TWM318542U - Rear view mirror structure - Google Patents

Description

'M318542 鬌In addition, the adjustment of the conventional rearview mirror 1仅 only stops the left and right or up and down rotation of the rear view mirror 1〇. The angle of view of the mirror 11 cannot be changed, so the limitation in use is relative. More. In view of this, providing an adjustable mirror curvature rear view mirror structure is an urgent problem to be solved in the industry. [New content] One of the aims of this creation is to provide a rear view mirror structure, the curvature of the mirror is adjustable U吏, and the Shaw needs to be adjusted to meet the driving habits and needs of different drivers, thus effectively improving driving safety. Another object of the creation is to provide an adjustable curvature rear view mirror structure that is widely applied to various vehicles and provides wide-angle rear view power & Another purpose of the creation is to provide an adjustable curvature rear view mirror structure, which can be used for electric, manual, or electric/manual use, indirectly increasing the level of single equipment and stimulating consumption. Purchase desire. In order to achieve the above object, the present invention provides a rear view mirror structure comprising a swingable body and an adjustment mechanism, the mirror body has a reflective surface, and the inner surface is privately pulled with the reflective surface album, and the color adjustment system is disposed on The rear surface of the mirror body can be adjusted π, the inner surface of the body of the brother face, so that the reflecting surface of the mirror body presents a specific curvature. The above objects, technical features, and advantages of the present invention will be more apparent and understood from the following description. [Embodiment] 2 A preferred embodiment of the second embodiment of the present invention, the rear view mirror structure 2 includes a second body 2 - an adjustment mechanism 23, and a housing 25, wherein the housing has a month 51 and an opening 253 ′ to define a accommodating space; after the mirror body 21 is assembled, 6 M 318 542 is substantially disposed in the opening 253 of the housing 25 , and the adjusting mechanism 23 is disposed behind the mirror body 21 and is accommodated Within the space. The mirror body 21 has a reflecting surface, and a tearing surface 213 with the reflection Φ 211. The 231 can be adjusted to move the inner surface 213 so that the reflecting surface 211 of the mirror body 21 can exhibit a specific curvature. The housing 25 can also be selectively attached to other components, such as a rear mirror or other fixed object, by a plurality of lugs 255. Referring to FIG. 3 , in this embodiment, the mirror body 21 has a protruding rod 215 and a second protruding rod 217 on the inner surface 213 , which extend rearward toward the adjusting mechanism 23 ′ direction by the adjusting mechanism. 23 driving the first-protruding rod 215 and the second protruding rod 217 φ to generate a relative motion, thereby adjusting the curvature of the mirror body 2ι. The detailed structure of the first protruding rod 215 and the second protruding rod 217 by the widower mechanism 23 can be further understood by referring to Figs. 4A and 4B. The adjustment cover/the t-th screw is disposed on the first protrusion 215 and the second protrusion 217; the other is screwed on one of the two sides of the first screw 231 and a second step The first screwing device 231 and the second screwing machine are respectively screwed to the second screw; the middle of the first screw phase two screwing portion ^ the second screwing member 237 relative to the second two-dimensional motion S1 and When the second lateral movement S2 is relatively backward, the j-piece 237 is shortened, and at the same time, the first-convex rod is guilty of ιΓ-ΙΪ, which is called 5, but the opposite is when the first horizontal movement is dry. When far away, the curvature of the - decreasing curvature will be obtained: the two first interlocking members 235 and the second screwing member 237 are respectively connected to each other; and the curvature is controlled by the control. The direction of movement can be adjusted to the mirror body 21 7 - M 318 542. It should be noted that the manner of controlling the adjustment mechanism 23 can be Ray Reader: the power device 28 can be a DC power source 281, for example, 27$. It can be understood that the inside of the chamber 283 is provided with a battery cover 285 for protecting the battery. In order to allow the driver to conveniently control the driving device 27, the setting is set at any position of the housing 25, or 2=including: When the person is in the position of the hand, the financial control device 28 controls