflection portion are an amish-type prism formed integrally with each other. The rearview mirror of claim 1, wherein the third reflector is a planar reflector. The rearview mirror of claim 1, wherein the third reflector and the alternative lens are integrally formed with each other. The rearview mirror of claim 5, wherein the third reflector is a prism. The rearview mirror of claim 1, wherein the alternative lens comprises a flat convex lens disposed in an inner opening region of the housing, and a convex convex lens disposed between the flat convex lens and the third reflecting portion. . 8. The housing of claim 1, wherein the housing comprises: an exterior portion coupled to the vehicle such that a spherical portion formed at one end thereof is exposed to the inside of the vehicle, and an inner tube portion pivotably coupled to the spherical portion. Vehicle rearview mirror, comprising: a. According to claim 8, An air inlet is formed on one side and the outer duct coupled to surround the outer portion, and the first minute to guide the air introduced into the outer duct through the air inlet to the surface of the objective lens Vehicle rearview mirror further comprises an engine. 10. The apparatus of claim 9, wherein one end of the inner duct is in communication with the outer duct and coupled to surround the inner tube, and the air branched from the first branch pipe and introduced through the air inlet is disposed at the outermost portion of the housing. And a second branch pipe for guiding to the surface of the alternative lens. 10. The rearview mirror of claim 9, further comprising heating means disposed in a flow path of air introduced through the air inlet to heat the air. 10. The vehicle rearview mirror of claim 9, further comprising a blower disposed in the outer duct to allow air from the outside into the outer duct through the air inlet. A housing coupled to the front region of the driver's seat so that the opening formed at one side faces the outer rear region of the vehicle and the opening formed at the other side is disposed inside the vehicle; An objective lens made of a convex lens disposed in an outer opening area of the vehicle of the housing and refracting so as to converge the light passing therethrough; Disposed to be inclined at a predetermined angle within the focal length of the objective lens in the housing so as to reflect the light passing through the objective lens to the inside of the vehicle, and reflects the light that has passed to the upper side of the horizontal center line of the objective lens The upper reflecting surface and the inner reflecting angle of the upper reflecting surface are perpendicular to each other, and the light is disposed below the upper reflecting surface so that the mutual contact line corresponds to the horizontal center line of the objective lens and passes through the lower side of the horizontal center line of the objective lens. An amish-type prism formed integrally with a lower reflection surface reflecting the light; A planar reflector disposed after the focal length of the objective lens and reflecting light reflected by the prism to an inner opening region of the housing; And an alternative lens of a convex lens coupled to an inner opening of the housing to enlarge and refract the light reflected from the planar reflector to form an image having a 1: 1 magnification. A housing coupled to the front region of the driver's seat so that the opening formed at one side faces the outer rear region of the vehicle and the opening formed at the other side is disposed inside the vehicle; An objective lens portion formed of a convex lens disposed in an outer opening area of the vehicle and refracted to converge to pass light; and the object in the housing to reflect light passing through the objective lens portion to the inside of the vehicle. It is formed to be inclined at a predetermined angle within the focal length of the lens portion to reflect the light passing through the upper side of the horizontal center line of the objective lens portion and the upper reflection surface and the mutual angle of the internal angle perpendicular to each other and the mutual contact line is the object A light transmitting member which is disposed below the upper reflection surface so as to correspond to the horizontal center line of the lens unit and integrally formed with a lower reflection surface reflecting light passing through the lower side of the horizontal center line of the objective lens unit; A planar reflector disposed after a focal length of the objective lens unit and reflecting light passing through the light transmitting member to an inner opening region of the housing; And an alternative lens of a convex lens coupled to an inner opening of the housing to enlarge and refract the light reflected from the planar reflector to form an image having a 1: 1 magnification. A housing coupled to the front region of the driver's seat so that the opening formed at one side faces the outer rear region of the vehicle and the opening formed at the other side is disposed inside the vehicle; An objective lens made of a convex lens disposed in an outer opening area of the vehicle of the housing and refracting so as to converge the light passing therethrough; Disposed to be inclined at a predetermined angle within the focal length of the objective lens in the housing so as to reflect the light passing through the objective lens to the inside of the vehicle, and reflects the light that has passed to the upper side of the horizontal center line of the objective lens An upper plane reflecting surface and an inner angle of the upper plane reflecting surface are perpendicular to each other, and a contact line is disposed below the upper plane reflecting surface so as to correspond to a horizontal center line of the objective lens, so that the lower side of the horizontal center line of the objective lens is disposed. A rectangular reflection mirror integrally formed with a lower plane reflection surface for reflecting the light passing therethrough; A planar reflector disposed after a focal length of the objective lens and reflecting light reflected by the rectangular reflector to an inner opening region of the housing; And an alternative lens of a convex lens coupled to an inner opening of the housing to enlarge and refract the light reflected from the planar reflector to form an image having a 1: 1 magnification.