JP3131088U - Rear view mirror structure - Google Patents

Abstract

To provide a rear view mirror structure capable of adjusting the curvature, which can stimulate consumers' willingness to purchase.
A flexible mirror surface body having a reflecting surface and an inner surface, and a mirror surface body provided behind the mirror surface body, wherein the inner surface of the mirror surface body is driven to be adjustable so that the reflecting surface of the mirror surface body is specific. And an adjusting mechanism for giving a curvature, whereby the rear view mirror structure can be adjusted until it has a wide viewing angle.
[Selection] Figure 4A

Description

  The present invention relates to an adjustable rear view mirror structure, and more particularly to a rear view mirror structure in which the curvature of a mirror surface can be adjusted.

In various vehicles (four-wheeled vehicles, motorcycles, trucks, etc.), the rear view mirror is already a standard equipment that is essential.
Taking automobiles as an example, as a support tool for drivers to pay attention to the situation behind and on the side of the vehicle, in order to improve safety during driving, generally at least a rearview mirror, side rearview mirror, etc. Is installed.
However, a general rear view mirror has a limit in viewing angle, and there is still a blind spot in the viewing angle during use. In order to overcome this drawback, products that widen the viewing angle of rear view mirrors are put on the market one after another.

For example, as shown in FIG. 1, a conventional rear view mirror 10 includes a mirror surface 11 that provides a rear viewing effect with a general viewing angle.
A small convex reflecting mirror 13 is fitted on the mirror surface 11.
The convex reflecting mirror 13 has a curvature, and the driver can partially obtain a wide viewing angle effect.
By combining the general viewing angle of the mirror surface 11 and the wide viewing angle of the convex reflector 13, a good rear viewing effect can be obtained, and a wider field of view in the rear / side vehicle or the rear seat in the vehicle The corners are secured, driving safety is increased, or the state of the rear seat in the vehicle can be visually confirmed.

  The convex reflector 13 can be installed in such a way that a fixed wide-angle mirror having a larger size is sandwiched on a rear-view mirror that is standard on the vehicle, thereby limiting the viewing angle of the existing rear-view mirror. Changes such as complete replacement of a design are possible.

However, any existing design encounters the use needs that cannot be satisfied at the same time, and different driver's seating posture, height, required viewing width and usage habits differ. Because of the factors, after different drivers get into the driver's seat, the angle of the rear view mirror 10 must be adjusted by hand, and each person's special driving habits cannot be fully satisfied, which is the limit of existing devices. There was no choice but to compromise.
Further, most of the planar images (provided by the mirror surface 11) and the wide-angle images of the small portions (which are provided by the convex reflector 13) are displayed on the rear view mirror 10. This is not a habit of seeing a combination mirror surface, but this is also an obstacle that must be overcome.

  Further, the adjustment of the conventional rear view mirror 10 is limited to rotating the entire angle of the rear view mirror 10 left and right or up and down, and the viewable angle of the mirror surface 11 cannot be changed. Many.

  In view of this, providing a rear view mirror structure in which the curvature of the mirror surface can be adjusted has been a problem awaited in the industry.

  The purpose of the present invention is to provide a rear-view mirror structure that can adjust the curvature of the mirror surface and adjust the viewing angle according to demand, thereby adapting to the driving habits and needs of different drivers and effectively improving driving safety. By the way.

  Another object of the present invention is to provide a rear view mirror structure that can be widely applied to various vehicles and can provide a wide rear viewing effect at any part of the various vehicles, and can adjust the curvature.

  Still another object of the present invention is that the mechanism capable of adjusting the curvature can be electric, manual, or electric / manual, which indirectly increases the grade of in-vehicle equipment and encourages consumers to purchase. A rear view mirror structure with adjustable curvature can be provided.

  In order to achieve the above object, according to the present invention, a flexible mirror surface body having a reflection surface and an inner surface facing the reflection surface, and a rear surface of the mirror surface body, the inner surface of the mirror surface body can be adjusted. And a rear view mirror structure provided with an adjustment mechanism for driving the mirror surface body to have a specific curvature on the reflecting surface of the mirror body.