the driving device 27 to adjust the curvature of the mirror body 21. Another preferred embodiment of the present invention is to provide power to other embodiments, such as the screw 40 of FIG. 5, the first snail _31 and the second snail = pair. side. In more detail, the first screw 231 and the second screw 22 have mutually opposite threads, whereby when the screw 4G is oriented in a specific direction, the thread will drive the first screw 235 and the second screw. The piece 237 produces 5 mesh _, and ρ advances the opposite movement of the first-lateral movement S1 and the second lateral movement S2 described above. - Spiral points (10) She seems to be set. The foot includes a -ththmole m 4 - a screw 43 and a center column 45. The first screw 231 233 is disposed on the first screw 41 and the second screw 43, respectively. 25 between one touch, and (4) ^ and ^^ column 45 and the other opposite side wall of the body 25, likewise, when the first 'M318542' will drive the first screw member 41 and/or the second screw When the 43 is rotated in a specific direction, 235 and the second screw 237 are in relative motion. One = do it, the whole organization 23, not the same as above. For example, the 6a, the ilina 51 and the control 53 are replaced, wherein the rotating shaft 51 is erected on the rotary pump 51 in the vertical setting block; the control block % is substantially offset from the inner surface of the surface body 21. 213. By virtue of

When the upper rotation is performed, a convex arc can be formed against the mirror body 21. g "" month may define a first distance and a distance between the outer edge of the control block 53 and the rotating shaft 51, i-distance means that the outer edge is the shortest distance from the miscellaneous rotating shaft 51, and the second distance '#the rotating axis 51 and When the inner surface 213 i Hi is gradually increased to the second distance, the mirror body 21 can be pushed forward by 51 degrees of curvature. As shown in FIG. 6B, the control block 53 is pressed on the rotating shaft, and it is pushed against the mirror surface. A schematic view of the inner surface 213 of the body 21. The T user can easily control the rotation of the rotating shaft 51, and can be connected to one end of the rotating shaft 51 by a button 295 ' disposed outside the housing 25. When it is rotated, IS can perform the rotation of the control block 53. In addition, the control block 53 is fixed to the center of the inner surface 213 of the mirror body 21, and when the mirror body 21 is changed, the temple must be on both sides. For the appropriate fixed mirror body 21, please refer to the sixth figure again. The mirror structure 20 may further include two columns 6 and 63, which are respectively oppositely and vertically disposed on the inner surface 213 of the mirror body 21 of the receiving space. The two sides are respectively provided with four ears 214 and 216, which are respectively fastened to the columns 61 and 63 to fix the mirror body 213. The other side of the design of the present invention is as shown in Fig. 7, which has a package 71^-connecting member 73 and a knob 297. The pushing block 71 is pushed against the mirror body 21 = face 213 The end of the connecting member 73 is screwed to the pushing block 71, and the other opposite end is extended beyond the back plate 251 of the housing 25 and connected to the knob 297; when the knob 297 is rotated, it is suitable. The connecting member 73 is driven to push the bottom pushing block 71 to perform a front operation. The two sides of the inner surface 213 of the mirror body 21 are also provided with Am respectively and are respectively fastened on the column 6b 6S to fix the mirror body. Therefore, a curvature is formed when the bottom of the mirror body 21 is pushed by the bottom of the blade. The above embodiment is not achieved by adjusting the curvature of the mirror body 21. As shown in Fig. 8, the adjustment method is also It is still possible to use an adjusting member 93, a connecting rod 95, and a vertical threading mechanism 97 including a pushing block 91, 97 which is extended at one end of the bottom plate 25 of the housing, 299. Upright screw upright screw The body of 97 is screwed in the adjusting member 93. The button 299 is connected to each other. Please refer to FIG. 9 for further implementation. #3 % / y Position to the second position to move up; then with the block 91 can be Wei Wei read 21 shredded 2B H pieces set Wei to the first "location", shot lion minus block 91 for 61, 6 with In the rear view mirror structure 2, the two sides of the two columns are still provided with the two sides 'and the inner surface 213 16 ' of the mirror body 21. The buckles 214 and 216 are respectively adapted to the column 61. 