CN211414659U

CN211414659U - Optical lens cold working burnishing device

Info

Publication number: CN211414659U
Application number: CN201922432146.4U
Authority: CN
Inventors: 李晓奇; 张海馨; 刘喆; 李玉瑶
Original assignee: Changchun University of Science and Technology College of Optical and Electronical Information
Current assignee: Changchun University of Science and Technology College of Optical and Electronical Information
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-09-04
Anticipated expiration: 2029-12-30

Abstract

The utility model discloses an optical lens cold processing polishing device, which comprises a bottom plate fixed on the ground through an expansion screw, wherein an X-axis moving mechanism is arranged on the left side of the upper end surface of the bottom plate, a platform rotating mechanism is fixed above the X-axis moving mechanism through screws, a workpiece fixing mechanism is arranged above the platform rotating mechanism, a cooling mechanism is arranged on the front side of the workpiece fixing mechanism, a Y-axis moving mechanism is arranged on the right side of the upper end surface of the bottom plate, an angle adjusting mechanism is fixed on the upper end surface of the Y-axis moving mechanism through screws, a polishing mechanism is arranged on the angle adjusting mechanism, the X-axis moving mechanism comprises an X-axis support seat fixed with the bottom plate through screws, thereby preventing cooling liquid from polluting equipment, prolonging the service life of the equipment, effectively reducing the heat in the polishing process, realizing cold processing polishing and being convenient and rapid, degree of automation is high, realizes all-round polishing of optical lens, and the angle of polishing is adjustable, and it is effectual to polish.

Description

Optical lens cold working burnishing device

Technical Field

The utility model relates to an optical lens processing technology field specifically is an optical lens cold processing burnishing device.

Background

The lens is an optical element which is made of transparent substances and has a part of spherical surface, the lens is composed of a plurality of lenses, and the lens comprises a plastic lens and a glass lens, and can be widely applied to security, vehicles, digital cameras, lasers and optical instruments.

And the lens technology is more and more widely applied along with the continuous development of the market. The lens is made according to the refraction law of light. The lens is a refractor, and the refracting surface of the lens is a transparent body with two spherical surfaces (part of spherical surface) or one spherical surface (part of spherical surface) and one plane. The optical lens needs to be subjected to a polishing treatment after being processed, the existing polishing device is low in efficiency, a motor is used for circularly using polishing liquid in domestic and foreign polishing, and impurities generated by the motor can scratch the lens and damage the surface precision of the lens, so that the market demand cannot be met.

The existing optical lens cold machining polishing design is unreasonable, the cooling liquid is not recycled, the cooling liquid pollutes equipment, the service life of the equipment is shortened, heat in the polishing process cannot be effectively reduced, cold machining polishing cannot be achieved, the fixing is complex, the use is inconvenient, the automation degree is low, the optical lens can not be polished in all directions, the polishing angle cannot be adjusted, and the polishing effect is poor.

The device is improved aiming at the defects of the existing device, and the cold machining and polishing device for the optical lens is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optical lens cold processing burnishing device to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an optical lens cold processing burnishing device, includes through the subaerial bottom plate of inflation fix with screw, X axle moving mechanism is installed in bottom plate up end left side, X axle moving mechanism top has platform rotary mechanism through the fix with screw, platform rotary mechanism top is provided with work piece fixed establishment, cooling body is installed to work piece fixed establishment front side, Y axle moving mechanism is installed on bottom plate up end right side, Y axle moving mechanism up end passes through the fix with screw angulation adjustment mechanism, the last grinding machanism of installing of angulation adjustment mechanism.

As a further aspect of the present invention: the X-axis moving mechanism comprises an X-axis supporting seat fixed with the bottom plate through screws, a motor A is mounted on the rear end face of the X-axis supporting seat, the front of the motor A is connected with a lead screw A through a coupler, the front end and the rear end of the lead screw A are respectively connected with a front lead screw seat A and a rear lead screw seat A in a sliding mode, the lead screw A is connected with a lead screw fixing block A, linear rails A are arranged on the two sides of the lead screw A respectively, and the linear rails A are mounted on the bottom plate through screws.

