CN112894539A - Lens processing device - Google Patents

Abstract

A lens processing apparatus comprising: the placing assembly comprises a placing component, and pushing components are arranged on two sides of the upper end of the placing component; the transfer component is arranged at the outer side end of the placing component; the rotating assembly comprises a supporting member arranged on one side of the placing member, the upper end of the supporting member is provided with a rotating motor, and an output shaft of the rotating motor is connected with the rotating member; the clamping assembly comprises a supporting seat arranged on the other side of the placing component, the upper end of the supporting seat is provided with a driving component, and the driving component is provided with a pushing component; the processing assembly comprises a moving component arranged on the opposite side of the placing component, and the moving component is provided with a processing component.

Description

Lens processing device

Technical Field

The invention relates to the technical field related to lens processing equipment, in particular to a lens processing device.

Background

The lens is an optical element which is made of transparent materials and has a part of spherical surface, and is used for a glass or plastic component on a lamp to change the direction of light or control the distribution condition of light distribution. The lens has strong light-gathering capacity, so that the road is illuminated by the lens, and the road surface is bright and clear. Compared with the traditional lamp, the illuminating lamp with the lens type lamp cap has uniform brightness and strong penetrating power.

As shown in the perspective view of the lens 6 in fig. 17, it can be seen that the lens 6 is composed of a hemispherical lens 61 and a circular ring 60 formed at the edge of the hemispherical lens 61, and such lens 6 is generally manufactured by extrusion, and such extrusion typically generates a flash on the arc wall of the edge of the circular ring 60, and after extrusion, the outer arc wall of the circular ring 60 needs to be processed to make the circular ring 60 reach a certain diameter.

In the processing process of the existing lens 6, because one end of the lens 6 is of a spherical structure and the other end of the lens is of a plane structure, the clamping during processing is inconvenient, the existing processing device has the characteristic of lower processing efficiency, meanwhile, the existing processing device has the inconvenience of transferring during processing, the transferring precision is lower, the clamping and positioning effect during processing is poor, and the processing quality of the lens 6 is finally influenced greatly.

Disclosure of Invention

The invention provides a lens processing device, which is used for solving the defects of the prior art, facilitating the transfer of lens processing, realizing the high-precision transfer of the lens, pushing the lens during processing, improving the lens processing efficiency, accurately and stably clamping the lens, and driving the lens to rotate during processing, thereby facilitating the processing of the lens, obviously improving the processing efficiency and the processing quality of the lens and having stronger practicability.

In order to achieve the purpose of the invention, the following technology is adopted:

a lens processing apparatus comprising:

the placing assembly comprises a placing component, and pushing components are arranged on two sides of the upper end of the placing component;

the transfer component is arranged at the outer side end of the placing component;

the rotating assembly comprises a supporting member arranged on one side of the placing member, the upper end of the supporting member is provided with a rotating motor, and an output shaft of the rotating motor is connected with the rotating member;

the clamping assembly comprises a supporting seat arranged on the other side of the placing component, the upper end of the supporting seat is provided with a driving component, and the driving component is provided with a pushing component;

the processing assembly comprises a moving component arranged on the opposite side of the placing component, and the moving component is provided with a processing component;

the lens processing device comprises a placing component, a pushing component, a transferring component, a rotating motor, a driving component and a rotating component, wherein the placing component is used for placing a lens, the pushing component is used for pushing the lens, the transferring component is used for transferring the lens, the rotating motor is used for driving the rotating component to rotate, the driving component is used for driving the pushing component to perform pushing motion, and the pushing component and the rotating component are matched with each other and used for.

The placing component comprises a base plate, wherein a first key-shaped plate is arranged on one side of the base plate, an outward extending bottom plate is arranged on the outward extending first key-shaped plate, first mounting plates are arranged on the outward extending bottom plate in an equally spaced array, upward extending support plates are arranged on the upward extending first mounting plates in an upward extending mode, a placing concave part is arranged at the upper end of each upward extending support plate, strip holes are formed in the two sides of the placing concave part in a penetrating mode, a pair of downward extending side plates are arranged at the lower end of the placing concave part in a downward extending mode, and the downward extending side plates are fixed on the two sides;

the promotion component is including promoting bearing frame two pairs, promote the even both ends both sides of distributing in placing the concave part of bearing frame, promotion bearing frame medial extremity all is equipped with the installation curb plate, the installation curb plate is all installed in placing the concave part lateral wall, be located all to be equipped with between the promotion bearing frame of homonymy and promote the lead screw, the one end that promotes the lead screw all is connected with push motor, push motor all installs in the promotion bearing frame that is located the outside end, it all has the propelling movement seat to promote the lead screw soon, promote the seat medial extremity and all wear the rectangular hole, install the intermediate lamella between the medial extremity of propelling movement seat, intermediate lamella one side is equipped with the arc.

Further, the transfer assembly comprises a lower mounting plate arranged at the outer side end of the placed concave part, the lower mounting plate extends upwards to form an upper extension connecting plate, an upper fixing plate is arranged at the upper end of the upper extension connecting plate, a telescopic cylinder is installed on the upper fixing plate, a telescopic plate is arranged at the movable end of the telescopic cylinder, a lifting cylinder is installed on the telescopic plate, a lifting plate is arranged at the movable end of the lifting cylinder, a pair of lower extension plates are arranged at two ends of the lifting plate in a downward extending mode, a lifting fixing plate is arranged at the lower end of the lower extension plates, an upper clamping piece is installed on the lifting fixing plate, a clamping cylinder is installed at the outer side end of the upper clamping piece, a clamping fixing plate is installed at the movable end of the clamping cylinder, a lower clamping piece is installed at one end of the clamping fixing plate, the lower clamping piece is located under the upper clamping piece, half-arc grooves are formed in one.

