CN109143611B

CN109143611B - Glasses with semi-gradual change lens

Info

Publication number: CN109143611B
Application number: CN201811115147.XA
Authority: CN
Inventors: 彭峰
Original assignee: Wenzhou Jinda Glasses Co Ltd
Current assignee: Wenzhou JINDA glasses Co., Ltd.
Priority date: 2018-09-25
Filing date: 2018-09-25
Publication date: 2020-01-07
Anticipated expiration: 2038-09-25
Also published as: CN109143611A

Abstract

The invention discloses a pair of glasses with semi-gradual change lenses, the structure of which comprises: the glasses comprise a movable support, an intelligent regulation and control nose support device, a glasses frame, a joint rod, a gradual change lens, a movable frame and a device shell, wherein the movable support is positioned on the rear side surface of the device shell and is movably matched and connected with the device shell, the movable frame is arranged on the front end surface of the device shell, the movable support and the device shell are matched and hinged together through copper lock angle iron, the gradual change lens is embedded into the inner side surface of the movable frame and is fixedly connected with the movable frame, the intelligent regulation and control nose support device is positioned on the front end surface of the device shell, the intelligent regulation and control nose support device and the device shell are connected into an integrated structure through a welding mode, meanwhile, the position of the nose pad can be adjusted, the spectacle frame can not slide down due to the use of different users, or the glasses frame which appears after being used for a long time becomes bigger or smaller, so that the glasses can be effectively adjusted, and the purpose of wider application range is achieved.

Description

Glasses with semi-gradual change lens

Technical Field

The invention relates to the field of glasses, in particular to glasses with semi-gradual change lenses.

Background

Spectacles are lens pieces embedded in a frame, worn in front of the eyes to improve vision, protect the eyes or for decorative purposes, which can correct various vision problems including myopia, hyperopia, astigmatism, presbyopia or strabismus and the like, and the lens is a gradual change mirror [ GND filter is one of the most important filters for the creation of photographic art, it can be divided into gradual change color mirror and gradual change diffusion mirror, from the gradual change form can be divided into soft gradual change and hard gradual change, "soft" is that the transition range is larger, otherwise, namely, the transition range is small, the glasses are selected according to creation characteristics, but the prior glasses are basically worn by adopting a fixed type glasses frame, meanwhile, the position of the nose pad can not be adjusted, the spectacle frame can slide downwards due to the use of different users, or the glasses frame which is used for a long time becomes bigger or smaller and cannot be effectively adjusted, so that the application range of the glasses is shortened.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: spectacles with semi-progressive lenses, the structure of which comprises: the intelligent adjustable nose support device is positioned on the front end face of the device shell, the intelligent adjustable nose support device and the front end face of the device shell are connected into an integrated structure in a welding mode, the mirror frame is positioned on the lower side surface of the movable frame and is movably connected with the movable frame, and the mirror frame is positioned on the lower side surface of the movable frame and forms an integrated structure with the movable frame in a matching connection mode;

the intelligent regulation control nose support device is provided with a power output device, a power regulation device, a matching connection device, a movable limiting device, a support jacking device, a manual regulation device and a matching clamping device;

the power output device is arranged in the equipment and is connected with the inside of the equipment in a welding mode, the power adjusting device is positioned on the left end face of the power output device, the power adjusting device and the left end face of the power output device are connected into an integrated structure in a meshing mode, the matching connecting device is movably connected into an integrated structure through the belt body and the power adjusting device above the matching connecting device, the movable limiting device is arranged on the front surface of the matching connecting device, the front surface of the matching connecting device is fixedly connected with the front surface of the matching connecting device, the rear side surface of the support ejecting device is movably connected with the rear side surface of the support ejecting device, the matching clamping device is perpendicular to the upper side surface of the support ejecting device, the upper side surface of the support ejecting device is formed into an integrated.