That is, the first device of the present application is provided with a flexible mirror surface main body having a reflecting surface and an inner surface facing the reflecting surface, and is provided behind the mirror surface main body, and drives the inner surface to be adjustable. And a rear view mirror structure provided with an adjusting mechanism for giving a specific curvature to the reflecting surface of the mirror body.
The second device of the present application further includes a housing having a back plate and an opening and forming an accommodation space, wherein the mirror surface body is substantially provided in the opening of the housing, and the adjusting mechanism is A rear view mirror structure according to the first aspect of the present invention is provided in a housing space.
According to a third aspect of the present application, the mirror surface main body further includes a first projecting bar and a second projecting bar that are respectively provided in two regions of the inner surface and extend rearward. The rear view mirror structure according to the second aspect, wherein a mechanism drives a relative movement of the first protruding bar and the second protruding bar to adjust a curvature of the mirror body.
In a fourth device of the present application, the adjusting mechanism is provided on two sides of the accommodation space, and the first screwing body and the second screwing member corresponding to the first protruding bar and the second protruding bar are provided. A screwed body, and a first screwed part and a second screwed part formed on two sides, which are screwed into the first screwed body and the second screwed body, respectively. , Enabling a first lateral movement of the first threaded body relative to the first threaded portion, and enabling a second lateral motion of the second threaded body relative to the second threaded portion; The first threaded body and the second threaded body further comprise adjusting means overlying the first projecting bar and the second projecting bar, respectively, and the first lateral movement, When the second lateral motion opposes, the curvature of the mirror body increases gradually, and the first lateral motion and the second lateral motion are increased. When bets are separated, the curvature decreasing to provide a rearview mirror structure according to the third invention.
In a fifth aspect of the present application, the adjustment mechanism further includes drive means for driving the adjustment means to perform at least one of the first lateral movement and the second lateral movement. A rear view mirror structure as described in the invention is provided.
A sixth invention of the present application provides the rear view mirror structure according to the fifth invention, wherein the adjustment mechanism further includes a power device coupled to the driving means.
A seventh invention of the present application provides the rear view mirror structure according to the sixth invention, wherein the adjustment mechanism further includes a switch for controlling the operation of the power device.
According to an eighth aspect of the present application, there is provided a rear view mirror structure according to the sixth aspect, wherein the power device includes a DC power source.
According to a ninth aspect of the present application, the adjusting means further includes a first knob and a second knob, and the first screwing portion and the second screwing portion of the adjusting means are arranged so as to be opposite to the housing. The first knob and the second knob, respectively, and when the at least one of the first knob and the second knob is rotated, the first knob and the second knob are rotated. The rear-view mirror structure according to the fourth aspect of the present invention drives at least one of the lateral movement and the second lateral movement to change the curvature of the mirror body.
According to a tenth aspect of the present application, the adjusting means includes a screw rod, and the first screwing portion and the second screwing portion are provided on two opposing sides of the screw rod, respectively, and the screw in the reverse direction is provided. The rear view mirror structure according to the fourth aspect, wherein the rear view mirror structure has a groove and the first lateral movement and the second lateral movement face each other when the screw rod rotates in a specific direction.
In an eleventh aspect of the present application, the adjusting means includes a first screw rod, a second screw rod, and an intermediate pillar, and the first screwing portion and the second screwing portion are the first screw rod. 1 screw rod and the second screw rod, respectively, the first screw rod is provided so as to straddle between the intermediate column body and one side wall of the housing, the second screw rod The screw rod is provided so as to straddle between the intermediate column body and the other opposing side wall of the housing.
According to a twelfth aspect of the present invention, the adjusting mechanism includes a rotating shaft provided vertically in the housing space, and an outer edge substantially in contact with an inner surface of the mirror body, and the adjusting mechanism is arranged between the rotating shaft and the rotating shaft. And a control piece that is eccentrically provided on the rotation shaft and defines a distance of 1 and a second distance, and a distance between the rotation shaft and the inner surface is along the first distance. The rear view mirror structure according to the second aspect, wherein the curvature of the mirror surface main body gradually increases when gradually increasing to the second distance.
The thirteenth device of the present application is further provided with a rotary knob connected to one end of the rotating shaft and provided outside the housing, and drives the rotation of the control piece when the rotary knob rotates. A rear view mirror structure according to the twelfth aspect is provided.
The fourteenth device of the present application further includes two standing pillars that are provided opposite to each other and vertically in the housing space, and the two standing inner surfaces of the mirror body are provided with the standing The rear view mirror structure according to the twelfth aspect is provided, wherein the rear view mirror structure is provided so as to be respectively engaged with a column body and provided with two engaging claws for fixing the mirror body.
In a fifteenth aspect of the present application, the adjustment mechanism includes a press contact piece that is pressed against and contacted with an inner surface of the mirror body, a rotary knob, and one end screwed to the press contact piece. A coupling body connected to the rotary knob, the other opposing end extending outside the back plate of the housing, and driving the coupling body when the rotary knob rotates to The rear view mirror structure according to the second aspect of the present invention, wherein the abutment piece is pushed to abut and reciprocate back and forth, is provided.
The sixteenth device of the present application further includes two standing pillars that are provided opposite to each other and perpendicular to the accommodation space, and the two standing inner sides of the mirror body are provided with the standing pillars. The rear view mirror structure according to the fifteenth aspect is provided, wherein the rear view mirror structure is provided so as to be respectively engaged with a column body and provided with two engaging claws for fixing the mirror surface main body.
According to a seventeenth aspect of the present application, the adjustment mechanism is provided perpendicularly to the holding contact piece that is pressed against and contacted with the inner surface of the mirror body, and is provided vertically from the first position to the second position. An adjusting body that moves up and down to a position, and a link having one end pivoted on the adjusting body and the other opposite end pivoted on the presser contact piece. The rear view mirror structure according to the second aspect of the present invention is provided that propels the presser contact piece and performs a forward propulsion motion while moving from the position 1 to the second position.
The eighteenth device of the present application is an upright screw rod screwed into the adjustment body and having one end extending outside the bottom plate of the housing, and a rotary knob provided on the end of the upright screw rod; The rear view mirror structure according to the seventeenth aspect is provided, wherein when the rotary knob is rotated, the adjustment body is driven to perform the vertical movement.
The nineteenth device of the present application further includes two standing pillars that are provided opposite to each other and vertically in the housing space, and the two standing-side inner surfaces of the mirror body are arranged on the two sides. The rear view mirror structure according to the seventeenth aspect is provided, wherein the rear view mirror structure is provided so as to be respectively engaged with a column body and provided with two engaging claws for fixing the mirror body.
A twentieth device of the present application provides a rear view mirror structure according to the first device, which is applied to a rearview mirror.
A twenty-first invention of the present application provides a rear view mirror structure according to the first invention applied to a side rearview mirror.