Further, the supporting member is including locating the first end plate of base plate one end, and the first end plate upwards extends be equipped with first pillar, and the upper end of first pillar is equipped with first fagging, and what first fagging upwards extended is equipped with first interior board that stretches, and first bearing frame is installed to first interior board that stretches, and the rotation motor is installed in the outside end of first bearing frame.

Furthermore, the rotating component comprises a first rotating rod connected to an output shaft of the rotating motor, a first rotating disc is arranged at the other end of the first rotating rod, connecting rods are arranged on the first rotating disc in a circumferential array, a second rotating disc is arranged at the other end of each connecting rod, an anti-skidding rubber pad is arranged at the outer side end of each second rotating disc, and the first rotating rod is sleeved with the anti-shaking component;

the anti-shake component comprises a ferrule sleeved on the first rotating rod, the ferrule is provided with a radiation plate in a circumferential array, the outer side end of the radiation plate is provided with an outer ring plate, the outer ring plate is provided with a first fixing rod in a circumferential array, the other end of the first fixing rod is provided with a fixing foot, and the fixing foot is fixed on the first bearing seat.

Further, the supporting seat comprises a second end plate arranged at the other end of the base plate, a second supporting column is arranged on the second end plate in an upward extending mode, a second supporting plate is arranged at the upper end of the second supporting column, a second inward extending plate is arranged on the second supporting plate in an upward extending mode, and a second bearing seat is arranged on the second inward extending plate.

Furthermore, the driving component comprises a third mounting plate mounted at the upper end of the second bearing seat, a driving bearing seat is mounted on the third mounting plate in an upward extending mode, a driving motor is mounted at the inner side end of the driving bearing seat, an output shaft of the driving motor is connected with a driving wheel, four outwards extending fixing rods are arranged at the outer side end of the driving bearing seat, a mounting convex plate is arranged at the other end of each outwards extending fixing rod, a sleeve is arranged at the inner side end of the mounting convex plate, an output shaft of the driving motor is sleeved with the sleeve, and a driven.

Further, the pushing component comprises an outer ring, outer convex plates are arranged on the outer wall of the outer ring in a circumferential array, the outer convex plates are all installed on the second bearing seat, a limiting ring is arranged on the inner side of the outer ring, dumbbell rods are arranged in the limiting ring in a circumferential array, the middle positions of the dumbbell rods are tangent to the inner wall of the limiting ring, a rotating ring is arranged in the limiting ring, the outer arc wall of the rotating ring is in a circumferential array formed limiting arc groove, the dumbbell rods are all arranged in the limiting arc groove, a threaded cylinder is installed on the outer wall of the rotating ring, a driven wheel is arranged on the threaded cylinder, an L-shaped part is arranged on the outer wall of the rotating ring in a circumferential array, a limiting arc plate is arranged at the other end of the L-shaped part, the limiting arc plate is;

the pushing mechanism comprises a threaded cylinder internally screwed with a threaded head, the inner end of the threaded head is provided with a pushing rod, the outer wall of the pushing rod is formed with inward concave grooves in a circumferential array, the other end of the pushing rod is provided with a fourth mounting disc, the fourth mounting disc is provided with a fifth mounting disc, the fifth mounting disc is provided with an epitaxial plate in a circumferential array, the epitaxial plate is provided with a middle connecting plate extending outwards, both ends of the middle connecting plate are provided with sixth mounting plates, the sixth mounting plate at the inner end is mounted on the epitaxial plate, the sixth mounting plate at the outer end is provided with a cross plate, the outer end of each supporting plate of the cross plate is provided with an assembling rod, the assembling rods are provided with limiting wheels, both ends of each limiting wheel are provided with outer limiting wheels, the cross plate is provided with a fourth rotating shaft, the fourth rotating shaft is concentric with the pushing rod, the other end of the fourth rotating shaft is provided with a rotating wheel, the outer arc wall of the rotating wheel is formed with a U-shaped arc, the outer arc walls of the outer limit wheels are tangent to the outer arc walls of the rotating wheels, a cross-shaped plate is arranged at the other end of the assembling rod, a rotating head is connected to the other end of the rotating wheel and located at the outer side end of the cross-shaped plate, a spherical arc groove is formed in the outer side end of the rotating head, a soft rubber pad is arranged on the inner wall of the spherical arc groove, a guide member is sleeved on the ejector rod, and the guide member is mounted at the inner side end of the second bearing seat;

the guide member comprises a bottom ring arranged at the inner side end of the second bearing seat, the bottom ring is concentric with the ejector rod, the bottom ring is provided with outwards extending connecting rods in a circumferential array, the outer side end of each extending connecting rod is provided with a limiting convex seat, the inner side end of each limiting convex seat is provided with a limiting disc, the limiting discs are concentrically formed with through holes, the ejector rod penetrates through the through holes, limiting inserting plates are formed on the inner walls of the through holes, and the limiting inserting plates are all inserted into the inward recessed grooves.