63 to fix the sides of the mirror body. The above-mentioned rearview mirror structure can be electrically, manually, or electrically/manually mixed. The curvature of the mirror surface can be adjusted, and the convexity can obtain a wide-angle effect, and the concave shape can obtain a focusing effect. . According to the disclosure of the prior art paragraph, the present invention reveals that the rear view mirror structure can be applied not only to various parent tools but also to interior mirrors, rear view f, or the like when assembled in a car. In the mirror device that needs to monitor the rear condition, the two fruits can be achieved. In this way, it can meet the driving habits of different drivers at the same time, and can also improve the driving of the early and rear side information to ensure driving safety. The above-mentioned embodiments are only used to exemplify the implementation of this creation, and the interpretation of the creation of this creation is not intended to limit the scope of protection of this creation. Anyone familiar with this technology can easily complete the change or equality. Arrangements are within the scope of this creative claim, and the side protection of this creation shall be subject to the details of the materials. 8542 [Simple description of the drawings] Figure 1 is a schematic diagram of the appearance of a conventional rearview mirror; A front exploded view of a preferred embodiment is created; Fig. 3 is a schematic exploded view of Fig. 2; Fig. 4A is a bottom cross-sectional view of Fig. 2, wherein the mirror system exhibits curvature; Figs. 4B and 4A Rather, only the mirror body does not exhibit a curvature; FIG. 5 is a schematic view of another preferred embodiment of the control mechanism of FIG. 2; FIG. 6A is a schematic view showing another preferred embodiment of the creation control mechanism; 6B is a bottom cross-sectional view of FIG. 6A, wherein the mirror system exhibits a curvature, and FIG. 7 is a schematic view showing still another preferred embodiment of the creation control mechanism; FIG. 8 is a further comparison of the creation control mechanism. A side view of the embodiment; and a perspective view of the adjustment mechanism shown in Fig. 8 of the figure. [Main element symbol description] 10 Rear view mirror 13 convex mirror 21 Mirror body 213 Inner surface 215 First bump 217 second protruding rod 230 adjusting device 11 mirror 20 rear view mirror structure 211 reflecting surface 214 buckle ear 216 buckle ear 23 adjustment mechanism 231 first screwing portion ' M318542 233 second screwing portion 235 first screwing member 237 second Screw 25 Housing 251 Back plate 253 Opening 255 Lug 257 Base plate 27 Drive 28 Power unit 281 DC power supply 283 Battery compartment 285 Battery cover 291 First knob 293 Second knob 295 Knob 297 Rotary 299 Knob 31 Switch 40 Screw 41 First screw 43 Second screw 45 Middle column 51 Rotary shaft 53 Control block 61 Column 63 Column 71 Pushing block 73 Connecting piece 91 Pushing * Block" 93 Adjusting piece 95 Connecting rod 97 Vertical screw S1 First lateral movement S2 Second lateral movement 12

Claims (1)

M318542 _ ll3 Patent Application No. 095220442 f;: ^ Replacement of Patent Application Scope (without scribe version, April 1996) f IX. Patent application scope: 1. A rear view mirror structure, including: a flexible bend The mirror body has a reflecting surface and an inner surface opposite to the reflecting surface; and an adjusting mechanism disposed behind one of the mirror bodies to adjustably move the inner surface to make the mirror body The reflecting surface presents a specific curvature. 2. The rear view mirror structure according to claim 1, further comprising: a body having a back plate and an opening, the casing defining an accommodation space; the capacity body: the body body is disposed at the opening of the bribe The side machine lion is disposed in the mirror structure 'where the mirror body further comprises a first protruding rod and a second Ϊ1 and Ϊ two-sided area' and extends rearward, the adjusting surface structure 4. The younger brother has a convex cup relative movement, To adjust the curvature of the mirror body. For example, please include: The bulge and the second bulge are correspondingly 5 pieces of 'Hang on the two sides of the accommodating space, and the first: the adjusting device' has a relative formation in the human part. - the first screw portion and the second screw are screwed to the first screw, and the second screw can be made to 'make the first screw member opposite to the screw portion. And a second screw member is disposed on the first protruding rod and the second protruding rod; the first screwing member and the second protruding rod; the first screwing member and the second screwing member When the grading rate is increasing relative to the time, the curvature of the mirror body is gradually reduced. When the plate is moved away from the movement system, the curvature is at least 13 of the first lateral movement. 