As the further optimization of this technical scheme, power take off is equipped with driving shaft, fixed axle, connecting wire, electromagnetism frame, rotation axis, casing frame, adjustable shelf, the rotation axis is located both cooperations of the inboard surface of electromagnetism frame and links together, electromagnetism frame installs both fixed connection on the inboard surface of casing frame through the welded mode together, the fixed axle is vertical extension of rotation axis both welds into integral structure simultaneously, both swing joint on the outside surface that the adjustable shelf is wrapping up the fixed axle are in the same place, the inboard surface of driving shaft embedding fixed axle and with fixed axle swing joint together, connecting wire inlays the inboard surface of electromagnetism frame and is connected with electromagnetism frame electricity simultaneously, the driving shaft links together with the power adjusting device meshing of below.

As a further optimization of the technical scheme, the power adjusting device is provided with a mounting column, a wheel frame, a gear shaft frame, an output shaft, a support, a first movable block, an adjusting rod, an electromagnetic rod and a joint wheel, wherein the adjusting rod wraps the outer side surface of the mounting column and is matched and connected into an integrated structure, the joint wheel is vertically and fixedly connected with the rear side surface of the mounting column, the support is mounted on the front surface of the mounting column and is fixedly connected with the front surface of the mounting column in a hinging manner, the first movable block is arranged on the front surface of the support and is fixedly connected with the support, the first movable block is embedded into the inner side surface of the wheel frame and is movably matched and connected with the inner side surface of the wheel frame, the output shaft is perpendicular to the front surface of the wheel frame and is fixedly connected into an integrated structure, the gear shaft wraps the outer side surface of the, the connecting wheel is meshed with the upper driving shaft.

As a further optimization of the technical scheme, the matching connection device comprises a belt, a fixing frame, a sliding groove wheel, a mounting plate, a rack frame, a rack and an output rod, the belt wraps the outer surface of the front end of the sliding groove wheel and is in transmission fit with the outer surface of the front end of the sliding groove wheel, the fixing frame is embedded into the rear end face of the sliding groove wheel and is in plug-in fit with the rear end face of the sliding groove wheel, the rack wraps the outer surface of the fixing frame, the rack is arranged on the lower side surface of the rack frame, the rack is meshed with the lower side surface of the rack frame, the rack is arranged on the front surface of the mounting plate and is movably matched and connected together, the output rod is perpendicular.

As a further optimization of the technical scheme, the movable limiting device is provided with a spring frame, a support seat, a matching rod, a sliding block, a sliding column, a rotating seat and a nose support, the sliding block wraps the outer side surface of the sliding column and is connected with the sliding column in a matching mode, the support seat is installed on the upper side surface of the matching rod in a welding mode and is welded into an integrated structure, the matching rod is arranged on the upper side surface and the lower side surface of the sliding block and is welded into an integrated structure, the spring frame is arranged on the upper side surface of the support seat and is connected into an integrated structure in a matching mode, the rotating seat is vertically welded with the center of the rear side surface of the nose support into an integrated structure, the matching rod is mechanically connected with the nose support, and the sliding block is fixedly connected with the output.

As the further optimization of the technical scheme, the support jacking device is provided with a matching rod, a rotating wheel, a matching wheel, a movable frame, a moving rod and a limiting block, the inner side surface of the moving rod embedded into the limiting block is connected with the limiting block in a movable fit mode, the movable frame is installed on the front surface of the moving rod in a welding mode, the inner side surface of the moving rod embedded into the movable frame is mechanically connected with the inner side surface of the moving rod, the rotating wheel is perpendicular to the upper side surface of the matching wheel and is connected with the upper side surface of the moving rod in a meshed mode, and the matching rod is arranged on the front surface of the moving rod and is fixedly connected into an.

As the further optimization of this technical scheme, manual adjusting device is equipped with empty sheave, spout frame, regulation pole, first cooperation frame, handle frame, universal ware, pressure pole, the inboard surface of universal ware embedding spout frame is connected with spout frame clearance fit simultaneously, the upside surface that the universal ware was located to the regulation pole is in the same place with universal ware fixed connection simultaneously, both cooperations of the upside surface that the spout frame is located the regulation pole are in the same place, the handle frame link up the left surface of first cooperation frame simultaneously with first cooperation frame mechanical connection together, the pressure pole is located the downside surface of regulation pole and with adjust the pole hinge and link together, empty sheave agrees with both parallels with each other with the pressure pole in the place ahead, empty sheave and the cooperation clamping device swing joint of top.