Furthermore, the moving component comprises a second key-shaped plate arranged at the middle position of the other side of the base plate, the second key-shaped plate is provided with a second base plate extending outwards, two ends of the second base plate extend upwards to form a pair of moving bearing seats, the moving bearing seats positioned at the outer side ends are provided with moving motors, the output shafts of the moving motors are connected with moving screw rods, two pairs of guiding fixed plates are arranged at two sides between the moving bearing seats, each pair of guiding fixed plates positioned at the same side are provided with a mounting vertical plate at two ends, the mounting vertical plates are both arranged on the moving bearing seats, the guiding fixed plates are provided with guiding strips, the guiding strips of the pair of guiding fixed plates positioned at the lower end extend upwards, the guiding strips of the pair of guiding fixed plates positioned at the upper end extend downwards, the guiding strips are both matched with matching seats, the I-shaped plates are both arranged between the matching seats positioned at the same side, two ends, the movable base is screwed on the movable screw rod.

Further, the processing component includes the cross inner panel, and cross inner panel both ends all are equipped with the rectangular plate, and the rectangular plate that is located the lower extreme is installed in the upper end of removing the seat, and four angles between the rectangular plate all are equipped with interior montant four, and cross inner panel cover is equipped with the rectangle frame, and ann's board in installing is installed to the rectangle frame outer wall, and ann's board outward is installed to interior ann board, and ann's board outward is equipped with the processing sword that is equipped with of extending outward.

The technical scheme has the advantages that:

the lens processing device is convenient to transfer during lens processing, can transfer the lens with high precision, can push the lens during processing, improves the lens processing efficiency, can accurately and stably clamp the lens, can drive the lens to rotate during processing, is convenient to process the lens, also obviously improves the processing efficiency and the processing quality of the lens, and has strong practicability.

Drawings

Fig. 1 shows a perspective view of a first embodiment.

Fig. 2 shows a perspective view of the second embodiment.

Fig. 3 shows a three-dimensional structure of one embodiment.

Fig. 4 shows a perspective structural view of one embodiment.

Fig. 5 shows a perspective view of one embodiment.

Fig. 6 shows a perspective view of a sixth embodiment.

Fig. 7 shows an enlarged view at a.

Fig. 8 shows an enlarged view at B.

Fig. 9 shows an enlarged view at C.

Fig. 10 shows an enlarged view at D.

Fig. 11 shows an enlarged view at E.

Fig. 12 shows an enlarged view at F.

Fig. 13 shows an enlarged view at G.

Fig. 14 shows an enlarged view at H.

Fig. 15 shows an enlarged view at J.

Fig. 16 shows an enlarged view at K.

Fig. 17 shows a perspective view of the lens.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in when used, and are only used for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

The terms "parallel", "perpendicular", etc. do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined. For example, "parallel" merely means that the directions are more parallel relative to "perpendicular," and does not mean that the structures are necessarily perfectly parallel, but may be slightly tilted.

Furthermore, the terms "substantially", and the like are intended to indicate that the relative terms are not necessarily strictly required, but may have some deviation. For example: "substantially equal" does not mean absolute equality, but because absolute equality is difficult to achieve in actual production and operation, certain deviations generally exist. Thus, in addition to absolute equality, "substantially equal" also includes the above-described case where there is some deviation. In this case, unless otherwise specified, terms such as "substantially", and the like are used in a similar manner to those described above.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 16, a lens processing apparatus includes: placing module 1, transferring module 2, rotating module 3, holding module 4 and processing module 5.

The placing assembly 1 comprises a placing component 10, wherein pushing components 11 are arranged on two sides of the upper end of the placing component 10; a transfer unit 2 provided at the outer end of the placement member 10; the rotating assembly 3 comprises a supporting member 30 arranged on one side of the placing member 10, a rotating motor 31 is arranged at the upper end of the supporting member 30, and an output shaft of the rotating motor 31 is connected with a rotating member 32; the clamping assembly 4 comprises a supporting seat 40 arranged at the other side of the placing component 10, a driving component 41 is arranged at the upper end of the supporting seat 40, and a pushing component 42 is arranged on the driving component 41; the processing assembly 5 comprises a moving member 50 arranged at the opposite side of the placing member 10, and the moving member 50 is provided with a processing member 51. The placing component 10 is used for placing the lens, the pushing component 11 is used for pushing the lens, the transferring component 2 is used for transferring the lens, the rotating motor 31 is used for driving the rotating component 32 to rotate, the driving component 41 is used for driving the pushing component 42 to carry out pushing movement, and the pushing component 42 and the rotating component 32 are matched with each other for clamping the lens during processing.

The placing component 10 comprises a substrate 105, a first key plate 100 is installed on one side of the substrate 105, an outward extending bottom plate 101 is arranged on the outward extending first key plate 100, the outward extending bottom plate 101 is provided with a first installing plate 102 in an equal interval array, the upward extending supporting plate 103 is arranged on the upward extending first installing plate 102, a placing concave part 104 is installed at the upper end of the upward extending supporting plate 103, long strip holes 1040 are formed in two sides of the placing concave part 104 in a penetrating mode, a pair of downward extending side plates 1041 are arranged on the downward extending lower end of the placing concave part 104, and the downward extending side plates 1041 are fixed on two sides of the upward extending supporting plate 103. The pushing component 11 comprises two pairs of pushing bearing seats 110, the pushing bearing seats 110 are uniformly distributed on two sides of two ends of the placing concave part 104, the inner side ends of the pushing bearing seats 110 are respectively provided with an installation side plate 1100, the installation side plates 1100 are respectively installed on the side wall of the placing concave part 104, pushing screw rods 111 are respectively arranged between the pushing bearing seats 110 on the same side, one ends of the pushing screw rods 111 are respectively connected with a pushing motor 112, the pushing motors 112 are respectively installed on the pushing bearing seats 110 on the outer side ends, the pushing screw rods 111 are respectively screwed with a pushing seat 113, the inner side ends of the pushing seats 113 are respectively penetrated in the strip holes 1040, an intermediate plate 114 is installed between the inner side ends of the pushing seats 113, and an arc plate 115 is.