As a further aspect of the present invention: platform rotary mechanism includes the platform base B who is connected with lead screw fixed block A up end, there is the backup pad platform base B top through the screw connection, mid-mounting has the intermediate junction board between the backup pad, the mounting panel is installed to the upper end between the backup pad, reduction gear A is installed to the terminal surface under the intermediate junction board, reduction gear A is connected with motor B, reduction gear A upper end passes through the coupling joint with the axis of rotation, axis of rotation and bearing frame A sliding connection, bearing frame A passes through the fix with screw on last mounting panel, the axis of rotation upper end passes through the screw connection with the platform of polishing, the terminal surface installs solid fixed cylinder under the last mounting panel.

As a further aspect of the present invention: the workpiece fixing mechanism comprises a fixing bottom plate arranged on the upper mounting plate through screws, a pressing cylinder is arranged on the upper end face of the fixing bottom plate and connected with a pressing rod through screws, a pressing shaft is arranged on the lower end face of the pressing rod, and the lower end of the pressing shaft is connected with a pressing block through a bearing.

As a further aspect of the present invention: the cooling mechanism passes through the cooling mounting panel of fix with screw including pressing the depression bar front end, be fixed with gas circuit pipe and coolant liquid pipe on the cooling mounting panel, go up the mounting panel up end and install the coolant liquid and collect the box, the coolant liquid is collected the box and is adopted annular cavity, the coolant liquid is collected the box and is set up with the axle center with the platform of polishing.

As a further aspect of the present invention: y axle moving mechanism is including fixing the support column in the bottom plate upper end, the support column up end passes through the screw connection with the supporting baseplate, supporting baseplate up end mid-mounting has Y axle mounting panel, motor C is installed to Y axle mounting panel right-hand member face, motor C passes through the coupling joint with lead screw B, lead screw B both ends respectively with preceding lead screw seat B, back lead screw seat B sliding connection, install lead screw fixed block B on the lead screw B, lead screw B both sides are provided with linear rail B, linear rail B passes through the fix with screw on Y axle mounting panel.

As a further aspect of the present invention: the angle adjusting mechanism comprises a U-shaped base connected with the upper end face of a lead screw fixing block B, bearing seats B are respectively installed at two ends of the U-shaped base, the bearing seats B are connected with a rotating shaft A in a sliding mode, the rotating shaft A is in key connection with a large synchronous pulley, the large synchronous pulley is connected with one end of a synchronous belt, the other end of the synchronous belt is connected with a small synchronous pulley, the small synchronous pulley is in key connection with a speed reducer B, the speed reducer B is connected with a motor D, and the rotating shaft A is in screw connection with two ends of a U-shaped rotating plate.

As a further aspect of the present invention: the polishing mechanism comprises a speed reducer C connected with the middle of the U-shaped rotating plate through a screw, the speed reducer C is connected with a motor E, and a main shaft of the motor E is connected with a polishing head through a key.

Compared with the prior art, the beneficial effects of the utility model are that: manually placing an optical lens on a polishing platform, starting a pressing cylinder, driving a pressing block to press the upper part of the optical lens downwards, starting a motor E, driving a polishing head to rotate, starting a motor C, driving a lead screw B to rotate, thereby realizing that the polishing head moves leftwards and polishes the optical lens, starting a motor D, driving a large synchronous belt pulley and a small synchronous belt pulley to rotate, driving a U-shaped rotating plate to rotate for adjusting the angle, polishing the optical lens at different angles, starting a motor B, driving a rotating shaft to rotate, thereby driving the optical lens to rotate, polishing the optical lens in all directions, simultaneously, a fixed cylinder props against the polishing platform, preventing the optical lens from moving in the polishing process, blowing air in the polishing process by an air path pipe and a cooling liquid pipe, spraying cooling liquid, and collecting the cooling liquid into a cooling liquid collecting box, prevent that the coolant liquid from polluting equipment, improved the life of equipment, the effectual heat that reduces the in-process of polishing has realized the cold processing polishing, and fixed convenient and fast, degree of automation is high, realizes that optical lens is all-round to polish, and the angle of polishing is adjustable, and it is effectual to polish.

Drawings

Fig. 1 is a schematic diagram of the axial side structure of the present invention.

Fig. 2 is a schematic structural view of the X-axis moving mechanism of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is a schematic structural view of the Y-axis moving mechanism of the present invention.

Fig. 5 is the structural schematic diagram of the angle adjusting mechanism and the polishing mechanism of the present invention.