As a further optimization of the technical scheme, the matching and clamping device is provided with a driving wheel, a second matching frame, a sliding seat, a second movable block, a limiting column, a hook frame and a ruler frame, wherein the hook frame is embedded into the inner side surface of the ruler frame and is simultaneously clamped and connected with the ruler frame, the second matching frame is positioned on the front surface of the driving wheel, the second movable block is arranged on the lower side surface of the second matching frame, the second movable block is hinged and connected with the lower side surface of the second matching frame, the inner side surface of the hook frame embedded into the sliding seat is connected with the inner side surface of the ruler frame in a clearance fit manner, the limiting column is perpendicular to the upper side surface of the hook frame, the limiting column is fixedly connected with the upper side surface of the hook frame to form an integrated structure.

Advantageous effects

When the glasses with the semi-gradual-change lenses are used, after the equipment is powered on in advance, the internal electromagnetic frame 214 is powered on and then rotates to drive the internal rotating shaft 215 to rotate through induction current generated by the internal magnet, meanwhile, the rotating shaft 215 can transmit power and move upwards through the fixed shaft 212 connected with the rotating shaft in a welding way, the rotating power is used as running power of the equipment through the rotation of the driving shaft 211, then the mounting column 221 rotates under the meshing cooperation of the joint wheel 229, but the front wheel frame 222 cannot rotate along with the rotation of the mounting column 221, the adjusting rod 227 needs to be repelled to move the output adjusting rod 227 after the electromagnetic rod 228 connected with the electromagnetic frame 214 is powered on, so that the adjusting rod 227 can press the support 225 to enable the first movable block 226 to be matched with the wheel frame 222, and then the wheel frame 222 is driven to rotate, thereby certain adjustment of the power can be achieved, then the output shaft 224 can make the front chute rod wheel 233 push the front rack frame 235 through the sliding push of the fixed frame 232 in the chute while clamping the lower rack 236 to push the front output rod 237, and can press the slide block 244 to displace on the outer surface of the sliding column 245 through the output rod 237 while the bracket base 242 is pushed to push down the front matching rod 243, while the matching rod 243 pushes the nose support 247 forwards, while the rotating base 246 installed below the nose support 247 can make the nose support 247 have a certain angle adjusting function, after adjusting the angle of the nose support 247, the right handle frame 265 can be continuously pressed left and right on the adjusting rod 263 to adjust the downward pressing trend of the lower pressing rod 268, thereby adjusting whether to link the bracket pushing device 25 and the matching clamping device 27, or adjusting separately, while adjusting, the driving wheel 271 drives the second matching frame 272 to clamp the clamping frame 276 on the ruler frame 277 to lower and jack the ruler frame 277 when the up-and-down adjustment is carried out by the transmission of the power through the idle grooved wheel 261, meanwhile, the clamping mode is more accurate, and then the matching wheel 253 and the rotating clamping displacement rod 255 of the movable frame 254 are transversely adjusted, so that the nose pad 247 is at a proper position.

Based on the prior art, the glasses are basically worn by adopting the fixed type glasses frame, and meanwhile, the position of the nose pad can be adjusted, so that the glasses frame cannot slide down due to the use of different users, or the glasses frame can be effectively adjusted by being enlarged or reduced after being used for a long time, and the application range of the glasses is wider.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of glasses with semi-progressive lenses according to the present invention.

Fig. 2 is a schematic mechanism diagram of the glasses with semi-progressive lenses of the invention.

Fig. 3 is a detailed view of the mechanism of the spectacles with semi-progressive lenses according to the present invention.

Fig. 4 is a first schematic view of the glasses with semi-progressive lenses of the present invention.

Fig. 5 is a second schematic view of the glasses with semi-progressive lenses of the invention.