The transfer assembly 2 comprises a lower mounting plate 20 arranged at the outer side end of the placing concave part 104, the lower mounting plate 20 is provided with an upper extending connecting plate 21 extending upwards, the upper end of the upper extending connecting plate 21 is provided with an upper fixing plate 22, the upper fixing plate 22 is provided with a telescopic cylinder 23, the movable end of the telescopic cylinder 23 is provided with a telescopic plate 24, the telescopic plate 24 is provided with a lifting cylinder 25, the movable end of the lifting cylinder 25 is provided with a lifting plate 26, the two ends of the lifting plate 26 extend downwards and are provided with a pair of lower extending supporting plates 27, the lower end of the lower extending supporting plate 27 is provided with a lifting fixing plate 28, the lifting fixing plate 28 is provided with an upper clamping piece 29, the outer side end of the upper clamping piece 29 is provided with a clamping cylinder 290, the movable end of the clamping cylinder 290 is provided with a clamping fixing plate 291, one end of the clamping fixing plate 291 is provided with a lower clamping piece 292, the lower clamping piece 292 is positioned under the upper clamping piece 29, one side, the semi-arc groove 293 is opposite to the rotating member 32.

The supporting member 30 includes a first end plate 300 disposed at one end of the base plate 105, the first end plate 300 is provided with a first supporting pillar 301 extending upwards, a first supporting plate 302 is disposed at an upper end of the first supporting pillar 301, the first supporting plate 302 is provided with a first inward extending plate 303 extending upwards, the first inward extending plate 303 is provided with a first bearing seat 304, and the rotating motor 31 is mounted at an outer end of the first bearing seat 304. The rotating member 32 includes a first rotating rod 320 connected to the output shaft of the rotating motor 31, a first rotating disc 321 is disposed at the other end of the first rotating rod 320, connecting rods 322 are disposed on the first rotating disc 321 in a circumferential array, a second rotating disc 323 is disposed at the other end of the connecting rods 322, an anti-slip rubber pad 324 is disposed at the outer end of the second rotating disc 323, and the anti-shake member 33 is sleeved on the first rotating rod 320. The anti-shake member 33 includes a collar 334 sleeved on the first rotating rod 320, the collar 334 is provided with a circumferential array of radiation plates 333, an outer ring plate 332 is provided at an outer side end of the radiation plates 333, the outer ring plate 332 is provided with a circumferential array of first fixing rods 331, the other ends of the first fixing rods 331 are provided with fixing pins 330, and the fixing pins 330 are fixed on the first bearing seat 304.

The supporting seat 40 includes a second end plate 400 disposed at the other end of the base plate 105, a second supporting column 401 is disposed on the second end plate 400 in an upward extending manner, a second supporting plate 402 is disposed at an upper end of the second supporting column 401, a second inward extending plate 403 is disposed on the second supporting plate 402 in an upward extending manner, and a second bearing seat 404 is mounted on the second inward extending plate 403. The driving member 41 includes a third mounting plate 410 mounted on the upper end of the second bearing seat 404, a driving bearing seat 411 is mounted on the third mounting plate 410 in an upward extending manner, a driving motor 412 is mounted on the inner side end of the driving bearing seat 411, an output shaft of the driving motor 412 is connected with a driving wheel 416, an outward extending fixing rod 413 is arranged at four corners of the outer side end of the driving bearing seat 411 in an outward extending manner, a mounting convex plate 414 is arranged at the other end of the outward extending fixing rod 413, a sleeve 415 is arranged on the inner side end of the mounting convex plate 414, the sleeve 415 is sleeved on the output shaft of. The pushing member 42 comprises an outer ring 420, outer convex plates 421 are arranged on the outer wall of the outer ring 420 in a circumferential array, the outer convex plates 421 are all mounted on the second bearing seat 404, a limit ring 422 is arranged on the inner side of the outer ring 420, dumbbell rods 423 are arranged in the limit ring 422 in a circumferential array, the middle positions of the dumbbell rods 423 are tangent to the inner wall of the limit ring 422, a rotating ring 424 is arranged in the limit ring 422, the outer arc wall of the rotating ring 424 is formed into a limit arc groove in a circumferential array, the dumbbell rods 423 are all arranged in the limit arc groove, a thread cylinder 427 is mounted on the outer wall of the rotating ring 424, a driven wheel 417 is arranged on the thread cylinder 427, an L-shaped piece 425 is arranged on the outer wall of the rotating ring 424 in a circumferential array, a limit arc plate 427 is arranged at the other end of the L-shaped piece 425, the limit arc plate 426. The pushing mechanism 43 comprises a threaded barrel 427 internally screwed with a threaded head 430, the inner end of the threaded head 430 is provided with a pushing rod 431, the outer wall of the pushing rod 431 is circumferentially arrayed and formed with an inward recessed groove 4310, the other end of the pushing rod 431 is provided with a fourth mounting plate 4311, the fourth mounting plate 4311 is provided with a fifth mounting plate 432, the fifth mounting plate 432 is circumferentially arrayed and provided with an outward extending plate 433, the outward extending plate 433 is provided with a middle connecting plate 434, both ends of the middle connecting plate 434 are provided with sixth mounting plates 4340, the sixth mounting plate 4340 at the inner end is mounted on the outward extending plate 433, the sixth mounting plate 4340 at the outer end is provided with a cross plate 435, the outer ends of each supporting plate of the cross plate 435 are provided with an assembling rod 4350, the assembling rods 4350 are provided with a limiting wheel 438, both ends of the limiting wheel 438 are provided with an outward limiting wheel 4380, the cross plate 435 is provided with a fourth rotating shaft 436, the fourth rotating shaft 436 is concentric with the pushing rod 431, the other end, the outer arc wall of the rotating wheel 437 is formed with a U-shaped arc groove 4370, the outer arc walls of the limiting wheels 438 are all tangent to the U-shaped arc groove 4370, the outer arc walls of the outer limiting wheels 4380 are all tangent to the outer arc walls of the rotating wheel 437, the other end of the assembling rod 4350 is provided with a cross-shaped plate 439, the other end of the rotating wheel 437 is connected with a rotating head 4390, the rotating head 4390 is located at the outer side end of the cross-shaped plate 439, the outer side end of the rotating head 4390 is formed with a spherical arc groove 4391, the inner wall of the spherical arc groove 4391 is provided with a soft rubber pad, the push rod 431 is sleeved with a guide member 44, and the guide member 44 is mounted. The guiding member 44 includes a bottom ring 440 mounted at the inner end of the second bearing seat 404, the bottom ring 440 is concentric with the pushing rod 431, the bottom ring 440 is provided with outward extending connecting rods 441 in a circumferential array, the outer end of the outward extending connecting rods 441 is provided with a limiting boss 442, the inner end of the limiting boss 442 is provided with a limiting disc 443, the limiting disc 443 is concentrically formed with through holes, the pushing rod 431 penetrates through the through holes, the inner wall of the through holes is formed with limiting insertion plates 444, and the limiting insertion plates 444 are all inserted into the inner recessed groove 4310.