The structure of the rear view mirror according to the present invention will be described below with reference to the drawings.
As shown in FIGS. 2 and 3, the rear view mirror structure 20 includes a flexible mirror surface body 21, an adjustment mechanism 23, and a housing 25.
Among these, the housing 25 includes a back plate 251 and an opening 253 to form an accommodation space.
The mirror body 21 is substantially provided in the opening 253 of the housing 25 after being assembled, and the adjusting mechanism 23 is provided in the receiving space behind the mirror body 21.
The mirror surface main body 21 includes a reflection surface 211 and an inner surface 213 facing the reflection surface 211, and the adjustment mechanism 23 can adjust the inner surface 213 so that the reflection surface 211 of the mirror surface main body 21 has a specific curvature. To drive.
Further, the housing 25 is provided by being selectively locked to other parts such as a rear view mirror that is standardly provided in an automobile or other parts (mirrors) fixed to the automobile via a plurality of protruding claws 255. Also good.

This will be described with reference to FIG.
In this embodiment, the mirror surface main body 21 further includes a first projecting bar 215 and a second projecting bar 217 that extend rearward in the direction of the adjusting mechanism 23 in two regions of the inner surface 213. The adjusting mechanism 23 drives the first projecting bar 215 and the second projecting bar 217 to generate relative motion, and as a result, the curvature of the mirror surface body 21 is adjusted.

The detailed structure in which the adjusting mechanism 23 drives the first protruding bar 215 and the second protruding bar 217 will be further clarified with reference to FIGS. 4A and 4B.
The adjusting mechanism 23 includes an adjusting unit 230, a first screwed body 235, and a second screwed body 237.
Among these, the first screwed body 235 and the second screwed body 237 are provided on the two sides of the accommodation space, and correspond to the first protruding bar 215 and the second protruding bar 217, respectively. The first protruding bar 215 and the second protruding bar 217 are covered. The adjusting means 230 includes a first screwing portion 231 and a second screwing portion 233 that are formed opposite to the two sides.