In the figure: a movable bracket-1, an intelligent adjusting control nose support device-2, a mirror frame-3, a joint rod-4, a gradual change lens-5, a movable frame-6, a device shell-7, a power output device-21, a power adjusting device-22, a matching connecting device-23, a movable limiting device-24, a bracket jacking device-25, a manual adjusting device-26, a matching clamping device-27, a driving shaft-211, a fixed shaft-212, a connecting wire-213, an electromagnetic frame-214, a rotating shaft-215, a shell frame-216, a movable frame-217, a mounting column-221, a wheel frame-222, a gear shaft frame-223, an output shaft-224, a bracket-225, a first movable block-226, an adjusting rod-227, a connecting rod-24, a connecting rod-6, a connecting, An electromagnetic rod-228, a joint wheel-229, a belt-231, a fixed frame-232, a chute wheel-233, a mounting plate-234, a fluted disc frame-235, a rack-236, an output rod-237, a spring frame-241, a bracket seat-242, a matching rod-243, a sliding block-244, a sliding column-245, a rotating seat-246, a nose support-247, a matching rod-251, a rotating wheel-252, a matching wheel-253, a movable frame-254, a movable rod-255, a limited block-256, a hollow chute wheel-261, a chute frame-262, an adjusting rod-263, a first matching frame-264, a handle frame-265, a universal joint-267, a pressing rod-268, a driving wheel-271, a second matching frame-272, a sliding seat-273, a second movable block-274, a first movable block-274, a second matching frame-a handle frame-265, a limit post-275, a hook frame-276 and a ruler frame-277.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-5, the present invention provides glasses with semi-progressive lenses, which comprise: a movable support 1, an intelligent adjusting and controlling nose support device 2, a mirror frame 3, a joint rod 4, a gradual change lens 5, a movable support 6 and a device shell 7, the movable bracket 1 is positioned on the back side surface of the device shell 7 and is movably matched and connected with the device shell 7, the movable frame 6 is arranged on the front end surface of the device shell 7 and is connected with the copper lock angle iron through a matching hinge, the progressive lens 5 is embedded into the inner side surface of the movable frame 6 and is fixedly connected with the movable frame 6, the intelligent adjustable control nose pad device 2 is positioned on the front end surface of the device shell 7, and the two are connected into an integrated structure in a welding mode, the mirror frame 3 is positioned on the lower side surface of the movable frame 6 and is movably matched and connected with the movable frame 6, the mirror frame 3 is arranged on the lower side surface of the movable frame 6 and is in fit connection with the movable frame 6 to form an integrated structure;

the intelligent regulation control nose pad device 2 is provided with a power output device 21, a power regulation device 22, a matching connection device 23, a movable limiting device 24, a support jacking device 25, a manual regulation device 26 and a matching clamping device 27;