The moving member 50 includes a second key plate 500 installed at the middle position of the other side of the base plate 105, the second key plate 500 is provided with a second base plate 501 extending outwards, two ends of the second base plate 501 extend upwards and are provided with a pair of moving bearing seats 502, the moving bearing seats 502 located at the outer end are provided with a moving motor 503, an output shaft of the moving motor 503 is connected with a moving screw 5090, two pairs of guiding fixing plates 504 are respectively arranged at two sides between the moving bearing seats 502, two ends of each pair of guiding fixing plates 504 located at the same side are provided with a mounting riser 505, the mounting risers 505 are respectively installed on the moving bearing seats 502, the guiding fixing plates 504 are respectively provided with a guiding strip 5040, the guiding strip 5040 of each pair of guiding fixing plates 504 located at the lower end extends upwards, the guiding strips 5040 of each pair of guiding fixing plates 504 located at the upper end extend downwards, the guiding strips 5040 are respectively matched with a matching seat 506, an I-, a pair of inner supporting rods 508 are arranged at both ends of the I-shaped plate 507, a moving seat 509 is arranged between the I-shaped plates 507, and the moving seat 509 is screwed on a moving screw 5090.

Processing component 51 includes cross inner panel 510, and cross inner panel 510 both ends all are equipped with rectangular plate 511, and the rectangular plate 511 that is located the lower extreme is installed in the upper end of removing seat 509, and four angles between rectangular plate 511 all are equipped with internal stay montant 512 four, and cross inner panel 510 cover is equipped with rectangular frame 513, and ann's board 514 is installed in rectangular frame 513 outer wall, and ann's board 515 is installed outward to interior ann's board 514, and the outside extension of ann's board 515 is equipped with processing sword 516.

The device is according to the problems existing in the prior art, the whole lens is processed by mutually matching a placing component 1, a transferring component 2, a rotating component 3, a clamping component 4 and a processing component 5, wherein the placing component 1 can place and push the lens 6, the transferring component 2 conveniently transfers the height precision of the lens 6, the rotating component 3 and the clamping component 4 mutually match to process the lens 6, the rotating component 3 can drive the lens 6 to rotate so as to process the lens through the processing component 5, in the specific processing process, the lens 6 is placed in the placing component 1, then the lens is pushed through the placing component 1, then the lens 6 is transferred to the rotating component 3 side through the transferring component 2, then the lens is clamped through the clamping component 4, after the clamping is completed, the lens 6 is driven to rotate through the rotating component 3, and in the process of rotating the lens 6, the processing assembly 5 processes the lens 6, and after the processing is finished, the clamping effect of the clamping assembly 4 is cancelled, and the processed lens 6 is dismounted.

In specific operation process, place a plurality of lens 6 in placing concave part 104, in operation, start driving motor 112, it rotates to promote lead screw 111 under driving of driving motor 112, and the rotation that promotes lead screw 111 will drive and promote seat 113 and move along the length direction of rectangular hole 1040, and the motion that promotes seat 113 will drive arc 115 and move forward, and arc 115 will promote lens 6 and move forward, wherein arc 115 can carry on spacingly to the lens 6 that is located the tip, avoid lens 6 to take place the phenomenon that drops, and place concave part 104 and lead to lens 6's motion.