5. M318542 No. 095220442 Patent Application Specification Replacement Page (no underline version, April 1996) 匕....................................... 6 6. As described in claim 5 Mirror structure, the dragon is connected to the drive. ^ The adjustment mechanism further comprises a power device, and the rear view mirror structure as claimed in claim 6 is used to replicate the operation of the power device. The 琢 adjustment mechanism further includes a switch for controlling the rear view mirror structure as claimed in claim 6, wherein the power device comprises a DC power source. 9. The device further comprises a pair of H body sidewalls, and The fish is the second; the first screwing portion is respectively provided with at least one of the Yi button and the second knob - the turn f and the ^ ^ turn; when the first turn and the second At least - -, - can perform the first lateral motion /, to change the curvature of the mirror body. 10. The rear view mirror structure as described in claim 4, the joint portion and the second screw Each of the parts is provided with a screw, the first thread; when the mast is turned toward a specific side A 浐, on one of the opposite sides' and has a mutually opposite snail The first lateral movement has no second lateral movement 11 . The second and the following: the adjusting device comprises a - first screw, a - t S dry upper", the first tired cup spans the middle column and the housing - Between the side walls, the second screw is between the center pillar and the other opposite side wall of the casing. The rear view mirror structure of claim 2, wherein the adjustment mechanism comprises: a rotating shaft disposed vertically in the accommodating space; the soil control block is eccentrically disposed on the rotating shaft, the control block An outer edge substantially abuts against an inner surface of the ▲ mirror body, defines a first distance and a second distance from the rotating shaft; and a distance between the rotating shaft and the inner surface along the first distance Increasingly to this second distance, M318542 No. 095220442 Patent Application I Specification Replacement Page (without scribe version, April 1996) :: The curvature of the mirror body can be gradually increased. 13. The structure of the rear view mirror as described in item 12, and the other white person - connected to the end of the rotating shaft, she turns 4: the iiLi: the table 'is oppositely and vertically respectively set to be respectively deductible The column is fixed to the mirror surface to have a bucket ear. The buckle ear is suitable for use. If the iim mirror structure is included, the adjustment mechanism includes a push-pull block to push the inner surface of the mirror body. ; a knob; and, 敝 phase. The other opposite end is extended to protrude the rotation of the housing, suitable to drive the _, 16. = the 15 after the mirror structure, and the other two columns, respectively And in the vertical space, the two sides of the inner surface of the mirror body are respectively provided with a ^^ knife to be fastened to the column to fix the mirror body. The rear view mirror structure, wherein the adjustment mechanism comprises: a pushing block that is pushed against the inner surface of the mirror body; an adjusting member vertically disposed in the receiving space It is suitable to perform a lower movement from the second position; the main link is the main link, the end is pivotally connected to the adjusting member, and the other opposite end is connected to the pushing block; the block is moved to the second The plane is adapted to the top mirror structure as claimed in claim 17, further comprising: an upright screw, the screw being disposed in the adjustment member, one end of the upright screw protruding from the 15 M318542 η Patent Application No. 095220442 t ^ - Specification Replacement Page (without scribe version, April 1996) One of the outer casings of the casing; two knobs, which are arranged on the end of the vertical screw; when the knob rotates When appropriate, the adjustment member can be driven to perform the up and down movement. The rear view mirror structure according to claim 17, further comprising the accommodating space towel, wherein the inner surfaces of the mirror body are oppositely and vertically disposed on the column to be fixed to the mirror body. Knife|0 has two ^ ears, the ear is suitable for 20 · as requested! The rear view mirror structure, the rear view 〇 21 · The rear view mirror structure as claimed in the item , is a side rear view mirror structure.