the power output device 21 is arranged in the equipment and connected with the inside of the equipment in a welding mode, the power adjusting device 22 is arranged on the left end face of the power output device 21, the power adjusting device and the power adjusting device 22 are connected into an integrated structure in a meshing mode, the matching connecting device 23 is movably connected with the power adjusting device 22 above the matching connecting device through a belt body to form an integrated structure, the movable limiting device 24 is arranged on the front surface of the matching connecting device 23, the movable limiting device and the support jacking device 25 are fixedly connected together, the support jacking device 25 is perpendicular to the rear side surface of the movable limiting device 24, the matching clamping device 27 is perpendicular to the upper side surface of the support jacking device 25, the manual adjusting device 26 is arranged on the left side of the matching clamping device 27 in a matching mode and movably connected with the manual adjusting device 26, the power output device 21 is provided with a driving shaft 211, The power adjusting device comprises a fixed shaft 212, a connecting wire 213, an electromagnetic frame 214, a rotating shaft 215, a shell frame 216 and a movable frame 217, wherein the rotating shaft 215 is positioned on the inner side surface of the electromagnetic frame 214 and is connected together in a matching mode, the electromagnetic frame 214 is fixedly connected with the inner side surface of the shell frame 216 in a welding mode, the fixed shaft 212 extends vertically and is welded into an integrated structure, the movable frame 217 wraps the outer side surface of the fixed shaft 212 and is movably connected together, a driving shaft 211 is embedded into the inner side surface of the fixed shaft 212 and is movably connected with the fixed shaft 212, the connecting wire 213 is embedded into the inner side surface of the electromagnetic frame 214 and is electrically connected with the electromagnetic frame 214, the driving shaft 211 is meshed with a power adjusting device 22 below and is connected together, and the power adjusting device 22 is provided with a mounting column 221, a wheel frame 222, a gear shaft 223, the output shaft 224, the bracket 225, the first movable block 226, the adjusting rod 227, the electromagnetic rod 228, and the engaging wheel 229, the adjusting rod 227 wraps the outer side surface of the mounting column 221 and is matched and connected into an integrated structure, the engaging wheel 229 is vertically and fixedly connected with both the rear side surface of the mounting column 221, the bracket 225 is fixedly connected with both the front surface of the mounting column 221 in a hinged manner, the first movable block 226 is arranged on the front surface of the bracket 225 and is fixedly connected with the bracket 225, the first movable block 226 is embedded into the inner side surface of the wheel frame 222 and is movably matched and connected with both, the output shaft 224 is vertically and fixedly connected with both the front surface of the wheel frame 222 into an integrated structure, the gear shaft frame 223 wraps the outer side surface of the output shaft 224 and is in clearance fit and connected with the output shaft 224 into an integrated structure, the engaging wheel 229 is meshed and connected with the upper driving shaft 211, the matching connection device 23 comprises a belt 231, a fixed frame 232, a sliding chute wheel 233, a mounting plate 234, a fluted disc frame 235, a rack 236 and an output rod 237, the belt 231 wraps the outer surface of the front end of the sliding chute 233 and is in transmission matching with the outer surface of the front end of the sliding chute 233, the fixed frame 232 is embedded into the rear end surface of the sliding chute 233 and is in insertion matching with the outer surface of the fixed frame 232, the rack 235 wraps the outer surface of the fixed frame 232, the rack 236 is arranged on the lower side surface of the rack 235 and is in meshing connection with the lower side surface of the rack 235, the rack 236 is arranged on the front surface of the mounting plate 234 and is in movable matching connection with the front surface of the rack 236, the output rod 237 is welded into an integrated structure perpendicular to the front surface of the rack 236, the output rod 237 is in matching connection with the movable limiting device 24 above, the movable limiting device, the outer side surface of the sliding block 244 wrapping the sliding column 245 is matched and connected with the sliding column 245 at the same time, the bracket base 242 is arranged on the upper side surface of the matching rod 243 through a welding mode and is welded into an integrated structure, the matching rod 243 is arranged on the upper side surface and the lower side surface of the sliding block 244 and is welded into an integrated structure, the spring bracket 241 is arranged on the upper side surface of the bracket base 242 and is jointed into an integrated structure through a matching mode, the rotating base 246 is vertically welded with the center of the rear side surface of the nose support 247 and is welded into an integrated structure, the matching rod 243 is mechanically connected with the nose support 247, the sliding block 244 is fixedly connected with the output rod 237, the bracket jacking device 25 is provided with a matching rod 251, a rotating wheel 252, a matching wheel 253, a movable frame 254, a movable rod 255 and a limiting block 256, the movable rod 255 is embedded into the inner side surface of the limiting block, the movable frame 254 is installed on the front surface of the movable rod 255 by welding to form an integrated structure, the fitting wheel 253 is embedded into the inner side surface of the movable frame 254 and mechanically connected together, the rotating wheel 252 is engaged with and connected with the upper side surface of the fitting wheel 253 perpendicularly, the fitting rod 251 is installed on the front surface of the movable rod 255 and fixedly connected to form an integrated structure, the manual adjusting device 26 is provided with an empty groove wheel 261, a chute frame 262, an adjusting rod 263, a first fitting frame 264, a handle frame 265, a universal coupler 267 and a pressing rod 268, the universal coupler 267 is embedded into the inner side surface of the chute frame 262 and movably connected with the chute frame 262, the adjusting rod 263 is installed on the upper side surface of the universal coupler 267 and fixedly connected with the universal coupler 267, the chute frame 262 is located on the upper side surface of the adjusting rod 263 and cooperatively connected together, the handle frame 265 penetrates through the left side surface of the first fitting frame 264 and mechanically connected with the first fitting frame 264, the pressing rod 268 is positioned on the lower side surface of the adjusting rod 263 and is hinged with the adjusting rod 263, the hollow wheel 261 is in mutual parallel fit connection with the pressing rod 268 in front, the hollow wheel 261 is movably engaged with the matching and clamping device 27 above, the matching and clamping device 27 is provided with a driving wheel 271, a second matching frame 272, a sliding seat 273, a second movable block 274, a limiting column 275, a clamping hook frame 276 and a ruler frame 277, the clamping hook frame 276 is embedded in the inner side surface of the ruler frame 277 and is simultaneously locked and connected with the ruler frame 277, the second matching frame 272 is positioned on the front surface of the driving wheel 271 and is meshed and connected together, the second movable block 274 is arranged on the lower side surface of the second matching frame 272 and is hinged together, the clamping hook frame 276 is embedded in the inner side surface of the sliding seat 273 and is connected together by clearance fit, the limiting column 275 is perpendicular to the upper side surface of the clamping hook frame and is fixedly connected into an integrated structure, the driving wheel 271 is meshed with the empty grooved wheel 261.