In a specific operation process, the telescopic cylinder 23 in the transfer assembly 2 is started, the telescopic plate 24 moves towards the side of the concave part 104 for placing the lens under the driving of the telescopic cylinder 23, then the lifting cylinder 25 is started, the upper clamping piece 29 moves downwards under the driving of the lifting cylinder 25, when the upper clamping piece 29 moves to the inner side end of the concave part 104, the clamping cylinder 290 is started, the lower clamping piece 292 moves downwards under the driving of the clamping cylinder 290 until the upper clamping piece 29 and the lower clamping piece 292 are opened to a certain degree, then the telescopic cylinder 23 is started, the upper clamping piece 29 and the lower clamping piece 292 move towards the lens side under the driving of the telescopic cylinder 23 until the lens moves between the upper clamping piece 29 and the lower clamping piece 292, then the clamping cylinder 290 is started to clamp the lens under the driving of the clamping cylinder 290, when clamping, the circular ring 60 is clamped in the semi-arc-shaped groove 293, and the semi-spherical lens 61 is clamped in the spherical groove 294, after the clamping is finished, the telescopic cylinder 23 is started, the lens 6 moves towards the clamping assembly 4 under the driving of the telescopic cylinder 23 and the lifting cylinder 25, after the transfer is finished, the clamping of the lens 6 is cancelled through the clamping cylinder 290, and then the clamping during lens processing is carried out.

During a specific lens processing and clamping process, the driving motor 412 is started, the driving wheel 416 rotates under the driving of the driving motor 412, the rotation of the driving wheel 416 drives the driven wheel 417 to rotate, and in order to ensure the stability of the driving wheel 416 during the rotation process, the sleeve 415 is sleeved on the output shaft of the driving motor 412, so that the driving wheel 416 is prevented from vibrating during the rotation process. The rotation of the driven wheel 417 drives the threaded cylinder 427 to rotate, and during the rotation of the threaded cylinder 427, the rotation ring 424 arranged at the inner end of the threaded cylinder 427 and the dumbbell rod 423 arranged outside the rotation ring 424 can limit the rotation of the rotation ring 424, and simultaneously facilitate the rotation of the rotation ring 424, the limiting ring 422 arranged outside the dumbbell rod 423 limits the outer side of the dumbbell rod 423, and meanwhile, in order to improve the stability of the rotation of the threaded cylinder 427, the corresponding limiting arc plate 426 is arranged at the inner end of the threaded cylinder 427 to limit the rotation of the threaded cylinder 427. The rotation of the threaded barrel 427 drives the threaded head 430 to perform pushing motion under the guidance of the guide member 44, and finally clamping of the lens is completed, wherein in order to enable the limiting inserting plate 444 in the guide member 44 to be embedded in the recessed groove 4310 of the ejector rod 431 and play a guiding role in clamping the ejector rod 431, so that the ejector rod 431 moves along the axial direction of the ejector rod 431, and further drives the rotating head 4390 to move towards the lens side, and further clamps the spherical end of the lens through the spherical arc groove 4391, and clamps and limits one end of the lens through the spherical arc groove 4391, so that the clamping and positioning of the lens are improved, and the rotating wheel 437 is limited by the rotating wheel 437 connected to the rotating head 4390 and the outer limiting wheel 4380 arranged outside the rotating wheel 437, so that the rotational stability of the lens during processing is improved, and the arrangement can facilitate the clamping and positioning of the lens, meanwhile, the stability of rotation during lens processing is facilitated, and the stability of lens processing is improved.

When the rotating member 32 rotates the lens, the rotating motor 31 is started, the first rotating rod 320 rotates under the driving of the rotating motor 31, the rotation of the first rotating rod 320 drives the second rotating disk 323 to rotate, the second rotating disk 323 can drive the lens clamped between the second rotating disk 323 and the rotating head 4390 to rotate when rotating, the lens processes the ring 61 of the lens in the rotating process processing assembly 5, wherein the anti-shake member 33 can prevent the lens from shaking in the processing process when rotating the second rotating disk 323, the ferrule 334 sleeved on the first rotating rod 320 limits the rotation of the first rotating rod 320, and the stability of the lens in the processing and rotating process is obviously improved.

When the processing component 5 processes the lens, the moving motor 503 is started, the moving screw 5090 is driven by the moving motor 503 to rotate, the moving seat 509 is driven by the rotation of the moving screw 5090 to move along the guide strip 5040, wherein the guide strip 5040 and the matching seat 506 sleeved on the guide strip 5040 guide the movement of the moving seat 509, when the moving seat 509 moves, the cross inner plate 510 in the processing component 51 is driven to move towards the lens side, when the cross inner plate 510 moves, the processing knife 516 moves towards the lens side, then the lens is processed by the processing knife 516, and when the processing is performed, the adjustment of different processing depths can be achieved by adjusting the position of the processing knife 516.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is apparent that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A lens processing apparatus, comprising:

the placing assembly (1) comprises a placing component (10), and pushing components (11) are arranged on two sides of the upper end of the placing component (10);

a transfer unit (2) provided at the outer end of the placement member (10);

the rotating assembly (3) comprises a supporting member (30) arranged on one side of the placing member (10), a rotating motor (31) is installed at the upper end of the supporting member (30), and an output shaft of the rotating motor (31) is connected with a rotating member (32);

the clamping assembly (4) comprises a supporting seat (40) arranged on the other side of the placing component (10), a driving component (41) is arranged at the upper end of the supporting seat (40), and a pushing component (42) is arranged on the driving component (41);

the processing assembly (5) comprises a moving component (50) arranged on the opposite side of the placing component (10), and the moving component (50) is provided with a processing component (51);

the lens placing device comprises a placing component (10), a pushing component (11), a transferring assembly (2), a rotating motor (31), a driving component (41) and a pushing component (42), wherein the placing component (10) is used for placing lenses, the pushing component (11) is used for pushing the lenses, the transferring assembly (2) is used for transferring the lenses, the rotating motor (31) is used for driving the rotating component (32) to rotate, the driving component (41) is used for driving the pushing component (42) to perform pushing movement, and the pushing component (42) and the rotating.