More specifically, the first screwed portion 231 and the second screwed portion 233 are screwed into the first screwed body 235 and the second screwed body 237, respectively, and the first screwed body 235 is engaged. The first lateral movement S1 with respect to the first screwing portion 231 is made possible, and the second lateral movement S2 with respect to the second screwing portion 233 of the second screwing body 237 is made possible.
When the first lateral movement S1 and the second lateral movement S2 face each other as shown in FIG. 4A, the distance between the first threaded body 235 and the second threaded body 237 is simultaneously reduced. Driving is performed so that the distance between the first protruding bar 215 and the second protruding bar 217 is gradually reduced, and the mirror body is curved forward to obtain an increasing curvature.
As shown in FIG. 4B, on the contrary, when the first lateral motion S1 and the second lateral motion S2 are separated from each other, a decreasing curvature is obtained.
In short, in this embodiment, the curvature of the mirror surface main body 21 can be adjusted by controlling the movement direction of the first screwed body 235 and the second screwed body 237.

It should be explained that the method of controlling the adjusting mechanism 23 can adopt electric, manual, or a mixed form of electric and manual.
Taking electric drive as an example, the adjustment mechanism 23 further includes a drive unit 27 that drives the adjustment unit 230 to perform at least one of the first lateral movement S1 and the second lateral movement S2.
In this case, since the driving unit 27 requires a driving source, the adjusting mechanism 23 further includes a power device 28 (for example, shown in FIG. 3) connected to the driving unit 27.
It can be understood that the power device 28 can be a DC power source 281 such as a battery provided in the battery chamber 283 and provided with a battery cover 285 as a protection.

  In order to make it easier for the driver to control the driving means 27, the adjusting mechanism 23 is provided at any position of the housing 25 or at any position within the interior of the automobile where the driver's hand can reach. Further, a switch 31 is further provided for facilitating control of the operation of the power device 28, supplying power to the driving means 27, and adjusting the curvature of the mirror surface main body 21.

In other embodiments, the method of controlling the adjustment mechanism 23 may be manual.
In this case, the adjusting means 230 further includes a first knob 291 and a second knob 293, and the first screwing portion 231 and the second screwing portion 233 each have two opposing side walls in the housing 25. The first knob 291 and the second knob 293 are connected to the first knob 291 and the second knob 293, respectively.
When at least one of the first knob 291 and the second knob 293 is rotated, the execution of at least one of the first lateral movement S1 and the second lateral movement S2 is driven, and the mirror surface body 21 is driven. The curvature of can be changed.

Another preferred embodiment of the present invention is as shown in FIG.
The adjusting means 230 includes a screw rod 40, and the first screwing portion 231 and the second screwing portion 233 are provided on two opposing sides of the screw rod 40, respectively.
More specifically, since the first screwing portion 231 and the second screwing portion 233 each have a screw groove in the reverse direction, when the screw rod 40 rotates in a specific direction, The thread groove drives the generation of relative movement of the first screwed body 235 and the second screwed body 237 to perform opposing movements such as the first lateral movement S1 and the second lateral movement S2. .

The single screw rod 40 can be divided into two and provided in a similar manner.
That is, the first screw rod 41, the second screw rod 43, and the intermediate column body 45 are provided, and the first screwing portion 231 and the second screwing portion 233 are the first screw rod 41 and the first screw rod 41, respectively. Two screw rods 43 are provided.
In other words, the first screw rod 41 is provided so as to straddle between the intermediate column body 45 and one side wall of the housing 25, and the second screw rod 43 is the other opposite side wall of the intermediate column body 45 and the housing 25. Similarly, when the first screw rod 41 and / or the second screw rod 43 rotate in a specific direction, the first screwed body 235 and the second screwed body 237 are provided. Driving the generation of relative motion.