The principle of the invention is as follows: when the device is used, after the device is powered on in advance, the internal electromagnetic frame 214 is powered on and then rotates to drive the internal rotating shaft 215 to rotate through induction current generated by the internal magnet, meanwhile, the rotating shaft 215 can transmit power and displace upwards through the fixed shaft 212 connected with the rotating shaft in a welding mode, the rotating power is used as running power of the device through the rotation of the driving shaft 211, then the mounting column 221 rotates under the meshing matching of the joint wheel 229, but the front wheel frame 222 cannot rotate along with the rotation of the mounting column 221, the electromagnetic rod 228 connected with the electromagnetic frame 214 is powered on and repels the pushing output adjusting rod 227, so that the adjusting rod 227 can press the support 225 to enable the first movable block 226 to be matched with the wheel frame 222, the wheel frame 222 is driven to rotate, certain adjustment of the power can be achieved, and then the output shaft 224 can enable the front chute rod wheel 233 to pass through the fixed frame 232 in the chute when the front chute rod wheel 233 rotates The inner part slides to push the front rack frame 235, and simultaneously clamps the lower rack 236 to push the front output rod 237, the slide block 244 can be pressed by the output rod 237 to displace on the outer side surface of the sliding column 245, the bracket base 242 is pushed to press the front matching rod 243, the matching rod 243 presses the nose pad 247 forwards, the rotating base 246 arranged below the nose pad 247 can enable the nose pad 247 to have a certain angle adjusting function, after the angle of the nose pad 247 is adjusted, the right handle frame 265 can be continuously pressed on the adjusting rod 263 from left to right to adjust the pressing trend of the lower pressing rod 268, so that whether the bracket pressing device 25 and the matching clamping device 27 are linked or separated to adjust, simultaneously, power transmission is carried out through the hollow grooved wheel 261 during adjustment, when the upper and lower adjustment is carried out, the driving wheel 271 clamps the second matching frame 272 to enable the clamping frame 276 to clamp on the ruler frame 277 to move downwards and push the ruler frame 277, while more precisely by such snap-in, the lateral adjustment is then made by the engaging wheels 253 engaging the displacement rods 255 laterally by rotation of the movable frame 254, thereby bringing the nose pads 247 into proper position.

The power output device 21 according to the present invention refers to a mechanical device capable of providing kinetic energy for the operation of the equipment.

The invention solves the problem that the glasses are basically worn by a fixed type frame, and the position of a nose support cannot be adjusted, so that the frame can slide downwards due to the use of different users, or the frame can be enlarged or reduced after long-term use and cannot be effectively adjusted, so that the use range of the glasses is shortened.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. Spectacles with semi-progressive lenses, the structure of which comprises: the utility model provides a glasses with gradually-changed lenses, including movable support (1), intelligent regulation control nose hold in the palm device (2), mirror frame (3), joint pole (4), gradual change lens (5), adjustable shelf (6), device casing (7), movable support (1) are located the rear side surface of device casing (7) and link together with device casing (7) clearance fit simultaneously, two copper lock angle iron cooperation hinged joint of terminal surface are in the same place before device casing (7) are located in adjustable shelf (6), the inboard surface of gradual change lens (5) embedding adjustable shelf (6) is in the same place with adjustable shelf (6) fixed connection simultaneously, intelligent regulation control nose holds in the palm device (2) and both connect into integrated structure, its characterized in that through the welded mode in succession simultaneously in the preceding terminal surface that is located device casing (7):