2. The lens processing device according to claim 1, wherein the placement member (10) comprises a base plate (105), a first key plate (100) is mounted on one side of the base plate (105), the first key plate (100) extends outwards to form an overhanging base plate (101), the overhanging base plate (101) is provided with first mounting plates (102) in an equally spaced array, the first mounting plates (102) are provided with upwards extending support plates (103) which extend upwards, the upper ends of the upwards extending support plates (103) are provided with placement concave parts (104), strip holes (1040) are formed through two sides of the placement concave parts (104), the lower ends of the placement concave parts (104) extend downwards to form a pair of downwards extending side plates (1041), and the downwards extending side plates (1041) are fixed on two sides of the upwards extending support plates (103);

the pushing component (11) comprises two pairs of pushing bearing seats (110), the pushing bearing seats (110) are uniformly distributed on two sides of two ends of a placed concave part (104), the inner side ends of the pushing bearing seats (110) are provided with mounting side plates (1100), the mounting side plates (1100) are mounted on the side wall of the placed concave part (104), pushing screw rods (111) are arranged between the pushing bearing seats (110) on the same side, one ends of the pushing screw rods (111) are connected with pushing motors (112), the pushing motors (112) are mounted on the pushing bearing seats (110) on the outer side ends, the pushing screw rods (111) are provided with pushing seats (113) in a rotating mode, the inner side ends of the pushing seats (113) penetrate through long strip holes (1040), middle plates (114) are mounted between the inner side ends of the pushing seats (113), and arc plates (115) are arranged on one side of the middle plates (114).

3. The lens processing device according to claim 2, wherein the transfer assembly (2) comprises a lower mounting plate (20) disposed at the outer end of the concave member (104), the lower mounting plate (20) is provided with an upper extending connecting plate (21) extending upward, the upper end of the upper extending connecting plate (21) is provided with an upper fixing plate (22), the upper fixing plate (22) is provided with a telescopic cylinder (23), the movable end of the telescopic cylinder (23) is provided with a telescopic plate (24), the telescopic plate (24) is provided with a lifting cylinder (25), the movable end of the lifting cylinder (25) is provided with a lifting plate (26), two ends of the lifting plate (26) extend downward and are provided with a pair of lower extending support plates (27), the lower end of the lower extending support plate (27) is provided with a lifting fixing plate (28), the lifting fixing plate (28) is provided with an upper clamping member (29), the outer end of the upper clamping member (29) is provided with a clamping cylinder (290), the movable end of the clamping cylinder (290, lower folder (292) is installed to centre gripping solid board (291) one end, and lower folder (292) is located folder (29) under, and one side of folder (29) and lower folder (292) all is formed with semi-arc groove (293), and the tank bottom in semi-arc groove (293) all is formed with spherical groove (294), and semi-arc groove (293) are just to rotating member (32).

4. The lens processing apparatus according to claim 3, wherein the supporting member (30) comprises a first end plate (300) disposed at one end of the base plate (105), the first end plate (300) is provided with a first supporting pillar (301) extending upward, the upper end of the first supporting pillar (301) is provided with a first supporting plate (302), the first supporting plate (302) is provided with a first inward extending plate (303) extending upward, the first inward extending plate (303) is provided with a first bearing seat (304), and the rotating motor (31) is mounted at the outer end of the first bearing seat (304).

5. The lens processing apparatus according to claim 4, wherein the rotating member (32) comprises a first rotating rod (320) connected to the output shaft of the rotating motor (31), the other end of the first rotating rod (320) is provided with a first rotating disk (321), the first rotating disk (321) is provided with connecting rods (322) in a circumferential array, the other end of the connecting rods (322) is provided with a second rotating disk (323), the outer side end of the second rotating disk (323) is provided with an anti-slip rubber pad (324), and the first rotating rod (320) is sleeved with the anti-shake member (33);

the anti-shake component (33) comprises a ferrule (334) sleeved on the first rotating rod (320), the ferrule (334) is provided with a radiation plate (333) in a circumferential array, an outer ring plate (332) is arranged at the outer side end of the radiation plate (333), the outer ring plate (332) is provided with a first fixing rod (331) in a circumferential array, the other end of the first fixing rod (331) is provided with a fixing foot (330), and the fixing foot (330) is fixed on the first bearing seat (304).

6. The lens processing apparatus according to claim 5, wherein the supporting base (40) includes a second end plate (400) provided at the other end of the base plate (105), the second end plate (400) is provided with a second supporting pillar (401) extending upward, the upper end of the second supporting pillar (401) is provided with a second supporting plate (402), the second supporting plate (402) is provided with a second inwardly extending plate (403) extending upward, and the second inwardly extending plate (403) is provided with a second bearing seat (404).

7. The lens processing device according to claim 6, wherein the driving member (41) includes a third mounting plate (410) mounted on the upper end of the second bearing seat (404), the third mounting plate (410) is provided with a driving bearing seat (411) extending upward, the inner end of the driving bearing seat (411) is provided with a driving motor (412), an output shaft of the driving motor (412) is connected with a driving wheel (416), four corners of the outer end of the driving bearing seat (411) extend outward and are provided with an outward-extending fixing rod (413), the other end of the outward-extending fixing rod (413) is provided with a mounting convex plate (414), the inner end of the mounting convex plate (414) is provided with a sleeve (415), the sleeve (415) is sleeved on the output shaft of the driving motor (412), and the driving wheel (417) is.