The adjusting mechanism 23 of the present invention is not limited to the method described above.
As shown in FIGS. 6A and 6B, the rotation shaft 51 and the control piece 53 can be replaced.
Among these, the rotating shaft 51 is provided vertically in the accommodation space, and the control piece 53 is provided eccentrically on the rotating shaft 51.
The outer edge of the control piece 53 is substantially in contact with the inner side surface 213 of the mirror body 21.
Due to the eccentric design, when the control piece 53 rotates on the rotation shaft 51, an arc shape protruding in contact with the mirror body 21 is formed.
For convenience of explanation, if the first edge and the second distance are defined between the outer edge of the control piece 53 and the rotating shaft 51, the first distance is the shortest distance between the outer edge and the rotating shaft 51. The second distance is the longest distance between the outer edge and the rotating shaft 51, and the distance between the rotating shaft 51 and the inner surface 213 reaches the second distance along the first distance. When it is increased, the mirror surface main body 21 is pushed forward to obtain a gradually increasing curvature.
6B is an explanatory diagram of a schematic view in which the control piece 53 rotates on the rotation shaft 51 and abuts against the inner side surface 213 of the mirror surface main body 21. FIG.

In order to make it easier for the user to control the rotation of the rotary shaft 51, a rotary knob 295 provided outside the housing 25 is connected to one end of the rotary shaft 51, and when the rotary knob 295 rotates, the rotary shaft 51 is driven. Thus, the control piece 53 is rotated.
Further, since the control piece 53 is substantially in contact with the center position of the inner surface 213 of the mirror surface main body 21, when changing the curvature of the mirror surface main body 21, it is necessary to appropriately fix the mirror surface main body 21 on both sides. .
Description will be made with reference to FIGS. 6A and 6B again.
The rear view mirror structure 20 includes two standing columns 61 and 63 that are provided opposite to each other and vertically in the accommodation space.
Two locking claws 214 provided on the two sides of the inner surface 213 of the mirror surface main body 21 so as to lock the standing columns 61 and 63, respectively, and suitable for fixing both sides of the inner surface 213, 216 are provided.

The design of another adjusting mechanism of the present invention is as shown in FIG.
This includes a presser contact piece 71, a connecting body 73, and a rotary knob 297. The presser abutment piece 71 is pressed against and contacts the inner surface 213 of the mirror body 21, and one end of the connecting body 73 is screwed to the presser abutment piece 71, and the other opposite end is the back plate of the housing 25. 251 extends outside 251 and is connected to a rotary knob 297.
When the rotary knob 297 is rotated, the connecting body 73 is driven and the press contact piece 71 is pressed and contacted to perform the back and forth reciprocating motion.
Similarly, the mirror surface main body 21 is fixed to the two sides of the inner surface 213 of the mirror surface main body 21 so as to be engaged with the standing pillars 61 and 63, respectively. It is necessary to provide locking claws 214 and 216 that give a curvature when pressed against the center of 21 and abut.

The above-described embodiments are not limited to all methods of adjusting the curvature of the mirror surface main body 21, but can be achieved by other feasible methods.
As shown in FIG. 8, the adjustment mechanism 23 includes a presser contact piece 91, an adjustment body 93, a link 95, an upright screw rod 97, and a rotary knob 299.
One end of the upright screw rod 97 extends outside the bottom plate 257 of the housing and is connected to the rotary knob 299, and the main body of the upright screw rod 97 is screwed into the adjusting body 93.

Further description will be made with reference to FIG.
This is a three-dimensional view of the adjusting mechanism 23 of this embodiment.
When the rotary knob 299 rotates, the upright screw rod 97 drives the adjusting body 93 provided vertically in the accommodation space so as to move up and down from the first position to the second position. It has become.
Next, one end of the presser contact piece 91 is pivoted on the adjusting body 93, the other opposite end is pivoted on the presser contact piece 91, and the link 95 is combined to make the presser contact piece 91 the inner surface 213 of the mirror body 21. Press to make contact.
As a result, while the adjuster moves from the first position to the second position, the presser contact piece 91 is propelled to perform a forward propulsion motion.

  Similarly, in the rear view mirror structure 20 in this embodiment, the standing pillars 61 and 63 (not shown) are provided on two sides in the accommodating space, and two of the inner side surfaces 213 of the mirror surface main body 21 are provided. The locking claws 214 and 216 are provided correspondingly on one side, and the locking claws 214 and 216 are respectively locked to the standing pillars 61 and 63 to fix both sides of the mirror surface main body. It is supposed to be.