the mirror frame (3) is positioned on the lower side surface of the movable frame (6) and is movably matched and connected with the movable frame (6), and the mirror frame (3) is arranged on the lower side surface of the movable frame (6) and is combined with the movable frame (6) to form an integrated structure in a fit connection mode;

the intelligent adjustment control nose support device (2) is provided with a power output device (21), a power adjusting device (22), a matching connecting device (23), a movable limiting device (24), a support jacking device (25), a manual adjusting device (26) and a matching clamping device (27);

the power output device (21) is arranged in the equipment and is connected with the inside of the equipment in a welding way, the power adjusting device (22) is positioned on the left end surface of the power output device (21) and is connected into an integrated structure in a meshing way, the matching connection device (23) is movably connected with the power adjusting device (22) above through a belt body to form an integrated structure, the movable limiting device (24) is arranged on the front surface of the matching connecting device (23) and is fixedly connected with the front surface of the matching connecting device, the bracket jacking device (25) is vertical to the rear side surface of the movable limiting device (24) and is movably connected together, the matching clamping device (27) is vertical to the upper side surface of the bracket jacking device (25) and forms an integrated structure in a welding mode, the manual adjusting device (26) is arranged on the left side of the matching clamping device (27) in a matching mode and is movably connected with the left side of the matching clamping device;

the power output device (21) is provided with a driving shaft (211), a fixed shaft (212), a connecting wire (213), an electromagnetic frame (214), a rotating shaft (215), a shell frame (216) and a movable frame (217), wherein the rotating shaft (215) is positioned on the inner side surface of the electromagnetic frame (214) and is matched and connected together, the electromagnetic frame (214) is fixedly connected with the inner side surface of the shell frame (216) in a welding mode, the fixed shaft (212) vertically extends and is welded into an integrated structure at the same time of the vertical extension of the rotating shaft (215), the movable frame (217) wraps the outer side surface of the fixed shaft (212) and is movably connected together, the driving shaft (211) is embedded into the inner side surface of the fixed shaft (212) and is movably connected with the fixed shaft (212), the connecting wire (213) is embedded into the inner side surface of the electromagnetic frame (214) and is electrically connected with the electromagnetic frame (214) at the, the driving shaft (211) is meshed and connected with a power adjusting device (22) below;

the power adjusting device (22) is provided with a mounting column (221), a wheel frame (222), a gear shaft frame (223), an output shaft (224), a support (225), a first movable block (226), an adjusting rod (227), an electromagnetic rod (228) and a joint wheel (229), the outer side surface of the mounting column (221) is wrapped by the adjusting rod (227) in a matching and connecting mode to form an integrated structure, the joint wheel (229) is vertically and fixedly connected with the rear side surface of the mounting column (221), the support (225) is arranged on the front surface of the mounting column (221) in a hinging mode and fixedly connected with the support (225), the first movable block (226) is arranged on the front surface of the support (225) and fixedly connected with the support (225), the first movable block (226) is embedded into the inner side surface of the wheel frame (222) and is movably matched and connected together, the output shaft (224) is vertically and fixedly connected with the front surface of the wheel frame (222) to form an integrated structure, the gear shaft bracket (223) wraps the outer side surface of the output shaft (224) and is in clearance fit connection with the output shaft (224) to form an integrated structure, and the joint wheel (229) is meshed with the driving shaft (211) above the joint wheel;

the matching connection device (23) comprises a belt (231), a fixed frame (232), a chute wheel (233), a mounting plate (234), a fluted disc frame (235), a rack (236) and an output rod (237), the belt (231) wraps the outer surface of the front end of the sliding sheave (233) and is in transmission fit with the sliding sheave, the fixed frame (232) is embedded into the rear end surface of the sliding sheave (233) and is in inserted fit with the sliding sheave, the rack plate frame (235) wraps the outer surface of the fixing frame (232), the rack (236) is arranged on the lower side surface of the rack plate frame (235) and is meshed and connected together, the rack (236) is arranged on the front surface of the mounting plate (234) and is connected together in a movable fit way, the output rod (237) is welded into an integrated structure perpendicular to the front surface of the rack (236), the output rod (237) is matched and connected with the movable limiting device (24) above.