8. The lens processing device according to claim 7, wherein the pushing member (42) comprises an outer ring (420), outer convex plates (421) are arranged on the outer wall of the outer ring (420) in a circumferential array, the outer convex plates (421) are all mounted on the second bearing seat (404), a limiting ring (422) is arranged on the inner side of the outer ring (420), dumbbell rods (423) are arranged in the limiting ring (422) in a circumferential array, the middle positions of the dumbbell rods (423) are tangent to the inner wall of the limiting ring (422), a rotating ring (424) is arranged in the limiting ring (422), a limiting arc groove is formed on the outer arc wall of the rotating ring (424) in a circumferential array, the dumbbell rods (423) are all arranged in the limiting arc groove, a threaded cylinder (427) is mounted on the outer wall of the rotating ring (424), a driven wheel (417) is arranged on the threaded cylinder (427), an L-shaped piece (425) is arranged on the outer wall of the rotating ring (424) in a circumferential array, and a limiting arc plate (426) is, the limit arc plate (426) is sleeved on the threaded cylinder (427), and a pushing mechanism (43) is transmitted in the threaded cylinder (427);

the pushing mechanism (43) comprises a threaded barrel (427) internally screwed with a threaded head (430), the inner side end of the threaded head (430) is provided with a pushing rod (431), the outer wall of the pushing rod (431) is formed with an inward concave groove (4310) in a circumferential array, the other end of the pushing rod (431) is provided with a fourth mounting disc (4311), the fourth mounting disc (4311) is provided with a fifth mounting disc (432), the fifth mounting disc (432) is provided with an outward extending plate (433) in a circumferential array, the outward extending plate (433) is provided with a middle connecting plate (434), both ends of the middle connecting plate (434) are provided with sixth mounting plates (4340), the sixth mounting plate (4340) positioned at the inner side end is mounted on the outward extending plate (433), the sixth mounting plate (4340) positioned at the outer side end is provided with a cross plate (435), the outer side end of each supporting plate of the cross plate (435) is provided with an assembling rod (4350), and the assembling rods (4350) are provided, two ends of the limiting wheel (438) are respectively provided with an outer limiting wheel (4380), the cross plate (435) is provided with a fourth rotating shaft (436), the fourth rotating shaft (436) is concentric with the ejector rod (431), the other end of the fourth rotating shaft (436) is provided with a rotating wheel (437), the outer arc wall of the rotating wheel (437) is provided with a U-shaped arc groove (4370), the outer arc wall of the limiting wheel (438) is tangent to the U-shaped arc groove (4370), the outer arc wall of the outer limiting wheel (4380) is tangent to the outer arc wall of the rotating wheel (437), the other end of the assembly rod (4350) is provided with a cross-shaped plate (439), the other end of the rotating wheel (437) is connected with a rotating head (4390), the rotating head (4390) is positioned at the outer side end of the cross-shaped plate (439), the outer side end of the rotating head (4390) is provided with a spherical arc groove (4391), the inner wall of the spherical arc groove (4391) is provided with a soft rubber pad, the ejector rod (431) is sleeved with a guide member (;

the guide member (44) comprises a bottom ring (440) arranged at the inner side end of the second bearing seat (404), the bottom ring (440) is concentric with the ejector rod (431), the bottom ring (440) is provided with outward extending connecting rods (441) in a circumferential array, the outer side ends of the outward extending connecting rods (441) are provided with limiting convex seats (442), the inner side ends of the limiting convex seats (442) are provided with limiting discs (443), the limiting discs (443) are concentrically formed with through holes, the ejector rod (431) penetrates through the through holes, limiting insertion plates (444) are formed on the inner walls of the through holes, and the limiting insertion plates (444) are inserted into the inner recessed grooves (4310).

9. The lens processing apparatus according to claim 8, wherein the moving member (50) includes a second key plate (500) installed at a middle position on the other side of the base plate (105), the second key plate (500) is provided with a second base plate (501) extending outward, a pair of moving bearing seats (502) are provided at both ends of the second base plate (501) extending upward, a moving motor (503) is installed on the moving bearing seat (502) located at the outer end, an output shaft of the moving motor (503) is connected with a moving screw (5090), two pairs of guiding fixing plates (504) are provided at both sides between the moving bearing seats (502), a mounting riser (505) is provided at both ends of each pair of guiding fixing plates (504) located at the same side, the mounting risers (505) are both installed on the moving bearing seats (502), the guiding fixing plates (504) are each provided with a guiding strip (5040), the guiding strips (5040) of the pair of guiding fixing plates (504) located at the lower end extend upward, the guide strips (5040) of the pair of guide fixing plates (504) positioned at the upper end extend downwards, the guide strips (5040) are matched with matching seats (506), I-shaped plates (507) are arranged between the matching seats (506) positioned at the same side, inner supporting rods (508) are arranged at two ends of each I-shaped plate (507), a moving seat (509) is arranged between the I-shaped plates (507), and the moving seat (509) is screwed on a moving screw (5090).

10. The lens processing apparatus according to claim 9, wherein the processing member (51) includes a cross-shaped inner plate (510), both ends of the cross-shaped inner plate (510) are provided with rectangular plates (511), the rectangular plates (511) located at the lower end are mounted at the upper end of the movable base (509), four corners between the rectangular plates (511) are provided with four internal supporting vertical rods (512), the cross-shaped inner plate (510) is sleeved with a rectangular frame (513), an internal mounting plate (514) is mounted on the outer wall of the rectangular frame (513), an external mounting plate (515) is mounted on the internal mounting plate (514), and the external mounting plate (515) is provided with a processing knife (516) extending outwards.

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