With the above-described rear view mirror structure, the curvature of the mirror surface is adjusted by an electric, manual, or electric / manual mixing method, and a wide-angle effect is obtained by projecting outward, and an effect of converging the image by indenting inward is obtained.
Moreover, as disclosed in the section of the prior art, the rear view mirror structure disclosed in the present invention is not only applicable to various types of transportation, but also when mounted on an automobile, it is further equipped with a rear mirror and a side back mirror. The effect described can be achieved by applying it to a mirror or other mirror device that requires visual observation of the rear situation.
As a result, it is possible to simultaneously adapt to the driving habits of different drivers, to improve information on the rear side of the vehicle and the side of the vehicle during driving, and to ensure driving safety.

  The above-described examples illustrate embodiments of the present invention and are used only for explaining the technical features of the present invention, and are not used to limit the protection scope of the present invention. Modifications that are readily completed by those skilled in the art or equivalent modifications are intended to be within the scope of the claims of the present invention.

It is the external appearance schematic of the conventional rear view mirror. 1 is a front exploded schematic view of a preferred embodiment of the present invention. FIG. FIG. 3 is a rear exploded schematic view of FIG. 2. FIG. 3 is a schematic top cross-sectional view of FIG. 2, and the mirror body has a curvature. It is the same as FIG. 4A, and this mirror surface body does not have a curvature. FIG. 3 is a schematic view of another preferred embodiment of the control mechanism of FIG. 2. FIG. 6 is a schematic view of still another preferred embodiment of the control mechanism of the present invention. FIG. 6B is a schematic top sectional view of FIG. 6A, and the mirror body has a curvature. FIG. 6 is a schematic view of still another preferred embodiment of the control mechanism of the present invention. FIG. 6 is a schematic view of still another preferred embodiment of the control mechanism of the present invention. It is a three-dimensional schematic diagram of the adjustment mechanism shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Rear view mirror 11 Mirror surface 13 Convex-type reflective mirror 20 Rear view mirror structure 21 Mirror surface main body 211 Reflecting surface 213 Inner side surface 214,216 Locking claw 215 First protrusion rod 217 Second protrusion rod 23 Adjustment mechanism 230 Adjustment means 231 First 1 screwing portion 233 second screwing portion 235 first screwing body 237 second screwing body 25 housing 251 back plate 253 opening 255 255 protrusion claw 257 bottom plate 27 driving means 28 power device 281 DC current 283 battery chamber 285 Battery cover 291 First knob 293 Second knob 295, 297, 299 Rotation knob 31 Switch 40 Screw rod 41 First screw rod 43 Second screw rod 45 Intermediate column body 51 Rotating shaft 53 Control piece 61, 63 Standing up Pillar 71, 91 Presser foot Lateral movement of the contact piece 73 connecting member 93 adjusting member 95 links 97 upstanding screw rod S1 first lateral motion S2 second

Claims (21)