2. Spectacles with semi-progressive lenses according to claim 1, characterised in that: the movable limiting device (24) is provided with a spring frame (241), a support seat (242), a matching rod (243), a sliding block (244), a sliding column (245), a rotating seat (246) and a nose support (247), the sliding block (244) wraps the outer side surface of the sliding column (245) and is matched and connected with the sliding column (245), the support seat (242) is arranged on the upper side surface of the matching rod (243) in a welding mode and is welded into an integrated structure, the matching rod (243) is arranged on the upper side surface and the lower side surface of the sliding block (244) and is welded into an integrated structure, the spring frame (241) is arranged on the upper side surface of the support seat (242) and is welded into an integrated structure in a fitting mode, the rotating seat (246) is vertically welded with the center of the rear side surface of the nose support (247) into an integrated structure, and the matching rod (243) is mechanically connected with the nose support (247), the sliding block (244) is fixedly connected with the output rod (237).

3. Spectacles with semi-progressive lenses according to claim 1, characterised in that: the support jacking device (25) is provided with a matching rod (251), a rotating wheel (252), a matching wheel (253), a movable frame (254), a moving rod (255) and a limiting block (256), the inner side surface of the moving rod (255) embedded into the limiting block (256) is movably matched and connected with the limiting block (256) at the same time, the movable frame (254) is installed on the front surface of the moving rod (255) in a welding mode, the inner side surface of the matching wheel (253) embedded into the movable frame (254) is mechanically connected together, the upper side surface of the rotating wheel (252) perpendicular to the matching wheel (253) is meshed and connected with the upper side surface of the matching wheel, and the matching rod (251) is arranged on the front surface of the moving rod (255) and fixedly connected into an integrated structure.

4. Spectacles with semi-progressive lenses according to claim 1, characterised in that: the manual adjusting device (26) is provided with a hollow grooved wheel (261), a chute frame (262), an adjusting rod (263), a first matching frame (264), a handle frame (265), a universal device (267) and a pressure rod (268), the universal device (267) is embedded into the inner side surface of the chute frame (262) and is movably matched and connected with the chute frame (262), the adjusting rod (263) is arranged on the upper side surface of the universal device (267) and is fixedly connected with the universal device (267), the chute frame (262) is positioned on the upper side surface of the adjusting rod (263) and is matched and connected together, the handle frame (265) penetrates through the left side surface of the first matching frame (264) and is mechanically connected with the first matching frame (264), the pressure rod (268) is positioned on the lower side surface of the adjusting rod (263) and is hinged and connected with the adjusting rod (263), the hollow grooved wheel (261) and the pressure rod (268) in front are parallel and are matched and connected together, the hollow grooved wheel (261) is movably engaged with a matching clamping device (27) above.

5. Spectacles with semi-progressive lenses according to claim 4, characterised in that: the matching clamping device (27) is provided with a driving wheel (271), a second matching frame (272), a sliding seat (273), a second movable block (274), a limiting column (275), a clamping hook frame (276) and a ruler frame (277), the hook frame (276) is embedded into the inner side surface of the ruler frame (277) and is connected with the ruler frame (277) in a clamping way, the second matching frame (272) is positioned on the front surface of the driving wheel (271) and is meshed and connected together, the second movable block (274) is arranged on the lower side surface of the second matching frame (272) and is hinged together, the hook frame (276) is embedded into the inner side surface of the sliding seat (273) and connected together by clearance fit, the limiting column (275) is perpendicular to the upper side surface of the clamping hook frame (276) and fixedly connected into an integrated structure, and the driving wheel (271) is meshed with the hollow grooved wheel (261).