Wherein: the device comprises a bottom plate 1, an X-axis moving mechanism 2, a platform rotating mechanism 3, a workpiece fixing mechanism 4, a cooling mechanism 5, a Y-axis moving mechanism 6, an angle adjusting mechanism 7 and a polishing mechanism 8;

an X-axis support base 201, a motor A202, a lead screw A203, a front lead screw base A204, a rear lead screw base A205, a lead screw fixing block A206 and a linear rail A207;

the grinding machine comprises a platform base B301, a supporting plate 302, a middle connecting plate 303, an upper mounting plate 304, a speed reducer A305, a motor B306, a rotating shaft 307, a bearing seat A308, a grinding platform 309 and a fixed cylinder 310;

a fixed base plate 401, a pressing cylinder 402, a pressing rod 403, a pressing shaft 404, and a pressing block 405;

a cooling mounting plate 501, an air passage pipe 502, a cooling liquid pipe 503, and a cooling liquid collecting box 504;

the device comprises a support column 601, a support bottom plate 602, a Y-axis mounting plate 603, a motor C604, a screw B605, a front screw seat B606, a rear screw seat B607, a screw fixing block B608 and a linear rail B609;

a U-shaped base 701, a bearing seat B702, a rotating shaft A703, a large synchronous pulley 704, a small synchronous pulley 705, a synchronous belt 706, a speed reducer B707, a motor D708 and a U-shaped rotating plate 709;

reduction gear C801, motor E802, sanding head 803.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-5, in the embodiment of the present invention, an optical lens cold working polishing apparatus includes a bottom plate 1 fixed on the ground by an expansion screw, the fixing is stable and reliable, and the movement of the apparatus is effectively prevented, an X-axis moving mechanism 2 is installed on the left side of the upper end surface of the bottom plate 1, the X-axis moving mechanism 2 is arranged to effectively drive the optical lens to move in the X-axis direction, a platform rotating mechanism 3 is fixed on the X-axis moving mechanism 2 by a screw, the platform rotating mechanism 3 drives the optical lens to rotate, so as to realize all-directional polishing, a workpiece fixing mechanism 4 is arranged on the top of the platform rotating mechanism 3, the workpiece fixing mechanism 4 is arranged to effectively fix the optical lens, a cooling mechanism 5 is installed on the front side of the workpiece fixing mechanism 4 to effectively cool down the polishing process, a Y-axis moving mechanism 6 is installed on the right side of, the upper end face of the Y-axis moving mechanism 6 is fixed with an angle adjusting mechanism 7 through a screw, a polishing mechanism 8 is installed on the angle adjusting mechanism 7, and the angle adjusting mechanism 7 drives the polishing mechanism 8 to realize angle adjustment.

X axle moving mechanism 2 includes and supports seat 201 with bottom plate 1X axle through the fix with screw, motor A202 is installed to X axle support seat 201 rear end face, motor A202 provides power for X axle moving mechanism 2, motor A202 the place ahead passes through the coupling joint with lead screw A203, lead screw A203 front and back end respectively with preceding lead screw seat A204, back lead screw seat A205 sliding connection, be connected with lead screw fixed block A206 on the lead screw A203, lead screw A203 both sides are provided with linear rail A207 respectively, linear rail A207 has improved equipment mobility stability, linear rail A207 passes through the mounting screw on bottom plate 1.

Platform rotary mechanism 3 includes the platform base B301 of being connected with lead screw fixed block A20 terminal surface, there is backup pad 302 platform base B301 top through screwed connection, mid-mounting has intermediate junction board 303 between the backup pad 302, mounting panel 304 is installed to the upper end between the backup pad 302, reduction gear A305 is installed to the terminal surface under intermediate junction board 303, reduction gear A305 is connected with motor B306, reduction gear A305 upper end passes through the coupling joint with axis of rotation 307, axis of rotation 307 and bearing frame A308 sliding connection, bearing frame A308 passes through the fix with screw on last mounting panel 304, axis of rotation 307 upper end passes through the screw connection with the platform 309 of polishing, fixed cylinder 310 is installed to the terminal surface under the last mounting panel 304, fixed cylinder 310 prevents the in-process of polishing, and the platform 309 of polishing rotates, leads to the effect of polishing to descend.

The workpiece fixing mechanism 4 comprises a fixing bottom plate 401 which is arranged on an upper mounting plate 304 through screws, a pressing air cylinder 402 is arranged on the upper end face of the fixing bottom plate 401, the pressing air cylinder 402 is connected with a pressing rod 403 through screws, a pressing shaft 404 is arranged on the lower end face of the pressing rod 403, and the lower end of the pressing shaft 404 is connected with a pressing block 405 through a bearing.