A flexible mirror body having a reflecting surface and an inner surface facing the reflecting surface;
An adjustment mechanism provided behind the mirror surface body, driving the inner surface in an adjustable manner, and having a specific curvature on the reflection surface of the mirror surface body;
Rear view mirror structure.   The housing further includes a housing having a back plate and an opening and forming an accommodation space, wherein the mirror body is substantially provided in the opening of the housing, and the adjustment mechanism is provided in the accommodation space. The rear view mirror structure according to claim 1.   The mirror surface main body further includes a first projecting bar and a second projecting bar that are respectively provided in regions on two sides of the inner surface and extend rearward, and the adjusting mechanism includes the first projecting bar. The rear view mirror structure according to claim 2, wherein a relative movement of the bar and the second protruding bar is driven to adjust a curvature of the mirror body.   The adjustment mechanism is provided on two sides of the accommodation space, and corresponds to the first protruding bar and the second protruding bar, the first screwed body and the second screwed body, and the first The first screwed body and the second screwed body are respectively screwed and have a first screwed portion and a second screwed portion formed on two sides. A first lateral movement with respect to the first threaded portion, and a second lateral movement of the second threaded body with respect to the second threaded portion, wherein the first threaded body and The second threaded body further comprises adjusting means overlying the first projecting bar and the second projecting bar, respectively, and the first lateral motion and the second lateral motion. When the curvature of the mirror surface body increases and the first lateral movement and the second lateral movement are separated from each other The curvature decreasing, a rear view mirror arrangement according to claim 3.   5. The rear view mirror structure according to claim 4, wherein the adjustment mechanism further includes drive means for driving the adjustment means to perform at least one of the first lateral movement and the second lateral movement. 6.   The rear view mirror structure according to claim 5, wherein the adjustment mechanism further includes a power device coupled to the driving unit.   The rear view mirror structure according to claim 6, wherein the adjustment mechanism further includes a switch that controls an operation of the power device.   The rear view mirror structure according to claim 6, wherein the power device includes a DC power source.   The adjusting means further includes a first knob and a second knob, and the first screwing portion and the second screwing portion of the adjusting means respectively penetrate two opposing side walls of the housing. The first knob and the second knob, respectively, and when rotating at least one of the first knob and the second knob, the first lateral movement and the second knob, respectively. The rear view mirror structure according to claim 4, wherein at least one execution of two lateral movements is driven to change the curvature of the mirror body.   The adjusting means includes a screw rod, and the first screwing portion and the second screwing portion are provided on two opposite sides of the screw rod, respectively, and have screw grooves in opposite directions, and the screw The rear view mirror structure according to claim 4, wherein the first lateral movement and the second lateral movement face each other when the rod rotates in a specific direction.   The adjusting means includes a first screw rod, a second screw rod, and an intermediate column body, and the first screwing portion and the second screwing portion are the first screw rod and the first screw rod. The first screw rod is provided so as to straddle between the intermediate column body and one side wall of the housing, and the second screw rod is provided on the intermediate column body. The rear view mirror structure according to claim 4, wherein the rear view mirror structure is provided so as to straddle between the other opposing side walls of the housing.   The adjusting mechanism includes a rotating shaft vertically provided in the accommodation space, and an outer edge substantially in contact with an inner surface of the mirror body, and a first distance and a second distance between the rotating shaft and the rotating shaft. And a control piece that is eccentrically provided on the rotation shaft, and defines a distance between the rotation shaft and the inner surface up to the second distance along the first distance. The rear view mirror structure according to claim 2, wherein the curvature of the mirror body gradually increases when increasing.   13. The rear view mirror according to claim 12, further comprising a rotary knob provided outside the housing and connected to one end of the rotary shaft, and driving the rotation of the control piece when the rotary knob rotates. Construction.   Two standing pillars provided opposite to each other and perpendicular to the accommodation space are further provided, and the two inner side surfaces of the mirror surface body are respectively engaged with the standing pillars. The rear view mirror structure according to claim 12, wherein two locking claws for fixing the mirror body are provided.   The adjustment mechanism includes a presser contact piece that is pressed against and contacted with an inner surface of the mirror surface main body, a rotary knob, and one end screwed to the presser contact piece, and the other opposite end A connecting body that extends out of the back plate of the housing and is connected to the rotary knob. When the rotary knob rotates, the connecting body is driven to press and contact the presser contact piece. The rear view mirror structure according to claim 2, wherein the rear view mirror reciprocates back and forth.   Two standing pillars provided opposite to each other and perpendicular to the accommodation space are further provided, and the two inner side surfaces of the mirror surface body are respectively engaged with the standing pillars. The rear view mirror structure according to claim 15, further comprising two locking claws for fixing the mirror body.   The adjustment mechanism is provided perpendicularly to the holding space and pressed against the inner surface of the mirror body and vertically moves from the first position to the second position. An adjustment body, and a link having one end pivotally connected to the adjustment body and the other opposite end pivoted to the presser contact piece, wherein the adjustment body is moved from the first position to the second position. The rear view mirror structure according to claim 2, wherein the presser contact piece is propelled to perform a forward propulsion motion while moving to the position.   An upright screw rod screwed into the adjustment body and having one end portion extending out of a bottom plate of the housing; and a rotary knob provided on an end portion of the upright screw rod; The rear view mirror structure according to claim 17, wherein when the knob rotates, the adjustment body is driven to perform the vertical movement.   Two standing pillars provided opposite to each other and perpendicular to the accommodation space are further provided, and the two inner side surfaces of the mirror surface body are respectively engaged with the standing pillars. The rear view mirror structure according to claim 17, wherein two locking claws for fixing the mirror body are provided.   The rear view mirror structure according to claim 1 applied to a room mirror.   The rear view mirror structure according to claim 1, wherein the rear view mirror structure is applied to a side rearview mirror.

Images