Cooling body 5 passes through the cooling mounting panel 501 of fix with screw including pressing depression bar 403 front end, be fixed with gas circuit pipe 502 and coolant liquid pipe 503 on the cooling mounting panel 501, go up mounting panel 304 up end and install the coolant liquid and collect box 504, the coolant liquid is collected box 504 and is adopted annular cavity, and is effectual to carry out recycle to the coolant liquid, the coolant liquid is collected box 504 and is set up with the axle center with polishing platform 309.

The Y-axis moving mechanism 6 comprises a supporting column 601 fixed at the upper end of the bottom plate 1, the upper end face of the supporting column 601 is connected with the supporting bottom plate 602 through screws, a Y-axis mounting plate 603 is installed in the middle of the upper end face of the supporting bottom plate 602, a motor C604 is installed on the right end face of the Y-axis mounting plate 603, the motor C604 is connected with a lead screw B605 through a coupler, two ends of the lead screw B605 are respectively connected with a front lead screw seat B606 and a rear lead screw seat B607 in a sliding mode, a lead screw fixing block B608 is installed on the lead screw B605, linear rails B609 are arranged on two sides of the lead screw B605, and the linear rails B609 are fixed.

The angle adjusting mechanism 7 comprises a U-shaped base 701 connected with the upper end face of a lead screw fixing block B608, bearing seats B702 are respectively installed at two ends of the U-shaped base 701, the bearing seats B702 are connected with a rotating shaft A703 in a sliding mode, the rotating shaft A703 is connected with a large synchronous pulley 704 through a key, the large synchronous pulley 704 is connected with one end of a synchronous belt 706, the other end of the synchronous belt 706 is connected with a small synchronous pulley 705, the small synchronous pulley 705 is connected with a speed reducer B707 through a key, the speed reducer B707 is connected with a motor D708, and two ends of the rotating shaft A703 and two ends of a U-shaped rotating plate 709 are connected through screws.

Example 2

The grinding mechanism 8 comprises a speed reducer C801 which is connected with the middle of the U-shaped rotating plate 709 through a screw, the speed reducer C801 is connected with a motor E802, and a main shaft of the motor E802 is connected with a grinding head 803 through a key.

The utility model discloses a theory of operation is: when the optical lens cold-processing polishing device is used, in operation, an optical lens is manually placed on the polishing platform 309, the pressing cylinder 402 is started to drive the pressing block 405 to press the upper part of the optical lens downwards, the motor E802 is started to drive the polishing head 803 to rotate, the motor C604 is started to drive the screw rod B605 to rotate, so that the polishing head 803 moves leftwards to polish the optical lens, the motor D708 is started to drive the large synchronous belt pulley 704 and the small synchronous belt pulley 705 to rotate to drive the U-shaped rotating plate 709 to rotate to drive the polishing head 803 to adjust the angle, the optical lens is polished at different angles, the motor B306 is started to drive the rotating shaft 307 to rotate, so that the optical lens is driven to rotate, the motor A202 is started to drive the optical lens to move in the X-axis direction to polish the optical lens in all directions, and during polishing, the fixing cylinder 310 is pressed against the polishing platform 309 to prevent the optical lens, in the process of polishing, gas circuit pipe 502 and coolant pipe 503 are blown at the in-process of polishing, spout the coolant liquid, and the coolant liquid is collected during the coolant liquid collects box 504, prevents that the coolant liquid from polluting equipment, has improved the life of equipment, and the effectual heat that reduces the in-process of polishing has realized cold work polishing, and degree of automation is high, and fixed convenient and fast realizes all-round the polishing of optical lens, and the angle of polishing is adjustable, and it is effectual to polish.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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. The utility model provides an optical lens cold processing burnishing device, includes through expansion screw fixation at subaerial bottom plate (1), its characterized in that, X axle moving mechanism (2) are installed in bottom plate (1) up end left side, X axle moving mechanism (2) top has platform rotary mechanism (3) through the fix with screw, platform rotary mechanism (3) top is provided with work piece fixed establishment (4), cooling body (5) are installed to work piece fixed establishment (4) front side, Y axle moving mechanism (6) are installed on bottom plate (1) up end right side, Y axle moving mechanism (6) up end passes through fix with screw angulation adjustment mechanism (7), install grinding machanism (8) on angle adjustment mechanism (7).

2. The optical lens cold processing and polishing device as claimed in claim 1, wherein the X-axis moving mechanism (2) comprises an X-axis supporting seat (201) fixed to the base plate (1) through screws, a motor a (202) is installed on a rear end face of the X-axis supporting seat (201), a front end of the motor a (202) is connected to a lead screw a (203) through a coupler, a front end and a rear end of the lead screw a (203) are respectively connected to a front lead screw seat a (204) and a rear lead screw seat a (205) in a sliding manner, the lead screw a (203) is connected to a lead screw fixing block a (206), linear rails a (207) are respectively arranged on two sides of the lead screw a (203), and the linear rails a (207) are installed on the base plate (1) through screws.

3. The optical lens cold-processing polishing device as claimed in claim 2, wherein the platform rotating mechanism (3) comprises a platform base B (301) connected with the upper end face of the lead screw fixing block A (206), a support plate (302) is connected above the platform base B (301) through a screw, an intermediate connecting plate (303) is installed in the middle between the support plates (302), an upper mounting plate (304) is installed at the upper end between the support plates (302), a speed reducer A (305) is installed at the lower end face of the intermediate connecting plate (303), the speed reducer A (305) is connected with a motor B (306), the upper end of the speed reducer A (305) is connected with a rotating shaft (307) through a coupler, the rotating shaft (307) is connected with a bearing seat A (308) in a sliding manner, the bearing seat A (308) is fixed on the upper mounting plate (304) through a screw, and the upper end of the rotating shaft (307) is connected with a polishing, and a fixed cylinder (310) is arranged on the lower end surface of the upper mounting plate (304).

4. The optical lens cold working polishing device according to claim 3, wherein the workpiece fixing mechanism (4) comprises a fixing bottom plate (401) on the upper mounting plate (304) through screws, a pressing cylinder (402) is mounted on the upper end surface of the fixing bottom plate (401), the pressing cylinder (402) is connected with a pressing rod (403) through screws, a pressing shaft (404) is mounted on the lower end surface of the pressing rod (403), and the lower end of the pressing shaft (404) is connected with a pressing block (405) through a bearing.

5. The optical lens cold-working polishing device according to claim 4, wherein the cooling mechanism (5) comprises a cooling mounting plate (501) fixed at the front end of the pressing rod (403) through a screw, an air channel pipe (502) and a cooling liquid pipe (503) are fixed on the cooling mounting plate (501), a cooling liquid collecting box (504) is mounted on the upper end face of the upper mounting plate (304), the cooling liquid collecting box (504) adopts an annular cavity, and the cooling liquid collecting box (504) and the polishing platform (309) are coaxially arranged.

6. An optical lens cold working polishing device according to claim 1, characterized in that said Y-axis moving mechanism (6) comprises a support column (601) fixed to the upper end of the base plate (1), the upper end surface of the supporting column (601) is connected with a supporting bottom plate (602) through a screw, a Y-axis mounting plate (603) is arranged in the middle of the upper end surface of the supporting bottom plate (602), the right end face of the Y-axis mounting plate (603) is provided with a motor C (604), the motor C (604) is connected with a lead screw B (605) through a coupler, two ends of the screw B (605) are respectively connected with the front screw seat B (606) and the rear screw seat B (607) in a sliding way, a lead screw fixing block B (608) is arranged on the lead screw B (605), linear rails B (609) are arranged on two sides of the lead screw B (605), the linear rail B (609) is fixed on the Y-axis mounting plate (603) through a screw.

7. The optical lens cold processing polishing device as claimed in claim 6, wherein the angle adjusting mechanism (7) comprises a U-shaped base (701) connected with the upper end face of a lead screw fixing block B (608), bearing seats B (702) are respectively installed at two ends of the U-shaped base (701), the bearing seats B (702) are slidably connected with a rotating shaft A (703), the rotating shaft A (703) is connected with a large synchronous pulley (704) through a key, the large synchronous pulley (704) is connected with one end of a synchronous belt (706), the other end of the synchronous belt (706) is connected with a small synchronous pulley (705), the small synchronous pulley (705) is connected with a speed reducer B (707) through a key, the speed reducer B (707) is connected with a motor D (708), and the rotating shaft A (703) is connected with two ends of a U-shaped rotating plate (709) through screws.

8. An optical lens cold working polishing device according to claim 7, characterized in that said grinding mechanism (8) comprises a speed reducer C (801) connected with the middle of the U-shaped rotating plate (709) through a screw, said speed reducer C (801) is connected with a motor E (802), and the main shaft of said motor E (802) is connected with the grinding head (803) through a key.